WO2002044868A2 - Method and apparatus of assuring informed consent while conducting secure clinical trials - Google Patents

Method and apparatus of assuring informed consent while conducting secure clinical trials Download PDF

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Publication number
WO2002044868A2
WO2002044868A2 PCT/US2001/051091 US0151091W WO0244868A2 WO 2002044868 A2 WO2002044868 A2 WO 2002044868A2 US 0151091 W US0151091 W US 0151091W WO 0244868 A2 WO0244868 A2 WO 0244868A2
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WIPO (PCT)
Prior art keywords
trial
frial
clinical
data
participants
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PCT/US2001/051091
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French (fr)
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WO2002044868A9 (en
WO2002044868A3 (en
Inventor
Glen M. De Vries
Edward F. Ikeguchi
Alexis E. Te
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Medidata Solutions, Inc.
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Application filed by Medidata Solutions, Inc. filed Critical Medidata Solutions, Inc.
Priority to AU2002239758A priority Critical patent/AU2002239758A1/en
Priority to US10/416,380 priority patent/US7596541B2/en
Publication of WO2002044868A2 publication Critical patent/WO2002044868A2/en
Publication of WO2002044868A3 publication Critical patent/WO2002044868A3/en
Publication of WO2002044868A9 publication Critical patent/WO2002044868A9/en

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Classifications

    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H80/00ICT specially adapted for facilitating communication between medical practitioners or patients, e.g. for collaborative diagnosis, therapy or health monitoring
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H10/00ICT specially adapted for the handling or processing of patient-related medical or healthcare data
    • G16H10/20ICT specially adapted for the handling or processing of patient-related medical or healthcare data for electronic clinical trials or questionnaires
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H40/00ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
    • G16H40/20ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the management or administration of healthcare resources or facilities, e.g. managing hospital staff or surgery rooms
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H40/00ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
    • G16H40/60ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
    • G16H40/67ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for remote operation
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S707/00Data processing: database and file management or data structures
    • Y10S707/99931Database or file accessing

Definitions

  • This invention relates to authenticating that a recorded event occurred in a proscribed manner and was performed by authorized personnel. More specifically, this invention relates to assuring that the recorded event occurred with an informed consent.
  • CROs Contract Research Organizations
  • a clinical trial is carried out in the following manner: At the initiation of a clinical trial, the company sponsoring the trial or the CRO contracted for the trial (the "sponsor") will select a number of trial investigators. These trial investigators are usually doctors who specialize in the area of medicine relevant to the new medical technology under study. The trial investigators are chosen based upon several criteria, including:
  • a trial protocol will be formulated to achieve the desired goals of the trial, and the protocol will be presented for review and approval before an Institutional Review Board (IRB).
  • the IRB is a committee consisting of peers and people with experience in the research field. It may consist of physicians, nurses, PhD's, bio-statisticians, bio-ethicists, and/or others qualified to evaluate research on human.
  • the IRB evaluates research protocols to assure scientific integrity while maintaining the trial participants' safety and privacy within a standard of ethics acceptable for human experimentation. Once a clinical trial is under way, the trial investigators do the following: 1) Begin recruiting trial participants that fit the inclusion/exclusion criteria of the protocol.
  • the trial data is collected by the trial investigators in the form of reports that are then forwarded to the sponsor.
  • Reporting generally takes the form of paper sheets that are handwritten and transmitted via fax or placed into digital form with the use of an electronic scanner.
  • These reports generally serve as the data collection vehicle with various parameters studied as outlined in the particular protocol.
  • the parameters studied in a clinical trial may include subjective findings such as trial participants' complaints, satisfaction, or symptoms.
  • Objective parameters may also be studied, which parameters include physical examination, laboratory or radiological tests, and other measured findings. Finally, a separate parameter followed in almost all trials is incidence of adverse events or complications from the treatment.
  • the trial monitor is a person who is usually hired by a CRO to verify that the data reported by the trial investigators corresponds to the source documentation, i.e., the trial participants' clinic records.
  • the trial monitor serves as an auditor of the trial investigators to police the integrity of the data collected.
  • the trial monitor also assures that all documentation, such as each trial participant's informed consent, is properly signed and that the trial investigators stay true to the procedure set forth in the trial protocol.
  • the trial monitor also checks to assure that the reports forwarded to the sponsor correspond to the actual medical records documented by a trial investigator in a trial participant's chart.
  • the sponsor is made cognizant of the overall status of the trial. For example, if an inordinate number of complications arise from the medical treatment, it is the sponsor's responsibility to know of the problem and to react.
  • the research investigator typically the doctor responsible for the trial does not explain the content of the informed consent document for which the patient's signature is solicited; 2) The occurrence of informed consent is backdated;
  • this interaction is the event that is documented in the trial participant's medical records and is a reflection of the trial participant's physical examination, reports of subjective complaints, interpretations of objective testing, and a synthesized analysis of the trial participant's information as a function of the trial investigator's professional training.
  • the present invention is a method of conducting clinical trials.
  • Each clinical trial includes members comprising trial administrators, trial monitors, trial investigators, and trial participants or patients. Additionally, these members may include reporters, scientists, and others interested in sampling the results of the study as it progresses.
  • the trial administrator selects the trial monitors, persons responsible with assuring the veracity of the study, and the trial investigators, persons such as nurses and doctors who will actually administer the study or trial.
  • the trial administrator will further define procedural guidelines for the performance of the clinical trial.
  • the trial investigators in turn will select the trial participants or patients to be enrolled in the clinical trial.
  • the trial monitors observe the conduct of the clinical trials to detect any deviations from the procedural guidelines previously established by the trial administrator.
  • the present invention allows the clinical trial to be conducted over a network, e.g., the Internet or a telephone grid.
  • the participants use computing devices connected to the network to perform transactions of the clinical trial.
  • Each of the tests comprises one or more periods of execution or intervals, test elements, and a plurality of exception limits.
  • All the trial participants are listed in a database and are assigned access and validation levels.
  • the clinical trial is performed according to the procedural guidelines by carrying out all of the transactions of the clinical trial.
  • the executed transactions are stored in a database. Any time during the performance of the clinical trial the stored transactions can be queried at random to assure veracity of the clinical trial and to notify the trial administrator if any discrepancy is found to prevent fraud.
  • Each transaction of the inventive method is performed by one of the members initiating a session by establishing a data path from a computing device equipped with various authentication hardware and/or software, to the computing device on which the inventive method is implemented.
  • the invention determines what level of access is allowed and what level of authentication is required for the logged-in member.
  • the members who are the trial participants and the trial investigators are shown a plurality of tests to choose from.
  • the trial data entry may begin.
  • the trial participants and the trial investigators are asked to reply to a plurality of questions or enter information corresponding to various elements of the test.
  • Each of the entered values is immediately evaluated to determine if values entered are outside of the exception limits.
  • the exception limits may be default or custom set by the trial administrator. If the exception limits are exceeded, the trial participants and the trial investigators are asked to verify if the values are correct.
  • the login authentication process initiates or starts the clock running on a time range within which data entry or the current session must conclude.
  • the login authentication process may include the input of more than one authorized personnel or member of the clinical trial during the established time range. Regardless of the number of authenticated parties or members of the clinical trial, the data entry may occur as follows:
  • authentications e.g., at least one authentication followed by data entry which is followed by at least one authentication or re-authentication, and so on;
  • Figure 1 is a network topology diagram, showing connectivity of various parts of the system of the present invention.
  • FIG. 2 is a diagram of the hardware components of computing devices used by the system of the present invention.
  • Figure 3 a is a flow diagram of a database entry program of the present invention, used to populate the application database.
  • Figure 3b is a logical relationship design diagram of elements comprising the records of the application database.
  • Figure 4a is a sample login screen for gaining access to the clinical trial management program of the present invention.
  • Figures 4b-4f are a sample screen of the clinical trial management program listing various test and intervals at which these tests are to be performed.
  • Figure 4g is a sample report screen of the clinical trial management program listing for the trial monitor various information indicating test performance status.
  • Figure 5 is a flow diagram of the clinical trial management program of the present invention.
  • Figure 6 is a logical relationship design diagram of elements comprising the records of the trial database and their relationship to elements of the application database.
  • Figure 7 is a flow diagram of the informed consent with biometric authentication.
  • Figures 8a-8c is a sample informed consent form.
  • Figure 8d is a display of a log of informed consent use during the execution of the trial.
  • Figure 9 is a flow diagram for utilizing an electronic signature without the use of the paper signature.
  • the inventive system 10 comprises computing devices 14, i.e., 14a, 14b, 14c, for use by trial participants and trial investigators, computing devices 16, i.e., 16,a, 16b, 16c, for use by trial monitors, a computing device 15 for use by a trial administrator, and computing devices 18, i.e., 18a, 18b, 18c, for use by laboratories to connect via the network 20 to a computing device 12, where the trial management program of the present invention is executed.
  • computing devices 14, i.e., 14a, 14b, 14c for use by trial participants and trial investigators
  • computing devices 16, i.e., 16,a, 16b, 16c for use by trial monitors
  • a computing device 15 for use by a trial administrator
  • computing devices 18, i.e., 18a, 18b, 18c for use by laboratories to connect via the network 20 to a computing device 12, where the trial management program of the present invention is executed.
  • Computing device 12 maintains and utilizes databases 11 which include an application database 1 la for defining trials, i.e., scopes of studies, a personnel database 1 lb for defining persons authorized to access the inventive system residing on computing device 12, and a trial database 1 lc for saving and maintaining information collected with reference to the trials of the applications database 11a.
  • the databases 11 do not have to be physically distinct, any distinction is made herein only for the purpose of clarity of description; in fact these databases 11 may be subdivided into more discreet units.
  • Computing device 12 gathers the trial data submitted through computing devices 14 and 16 for the purpose of collecting that information in the trial's database l ie.
  • the network 20 may be any type of a network, including a telephone network, a local area network, e.g., the Intranet, and a wide area network, e.g., the Internet.
  • the computing devices 12, 14, 15, 16, and 18 may take the configuration of any computer ranging from mainframes and personal computers (PCs) to digital telephones and hand held devices, e.g., PALM PILOTTM personal assistance devices.
  • a computing device may comprise a bus 30, which is connected directly to each of the following: a central processing unit (CPU) 32; a memory 34; a system clock 36; a peripheral interface 38; a video interface 40; an input/output (I/O) interface 42; a communications interface 44; and a multimedia interface 46.
  • the common bus 30 is further connected by the video interface 40 to a display 50; by the I/O interface 42 to a storage device 52, which may illustratively take the form of memory gates, disks, diskettes, compact disks (CD), digital video disks (DND), etc.; by the multimedia interface 46 to any multimedia component 56; by peripheral interface 38 to the peripherals 58, such as the keyboard, the mouse, navigational buttons, e.g., on a digital phone, a touch screen, and/or writing screen on full size and hand held devices, e.g., a PALM PILOT deviceTM; by the communications interface 44, e.g., a plurality of modems, to a network connection 60, e.g., an Internet Service Provider (ISP) and to other services, which is, or are, in turn connected to the network 20, whereby a data path is provided between the network 20 and the computing devices 12, 14, 15, 16, and 18 ( Figure 1) and, in particular, the common bus 30 of these computing devices; and furthermore, by
  • the trial administrator defines every aspect of any clinical trial, which may be administered by the inventive system.
  • Each aspect of the clinical trial of the inventive system is defined by one of a series of database tables 70, shown in Figure 3b.
  • These tables 70 may be developed and managed with the help of any modern database management software, such as ORACLE, SYBASE, MICROSOFT ACCESSTM, and others.
  • the tables 70 are stored in the application database 11a ( Figure 1).
  • Each of these tables 70 references other tables 70 by the virtue of a relational architecture.
  • the inventive system provides a method to enable the creation of the tables 70 to define the anticipated application data.
  • the hierarchical sequence of the method is shown in Figure 3 a.
  • the table defining parts of a clinical trial 72 ( Figure 3b) is defined, including the structure of the trial, i.e., randomized, prospective, placebo- controlled, etc.; and the number of patients or trial participants to be enrolled in the trial.
  • the time intervals table 74 ( Figure 3b) comprises timing information regarding individual tests, which may be defined, for example:
  • the tests table 76 ( Figure 3b), in turn, is defined in step 176 by listing the tests, e.g., the blood; the urine; the weight; and a quality of life questionnaire, to be performed and replied to. Elements of each test 76 may be further defined in step 178 in the elements table 78 ( Figure 3b), which may comprise test parameters such as:
  • test name 1) test name; 2) upper and lower limits of normal;
  • Each test element 78 may be determined to have particular exceptions. Exceptions are values or data points entered outside the predefined protocol intervals and tests. They are implemented in order to handle data for patient complications or adverse events, or other points of planned or unplanned data entry. In other words, exceptions are a determination by the trial administrator of what is to be considered abnormal, e.g., body temperature below 96° or above 106° Fahrenheit. In step 180 exceptions 80 ( Figure 3b) will be defined for each data element 78 of each test 76 ( Figure 3b) calling for such exceptions. Not every element 78 or test 76 may require an exception.
  • each part of one of the clinical trials in tables 72 ( Figure 3b) as defined by its elements in related tables 78 to be reusable, i.e., may be used to perform multiple clinical trials.
  • basic elements commonly found in clinical trials could be made available in a custom generated clinical trial.
  • the trial administrator trying to create a clinical trial may be presented with a panel of trial parts such as patient, doctor, blood test, heart exam, etc. Any trial element may be incorporated into a trial in a "drag-and-drop" or other fashion.
  • the trial administrators desiring to create or design clinical trials may do so by establishing a data path from the computing device 15 ( Figure 1) to the computing device 12, via the network 20 to access the clinical trial management program of the present invention. This can be accomplished by using an Internet-based browser program, e.g., Microsoft EXPLORERTM or Netscape NAVIGATORTM.
  • an Internet-based browser program e.g., Microsoft EXPLORERTM or Netscape NAVIGATORTM.
  • the trial administrator may create a new trial and begin defining the various elements of the trial.
  • the trial administrator may modify and delete any existing trials.
  • Figures 4b and 4c show the clinical trial 72 comprising intervals 74 and tests 76.
  • screen buttons 104 are clicked, further components of the trial record 72, e.g., test elements 78 ( Figure 3b) and the exceptions 80 ( Figure 3b) may be displayed.
  • Description "done" 106 indicates that the particular test 76 for the particular interval 74 has been performed. Defining Personnel Data
  • the trial administrators will be able to establish or modify an existing list of trial investigators and trial monitors in the personnel database 1 lb ( Figure 1) for the particular trial being developed. Moreover, the trial investigators will be able to enter into the personnel database 1 lb ( Figure 1), lists of names of trial participants/patients selected to participate in the particular study after the trial is developed and is being carried out.
  • Each entry, i.e., a person's name and pertinent data, of the database l ie ( Figure 1) will have an associated set of pre-established permission standards, different permission standards for the trial participants, trial investigators, and trial monitors.
  • These permission standards define the level of access available to each of the trial participants, trial investigators, and trial monitors involved in the trial to the application data in the database 11a ( Figure 1), the personnel data in the personnel database 1 lb ( Figure 1), and the trial data in the database l ie ( Figure 1).
  • the trial participant/patient would have access to subjective questionnaires in the application data in the database 11a ( Figure 1) without access to any other data collected by the inventive system.
  • the trial investigator will have access to patient specific information in the database l ie ( Figure 1), by patient name and by patient number as well as to summary data within the scope of his or her own results.
  • the trial administrator may also be able to define the type of investigator enrollment, e.g., an open enrollment allowing anyone qualified to act as the trial investigator to sign up or register as the trial investigator in the personnel database 1 lb ( Figure 1).
  • the trial administrator may choose to develop a trial whereby the trial investigators may have to make a telephone call, e- mail, or mail correspondence to the trial administrator to request and to be furnished the login information.
  • the trial administrator would update the entries of the personnel database 1 lb ( Figure 1) to give these invited trial investigators access to the inventive system.
  • the receipt of the login information would enable the trial investigator to sign up in the trial investigator registration saved in the personnel database 1 lb ( Figure 1) on the computing device 12 ( Figure 1).
  • the trial monitor will have access to patient specific information saved in the trial data database l ie ( Figure 1) and identified by patient number, i.e., no patient names are revealed.
  • the trial administrator in addition to full access to the application data database l ie ( Figure 1), will have access only to summary data of the trial database 1 lc ( Figure 1) for the entire trial without specific patient information.
  • biometric consent database 94 This information may also be recorded, along with a database identifier that relates the patient's biometric record with other clinical research data, in another data repository or within the biometric consent database 94 itself.
  • This biometric consent database 94 will be used in step 95, during the performance of the trial, described in detail below, to obtain informed consent verified with biometric authentication from the enrolled trial participants and investigators.
  • the informed consent may be requested at any time during the performance of the trial as dictated by the one or more clinical trials the trial participants are participating in, as well as any food and drug administration's rules regarding informed consent.
  • the trial may commence. After the trial is activated, the parameters defining the trial in the database 11a ( Figure 1) can no longer be manipulated. To facilitate creation of new trials, the entire existing trial may be copied to create a new trial and that trial's parameters may be modified.
  • the trial administrator contracts the trial investigators to select the trial participants and begin patient enrollment and data collection regarding these trial participants.
  • the trial administrator further contracts the trial monitors to monitor the veracity of the trial data.
  • the trial participants are selected, and lists of names of the trial participants are entered into the personnel database 1 lb ( Figure 1).
  • Figure 7 in step 90 all trial participants, and in step 92 all trial investigators are asked to provide a baseline biometric reading, consisting of one or more of voiceprint, fingerprint, iris scan, electronic signature or other biometric modality, along with one or more identifiers such as their name, a user name, a password combination, etc.
  • the identifiers may be entered into text boxes on the computer screen.
  • biometric consent database 94 The provided biometric information and identifiers are then permanently recorded into the biometric consent database 94. This information may also be recorded, along with a database identifier that relates the patient's biometric record with other clinical research data, in another data repository or within the biometric consent database 94 itself.
  • This biometric consent database 94 will now be used in step 95 to obtain informed consent verified with biometric authentication from the enrolled trial participants and investigators.
  • the informed consent may be requested at any time, as dictated by the one or more clinical trials the trial participants are participating in, as well as any food and drug administration's rules regarding informed consent.
  • the clinical trial management program of the present invention may read in the parameters of the trial established in the application data database 11a ( Figure 1) and automatically generate the appropriate questionnaires and forms to allow the trial participants of the trial to fill in the results of tests 77 ( Figure 4f).
  • the clinical trial management program 200 may be accessed by authorized personnel in step 202 through the login screen 102 ( Figure 4a).
  • step 204 judging by the login and determining the level of access through the use of the personnel database 1 lb ( Figure 1), a determination is made of what level of authentication should be performed, or whether authentication is necessary all together. It may be determined that further or additional authentication is required, such as biometrics authentication of a single or multiple trial participants, e.g., in situations where the authentication is used to guarantee the physical interaction between a trial investigator and a trial participant.
  • authentication steps such as biometrics, e.g., iris or finger print scan, facial recognition, voice print, retinal scan, facial recognition, etc., and/or DNA authentication, e.g., the blood, urine, hair, saliva, tissue sampling, etc., in step 206 or other, e.g., entering social security number, special ID codes, in step 208 may be required before proceeding.
  • the authentication may be performed on the individual members of the clinical trials, e.g., the trial investigators and the trial participants; or on the plurality of members of the clinical trials concurrently, e.g., a plurality of the trial investigators, a plurality of the trial participants, a combination of the trial investigators and trial participants.
  • the concurrent authentication of a plurality of members is utilized by the present invention in situations where the authentication is used to guarantee the physical interaction between the trial investigators and the trial participants.
  • the authentication tests may use flexible timeouts defined by the trial administrator for single and multiple interactive sessions with the trial participant. Moreover, these sessions are location independent. Each computing device 14, 15, 16, and 18 ( Figure 1) used in the authentication may be identified by a unique identification number, therefore the physical location of such components need not be fixed for the authentication purposes.
  • the preferred embodiment of the present invention contemplates but is not limited to personnel with predefined purposes. Accommodation of personnel for many diverse purposes, e.g., television, magazine, and newspaper reporters, colleges, hospitals, competitors, statisticians, insurance companies, etc., not described in the preferred embodiment may be easily provided by the inventive system and may be as easily created by these skilled in the art.
  • step 210 the trial investigators and the trial participants will be shown a list of possible tests 72 ( Figure 4c).
  • Figure 4c After selecting a particular entry 76a ( Figure 4c) from the screen 72 ( Figures 4c), the trial investigators and the trial participants are presented with trial data entry screens, e.g., 76a-c ( Figures 4d-4f).
  • the program 200 may determine in step 211 that an informed consent is required before the trial data for the selected test is accepted.
  • the trial investigators or participants are then presented with the informed consent screen or document in step 95.
  • the trial investigators and participants will be asked in step 96 to review the consent document along with any necessary supporting documentation. This may be performed by presenting the informed consent document and supplemental information to the patient on the computer screen.
  • a sample Informed Consent Document 300 is shown in Figures 8a- 8c.
  • step 97 the trial investigators and the trial participants will indicate their agreement with the informed consent document either by typing their agreement into a text box on the computer screen or interacting with the clinical trial management program 200 ( Figure 5), for example, by checking a checkbox or clicking a button.
  • step 98 the trial investigators or the trial participants will then reenter any identifiers entered and saved in the biometric consent database 94 and perform a biometric authentication.
  • the clinical trial management program 200 requires that both the trial investigator's and the trial participant's authentication be performed on the same computing device and within a pre-set period of time, for example, 30 seconds, which insures that the trial investigator and the trial participant have interacted and the consent was given by the trial participant in the presence of the trial investigator.
  • the identifiers and biometric data are compared to the data recorded in the biometric consent database 94 and if they are matched successfully, the successful informed consent agreement is permanently recorded in step 99 in the consent database 94.
  • FIG. 8c An additional precaution taken by the inventive system in ascertaining the identity of the trial investigators and participants is the use of the electronic signature 302 (Figure 8c) to verify the consent form 300 electronically.
  • Figure 9 shows a process 310 for providing means to securely grant access via electronic means of communication, to users who are unknown and initially "not trusted", i.e., any information entered by unknown users can not be used for subsequent analysis by a central organization.
  • paper document e.g., informed consent, transmission, subsequent storage, geographic proximity and/or travel are eliminated.
  • the first step in assigning an electronic signature for clinical research that will undergo the FDA approval has been a paper-based signature. In that step the user agrees to the following:
  • the second step is for a member of the authorized organization that is assigning the electronic signature then physically verifies the identity of this person as well.
  • an unknown user performs the requisite first step by agreeing with a trusted entity by using a single public token.
  • the public token is a unique identifying information associated with the users when they interact with the system, i.e., their username.
  • the trusted entity accepts and processes the user provided public token.
  • the trusted entity is a human or electronic system that resides within a trusted and closed area defined by an electronic data collection system, such as the present invention.
  • the public token could be a biometric identification, such as a fingerprint or iris scan. A non-biometric public token may be told to or intercepted by any 3 rd party at any time without exposing the trusted system to infiltration.
  • a secret token is then generated by the electronic system from the accepted public token.
  • This secret token may be in the form of a simple text token, e.g., a password, or a more complex secret token, such as an encryption key.
  • This secret token is then transmitted, by public means, and is received by the user in step 318.
  • the public means may include a telephone line, e-mail, fax, etc.
  • the secret token is stored by the trusted entity along with the user's public token.
  • the users electronically identify themselves to the system. Their identification includes their public and secret token and any additional information that the organization may require, for example, the user's full name and contact information could be collected at this time.
  • step 324 the system confirms that the entered secret token matches the public token. If it does, a notification is sent to the user by either the same or alternate transmission means confirming that they may access the system. This transmission does not contain any public or secret token information.
  • step 326 the users may be requested once again to electronically identify themselves to the system using their public and secret tokens.
  • step 328 the system may generate a new secret token or automatically prompt the users to create new secret tokens themselves, e.g., "Please choose a new password.” This new secret token is then securely stored in the system and becomes the users second or private token for access. The user is now considered trusted and research data can be collected.
  • test participants start to enter test result data in step 212.
  • the test screens 76a-c ( Figures 4d-4f) are dynamically generated by the clinical trial management program 200.
  • the actions required i.e., defined in the application data database 11a ( Figure 1), are evaluated and only these required are presented.
  • data entered in response may lead to additional options to be displayed. Actions that have been previously completed are displayed as such, giving instant feedback regarding what was previously entered into the system.
  • step 214 a logout path may be taken.
  • a transaction of the clinical trial management program 200 begins following the login in step 202 and the authentication in step 204. All the information entered during the session after the login and before the logout is considered a part of this transaction. The transaction will not be committed, i.e., be made a part of the permanent storage 52 ( Figure 2) until the whole session is completed.
  • the clinical trial management program 200 dynamically executes scripts to perform the first level of validation of the data values 77 ( Figures 4d-4f) entered.
  • the executed scripts may validate entered data values 77 ( Figures 4d-4f) and may be executed by the browser program, e.g., Microsoft EXPLORER or Netscape NANIGATOR, using its built-in functionality on the computing devices 14, 15, 16, and 18 ( Figure 1).
  • the executed scripts may validate entered data values 77 ( Figures 4d-4f) on the computing device 12 ( Figure 1) to provide two levels of data validation.
  • step 216 saves these values 77 ( Figures 4d-4f) in the current transaction, executes the scripts to perform the second level of validation as described above.
  • the values 77 ( Figures 4d-4f), entered for each element are once again compared with the exception ranges 80 ( Figure 3b) and with the acceptable data change rate.
  • the data change rate is determined by comparing values 77 ( Figures 4d-4f) to those entered for the same element at previous intervals. Should the values 77 ( Figures 4d-4f) be either out of the exception range 80 ( Figure 3b) or change at a rate beyond the preset exception change rate for the given element, an exception record 270 ( Figure 6) is added to the current transaction.
  • step 218 it is determined if one or more exceptions are generated at the given interval for the given element. If exceptions are generated, in step 219 the trial investigators and participants may be asked to review and sign the consent documents along with any necessary supporting documentation and indicate their agreement with the informed consent document as described above with reference to step 95 ( Figure 7) and described in detail above. After the consent is given in step 95 or if consent is not required as determined in step 219, an exception record causes new tests to be added to the trial participant's complete trial record in step 220 as well as the elements within that new text that must be completed to close the trial participant's participation in the trial. At this point it is possible to offer an option of completing the exception data immediately or to queue the exception for completion at a later time.
  • step 222 If in step 222 it is determined that the exception is to be completed now, the test form for the exception is presented and the data entry loop starting in the step 212 is repeated. Otherwise, in step 224 the exception is queued, and will then appear in the appropriate data entry options of the step 210.
  • Each record 270 comprises the following fields: 1) A unique key 270a used to identify the transaction.
  • a test key 270d for identifying the particular tests table 76 ( Figure 6a) that the values 77 ( Figures 4d-4f) are associated with.
  • An element key 270e for identifying or pointing back to the element in the elements table 78 ( Figure 6a) that the values 77 ( Figures 4d-4f) correspond to.
  • a data certification code field 270i comprising a plurality of random digits.
  • the current methods of administering a clinical trial involve monitoring the trial centers to assure research integrity.
  • the basic role of the trial monitor is to verify that the data entered by the clinical investigator corresponds to the records taken in the source documentation.
  • the source documentation denotes the trustworthiest record of the data because it contains records of the interactions between the trial investigator and the trial participant and the resultant outcome of any tests taken.
  • the source documentation is held in such high regard because it contains the trial investigator's signature.
  • the source documentation is regarded as the trial participant's medical chart.
  • the present invention describes a method by which the source documentation can be generated by the computer application. All new data values entered into the trial database are grouped according to the date, time, trial participant, computer address, and login episode.
  • the trial investigator's computing device 16 may print a record of the activities of each patient handled by the trial investigator during any given login episode. This record will act as a legal record of the investigator's actions during a log in episode and be clearly marked with a statement affirming that the investigator has read the record and agrees with it. The investigator will then be asked to sign the record. The signed record can then be utilized as the source documentation since it contains a record of patient data with a verifying signature. The document may be appropriately formatted for placement into the trial participant's chart.
  • the inventive method makes the job of the trial monitor considerably easier.
  • the trial monitor may print out a list of data transactions and corresponding identification numbers. The trial monitor may then make certain that the events documented in the trial investigator's source documentation contains the correct identification numbers.
  • a unique identifier field 270j for the identity of the hardware such as the IP address of a network 20 ( Figure 1) connection 60 ( Figure 2) of the computing devices 12, 14, 15, 16, and 18 ( Figure 1).
  • each record 270 is recorded in the transaction that covers the entire session from login in step 202 to logout in step 214.
  • step 228 it is determined which authentication is to be performed, the biometrics, e.g., iris or fingerprint scan, retinal scan, facial recognition, DNA imprinting using hair, saliva, etc., in step 230 or other, e.g., entering social security number, special ID codes, in step 232 may be required before committing the transaction.
  • the authentication may be performed on the individual members of the clinical trials, e.g., the trial investigators and the trial participants or on the plurality of members of the clinical trials concurrently, e.g., a plurality of the trial investigators, a plurality of the trial participants, a combination of the trial investigators and trial participants.
  • step 234 it is determined if the required authentication at the end of the session was properly performed or failed. If the authentication failed, in step 236 the transaction is rolled back and the data does not become a permanent part of the trial data. In the alternative the transaction may become a permanent part of the trial data with a recorded indication that the logout authentication failed, or permanently logged outside of the trial data, however the transaction will be rolled back and the data will not become a part of the trial data in the trial data database l ie ( Figure 1). In step 238, the transaction is committed, i.e., recorded as a permanent record in the trial data database 1 lc ( Figure 1).
  • Additional determinations may indicate whether transaction comprising the values 77 ( Figures 4d-4f) will be rolled back in step 236 or committed in step 238.
  • a session may end because the timeout period specified for a particular or a group of the trial participants and trial investigators stored in the personnel database 1 lb ( Figure 1) has been exceeded.
  • a particularly useful feature of the present invention is its ability to accept results for individual trial participants as well as bulk results for groups of trial participants from laboratories connected by computing devices 18 (Figure 1) to the computing devices 12 ( Figure 1) via the network 20 ( Figure 1) or by a direct digital interface between the laboratory computing devices 18 ( Figure 1) and the computing device 12 ( Figure 1).
  • a plurality of samples of the trial participant's specimens e.g., blood, saliva, or urine
  • the results may be securely transferred to the trial data database 1 lc ( Figure 1).
  • the trial participants' privacy may be maintained by providing the laboratories only with the assigned trial participant unique number.
  • the laboratory computing device 18 may then cross-reference the trial database l ie ( Figure 1) using the trial participant unique number and input the appropriate laboratory test result. This will eliminate the need for human intervention in inputting the test results and therefore the possibility for human-error or fraud By Monitors
  • the trial monitor is the entity, person, or persons that constantly monitor the integrity of the trial insofar as the data entered and the conduct of the trial investigators and the trial personnel is concerned.
  • the frial administrator often contracts the trial monitors as part of the CROs or as independent consultants.
  • the trial monitor maintains a record of the activities of the trial investigators and makes certain that the data submitted by the trial investigator corresponds to the source documentation, i.e., the patient's medical record.
  • the trial monitor verifies whether the trial investigator has provided the proper informed consent and that the trial participant's characteristics conform to the inclusion and exclusion criteria specified in the trial protocol. All consents can be compared with all the exceptions (daily, weekly, monthly, per trial) to assure that all the consents were accepted when required.
  • Trial monitors will perform declared and undeclared visits to the trial investigator sites to audit the operations of the trial investigator in-person.
  • the inventive system may provide the trial monitor with access to limited information in the trial data database lie ( Figure 1). While the trial monitors may be free to view all trial participant information from the personnel database 1 lb ( Figure 1), they may not be able to identify these trial participants except by a unique code assigned to each trial participant for purposes of the trial.
  • the trial monitor may be asked to authenticate himself or herself in steps 206 or 208. This authentication is accomplished using either a fonn of biometrics measurement in step 206 or by username and password method in step 208.
  • trial monitor Once the trial monitor is properly logged into the application running on the computing device 12 ( Figure 1), they will have access to the entries of the trial participant related data stored in the personnel databases 1 lb ( Figure 1) and in the trial data database l ie ( Figure 1) referenced according to specific trial investigators, hi step 240, the trial monitors will be able to get complete reports of transactions performed by individual trial investigators, e.g., 84 ( Figure 4g), identified by data stamps including the following:
  • These reports may be created for each trial participant according to each time point, of the intervals 74 ( Figure 3b), tracked as per the trial protocol. Furthermore, these reports may enable the trial monitor to verify the trial investigator's source documentation against the data shown in the report. Separate reports may be generated for data that is missing, entered late, changed by the trial investigator, or is out of range.
  • Separate reports may further be generated for every adverse event reported by the trial investigator. Each report may list the adverse event and the follow-up necessary to be performed by the trial investigator in order to document the ultimate consequences to the trial participant.
  • Summary reports of the trial monitor's verified values 77 may be generate each time a trial monitor completes a review of either a single test element 78 ( Figure 3b) or group of tests 76 ( Figure 3b).
  • the verified values 77 will also be associated with identifying stamps such as date, time, trial monitor's biometrics authentication, etc. This report may ultimately be printed for approval by the trial investigator and signature.
  • the trial administrator may be given special access to certain forms of data while being restricted to others. For example, while the trial administrator may be able to view overall summary data about a frial, they will be unable to access patient-specific information in order to maintain patient privacy.
  • the application will have special functions available to the trial administrator. In general, the trial administrator will be able to have a real-time "bird's eye view" of the ongoing clinical trial.
  • the trial administrator After logging in step 202, the trial administrator will be asked to authenticate himself or herself as described above with reference to steps 204, 206 and 208.
  • the trial administrator will be enabled to obtain summary data of the trial and application-specific tools to allow manipulation of the summary data.
  • General functions available to the trial administrator could include summary information, analysis tools, and reporting tools.
  • a summary information area allows the trial administrator access to updates on the status of various frial investigator sites. In doing so, the frial administrator is able to see the performance of each trial investigator via parameters such as the number of patients enrolled or the number of completed patients or the number of delinquencies or the number of adverse events or by the answers to satisfaction-questionnaires about the trial investigators rated by patients/trial participants.
  • Analysis tools may also be available to the trial administrator such that raw summary data representing the current state of the trial will be able to be manipulated. For example, the trial administrator may be able to apply various statistical analysis functions, i.e., averages, standard deviations, control for data variables, etc., to generate graphs and charts. The trial administrator would also be able to use analysis tools to compare two or more trial investigator sites in terms of performance and view the results in graph or chart format.
  • Reporting tools may be provided such that the trial administrator can generate reports.
  • a pharmaceutical company testing a new drug may want a report that conforms to the outline of a new drug application; the frial administrator, for academic reasons might want a report that is later submitted as a clinical paper to a medical journal.
  • Templates for various kinds of reports will be available to the trial administrator.
  • the trial administrator will be able to customize their own template, which may consist of a series of headings and hierarchical subheadings to format a document.
  • the reports created may be integrated with the analysis tools such that graphs generated dynamically from the trial data will be incorporated into the report.
  • the application will allow for collaborative authoring and tracking of a document using a system by which parts of a document may be "checked-in” or “checked-out” by multiple trial administrators.
  • the reports created will be able to be output in multiple formats compatible with other word processing software or document readers, i.e., Adobe Acrobat, or Microsoft Word.
  • the trial administrator may immediately transfer the document electronically to the end viewer such as a peer review committee or a governmental regulatory board.
  • the present invention trains the trial participants to use handheld devices and other electronic data entry clients, such as wireless telephones, to answer questions and to report adverse events, h a fashion described above where the questionnaires are formatted electronically to enable entry of subjective data directly from the trial participants' computing devices 14 (Figure 1) over the network 20, the same can be accomplished with the use of wireless technologies where the computing device 14 is connected to the network 20 or even to the computing device 12 itself via wireless means.
  • the present invention enables the trial participants equipped with handheld devices to participate in clinical research. During that research, the trial participants may be prompted at specified times, through their hand held devices, to initiate certain health related activities, such as taking medication. Furthermore, the trial participants may be requested to enter data pertaining to health questionnaires.
  • the present invention Using a predefined list of trial participants, and network addresses of the handheld devices or the telephone numbers if these devices are telephones, the present invention notifies or reminds the trial participants to perform a trial-related activity at a specified time. If appropriate the trial-related activity through the handheld device, e.g., filling out an informed consent and signing it using the electronic signature as described above.
  • Questionnaire data may be entered in to the handheld device via a keyboard, by writing on a screen with a stylus, using interactive voice response (INR) or a voice recognition systems.
  • messages are routed to the trial administrator's computing devices 15 ( Figure 1), which can also be physically or wirelessly connected to the network 20 or an associated health care provider.
  • a message which can be a beep, a voice message, an e-mail, etc.
  • the trial participant can immediately report any form of adverse event, in which case the trial administrator or the associated health care provider will also be notified.

Abstract

The present invention is a method for conducting clinical trials. The clinical trial consists of the inventive system (10); a computing device (12); application database (11a), the personnel database (11b), and the trial data database; computing devices (14a), (14b), and (14c) for use by trial participants and trial investigators; computing device (15); computer devices (16a), (16b), and (16c) for use by trial monitors; computing devices (18a), (18b), and (18c) for use by laboratories to connect via the network (20).

Description

METHOD AND APPARATUS OF ASSURING INFORMED CONSENT WHILE CONDUCTING SECURE CLINICAL TRIALS
FIELD OF THE INVENTION
This invention relates to authenticating that a recorded event occurred in a proscribed manner and was performed by authorized personnel. More specifically, this invention relates to assuring that the recorded event occurred with an informed consent.
Background of the Invention
Companies in the pharmaceutical and biotechnology industries annually funnel huge monetary investments into research and development (R&D) of new medical technology, i.e., drugs, medical devices, and new methods or techniques to diagnose and treat medical disorders. The life cycle of any new medical technology generally originates in a laboratory, after which the new medical technology undergoes several phases of investigation to prove its safety and efficacy. Once a sufficient body of evidence has been amassed to assure such safety and efficacy, the new medical technology is sent before a regulatory committee for review. If the medical technology is subsequently approved, it can then be marketed for sale and sold, enabling the companies investing in that new medical technology to begin to realize the return on their investment in the development of the new technology. The life cycle for most of the new medical technology is lengthy; for example, as of 1997 the process of developing a new medical technology from laboratory to marketing took an average of 10 to 12 years.
Over the past decade a new industry has arisen as an adjunct to the clinical research process of developing new medical technologies. R&D service providing organizations, known as Contract Research Organizations (CROs) arose out of a growing need among the pharmaceutical and biotechnology companies to curb costs. Rather than hiring full-time research staff, companies turned to CROs as a resource for these companies to outsource the administrative and coordinating responsibilities for clinical research. Over time CROs compounded other value-added services to encompass a spectrum of services, including clinical trial coordination, monitoring of data collection, identification of quality research trial investigators and sites, and centralized laboratory testing. The development of the CROs was also logical for other reasons, including the favorable implications for the pharmaceutical and biotechnology companies to have their new medical technology tested under the unbiased eye of a third-party organization.
One of the greatest claims made by the CROs is the ability of their trained staff professionals to shorten the amount of time required to complete a research project, which would in turn shorten the amount of time required to pass regulatory scrutiny. As can be recognized from the protracted 10 to 12 year development period described above, such shortening of the life cycle time is very desirable for most pharmaceutical and biotechnology companies. This is especially true because while a newly invented drug or medical device may be patented upon discovery, with the 20 year patent term commencing on the date of filing of the patent application, such new medical technology does not become profitable until it is approved, marketed, and sold. Thus, if as described above, it can take 10 to 12 years for the new technology to become profitable, there will only be a limited portion of the patent term remaining. It is not inconceivable that after spending millions on R&D and after facing a tough regulatory approval process, a pharmaceutical or biotechnology company would have but 2 to 5 years of exclusivity to exploit the exclusion sale of the new medical technology. Such outcome is ultimately detrimental: it discourages R&D in the medical field, encourages hasty clinical research to expedite the regulatory process, and places smaller to mid-sized companies at a distinct disadvantage to the established "health care giants." The protracted pre-marketing time, particularly in the United States, has also been criticized as being a barrier to the passage of vital new medical technologies. In many cases, life-saving drugs can only be obtained in settings of research or in markets outside the control of the United States government. Despite the emergence of the CROs, their services are still severely under utilized.
It is estimated that in the United States less then 20% of the medical R&D market is captured by the CROs. These figures are far smaller outside of the United States, particularly in Europe and Japan. Life Cycle
Typically, a clinical trial is carried out in the following manner: At the initiation of a clinical trial, the company sponsoring the trial or the CRO contracted for the trial (the "sponsor") will select a number of trial investigators. These trial investigators are usually doctors who specialize in the area of medicine relevant to the new medical technology under study. The trial investigators are chosen based upon several criteria, including:
1) The number of trial participants seen and the ability of the trial investigator to accrue trial participants into the study.
2) The facility and support staff available to the trial investigator. 3) The trial investigator's ability to collect and maintain data in a secure fashion without compromising trial participant confidentiality or care.
A trial protocol will be formulated to achieve the desired goals of the trial, and the protocol will be presented for review and approval before an Institutional Review Board (IRB). The IRB is a committee consisting of peers and people with experience in the research field. It may consist of physicians, nurses, PhD's, bio-statisticians, bio-ethicists, and/or others qualified to evaluate research on human. The IRB evaluates research protocols to assure scientific integrity while maintaining the trial participants' safety and privacy within a standard of ethics acceptable for human experimentation. Once a clinical trial is under way, the trial investigators do the following: 1) Begin recruiting trial participants that fit the inclusion/exclusion criteria of the protocol.
2) Explain the risks and benefits of the trial to the trial participants.
3) Ask the trial participants to give an informed consent.
4) Apply new medical technology, i.e., administer medical treatments. 5) Initiate and continue trial data collection.
The trial data is collected by the trial investigators in the form of reports that are then forwarded to the sponsor. Reporting generally takes the form of paper sheets that are handwritten and transmitted via fax or placed into digital form with the use of an electronic scanner. These reports generally serve as the data collection vehicle with various parameters studied as outlined in the particular protocol. The parameters studied in a clinical trial may include subjective findings such as trial participants' complaints, satisfaction, or symptoms. Objective parameters may also be studied, which parameters include physical examination, laboratory or radiological tests, and other measured findings. Finally, a separate parameter followed in almost all trials is incidence of adverse events or complications from the treatment.
In the course of a clinical trial, an important responsibility is that of a trial monitor. The trial monitor is a person who is usually hired by a CRO to verify that the data reported by the trial investigators corresponds to the source documentation, i.e., the trial participants' clinic records. The trial monitor serves as an auditor of the trial investigators to police the integrity of the data collected. The trial monitor also assures that all documentation, such as each trial participant's informed consent, is properly signed and that the trial investigators stay true to the procedure set forth in the trial protocol. The trial monitor also checks to assure that the reports forwarded to the sponsor correspond to the actual medical records documented by a trial investigator in a trial participant's chart.
As the clinical trial progresses, the sponsor is made cognizant of the overall status of the trial. For example, if an inordinate number of complications arise from the medical treatment, it is the sponsor's responsibility to know of the problem and to react.
Sometimes such reactions may prematurely halt the trial. Conversely, it is not uncommon for the new medical technology to be so effective that the reaction and the responsibility of the sponsor is to offer the new medical technology to more trial participants.
At the end of the trial, a stage of trial "closing" is conducted. During this stage all reports are finalized and any missing data is reconciled by the trial investigators. After this, the sponsor consolidates the data collected during the trial for statistical analysis. The results of such analysis are then made available for reporting to the regulatory bodies and/or academic publishing. Detriments
There are many instances where the life cycle described above falls short of its optimal potential. In fact, negative reports and issues of the shortcomings of medical R&D are in the news daily. In January 2000, all human gene therapy experiments carried out at an Ivy League university and sponsored by the United States government was halted after the death of a trial participant. After further review, there was evidence that the trial participant was not provided proper informed consent. In addition to simple human error, there are ample situations where monetary pressure may lead to potential fraud by the trial investigator and/or the sponsor. Such fraud may include the falsification of the trial data, loose interpretation of the trial protocols to allow into a study trial participants who may not be proper candidates, statistical manipulation to allow results to appear better than actual, under-reporting of adverse events, etc. There have even been situations where an entire group of trial participants reported upon in the trial, did not even exist. In the early 1990's the National Surgical Adjuvant Breast and Bowel Project ran a clinical trial evaluating benefits of performing mastectomy for trial participants with breast cancer versus lumpectomy with or without radiation. During this trial, one of the site directors, the equivalent of the trial investigator, falsified the dates of certain events of the trial, in order to allow ineligible trial participants to appear eligible for the research. This ultimately resulted in a massive government investigation costing millions of dollars, a delay in the availability of the trial results affecting thousands of patients with breast cancer, skepticism concerning the trial results, loss of the trial investigator credibility, and the derailment of the careers of several prominent academic figures.
The potential for similar situations to recur forces the increased stringency of regulatory processes, thus adding to the already long life cycle period required before marketing and sale of the new medical technology. Consent
It should be noted that in the life cycle of performing clinical research, the solicitation of the proper informed consent from the patient is a critical part of meeting ethical and legal standards. Informed consent is a major area of fraud and error during the clinical research process. These errors and instances of fraud relate to several major areas which include episodes where:
1) The research investigator (typically the doctor responsible for the trial) does not explain the content of the informed consent document for which the patient's signature is solicited; 2) The occurrence of informed consent is backdated;
3) The patient's or investigator's signature is forged on the informed consent.
Recently the U.S. government has initiated steps to assure better patient safety for enrollees in clinical research projects. At the forefront of this initiative is the implementation of strict guidelines for the execution of informed consents. These guidelines would include intervals during the clinical trial for which the informed consent would be required, or triggering events during the clinical trial process that might alter the implications of trial enrollment for the patient, i.e., the occurrence of adverse events. Additionally, the government will enforce serious penalties for failures to obtain the proper informed consent, including fines of $250,000 per individual and $1 million per institution.
In another governmental initiative the Food and Drug Administration (FDA) laid out guidelines that clearly define the manner in which electronic records can be signed using at least two distinct tokens, such as a user name and password 21 C.F.R. § 11.200(1) (2000). The prerequisite to the use of an electronic signature, however, is that the organization assigning the electronic signature has verified the identity of the individual 21 C.F.R. § 11.100.(b) (2000).
With the proliferation of electronic data collection in clinical research there is and will continue to be an exponentially increasing need for the use of electronic signatures. This increase makes the collection of physical signatures and verification processes unrealistic, especially in cases where geographically broad populations of users must be quickly granted access to a particular system
Evolution
In view of the pressures placed upon the sponsors in terms of time expenditure while sustaining the scientific rigor, several CROs and industry specialists have begun implementing digital formats for data collection. Digital data collection and collaboration of research over digital networks have the potential for multiple advantages. These advantages include the ability to consolidate the trial data into a single database as the trial data is being collected, thus allowing for the analysis of data in real time. In addition, data can be validated upon entry, ultimately resulting in less time spent at the end of the trial to reconcile "loose ends" in the data collection process. These and other advantages of electronic data collection are clearly superior to conventional methods of handwritten forms, scanning, and faxing. However, many concerns still exist over issues of data security, trial participant privacy, and veracity of the collected data. Furthermore, while electronic data collection has the potential to improve upon the time expenditure in the clinical trial process, it does not resolve the need to vigorously monitor the trial for fraud. In other words, while the electronic data collection makes the clinical trial process faster, it does not improve the scientific rigor with which the trial investigators collect and report upon the trial data. In any clinical research setting the key event leading to the generation of data is that between two individuals: the trial participant, e.g., a patient, and the trial investigator, e.g., a doctor. In conventional methods, this interaction is the event that is documented in the trial participant's medical records and is a reflection of the trial participant's physical examination, reports of subjective complaints, interpretations of objective testing, and a synthesized analysis of the trial participant's information as a function of the trial investigator's professional training.
The conventional methods of clinical research rely upon a trial investigator's signature on a paper document. This creates ample of opportunity for fraud and an obvious need for strict monitoring. As the clinical research field looks more to digital data capture and transmission, there is a greater need to authenticate the information. While various methods have been proposed for digital authentication of individuals, what is needed is the authentication that a recorded event occurred in a proscribed manner and was performed by authorized personnel. This event may include the interaction between two or more authorized personnel, such as the doctor and patient. Moreover, such authentication must lead to the acceptance or rejection of the trial data in a clinical study or trial.
SUMMARY OF THE INVENTION
The present invention is a method of conducting clinical trials. Each clinical trial includes members comprising trial administrators, trial monitors, trial investigators, and trial participants or patients. Additionally, these members may include reporters, scientists, and others interested in sampling the results of the study as it progresses. The trial administrator selects the trial monitors, persons responsible with assuring the veracity of the study, and the trial investigators, persons such as nurses and doctors who will actually administer the study or trial. The trial administrator will further define procedural guidelines for the performance of the clinical trial. The trial investigators in turn will select the trial participants or patients to be enrolled in the clinical trial. The trial monitors observe the conduct of the clinical trials to detect any deviations from the procedural guidelines previously established by the trial administrator.
The present invention allows the clinical trial to be conducted over a network, e.g., the Internet or a telephone grid. The participants use computing devices connected to the network to perform transactions of the clinical trial. Each of the tests comprises one or more periods of execution or intervals, test elements, and a plurality of exception limits. All the trial participants are listed in a database and are assigned access and validation levels. The clinical trial is performed according to the procedural guidelines by carrying out all of the transactions of the clinical trial. The executed transactions are stored in a database. Any time during the performance of the clinical trial the stored transactions can be queried at random to assure veracity of the clinical trial and to notify the trial administrator if any discrepancy is found to prevent fraud. Each transaction of the inventive method is performed by one of the members initiating a session by establishing a data path from a computing device equipped with various authentication hardware and/or software, to the computing device on which the inventive method is implemented. As the connection is established and the member has logged in, the invention determines what level of access is allowed and what level of authentication is required for the logged-in member. After performing the required authentication method, the members who are the trial participants and the trial investigators are shown a plurality of tests to choose from. When the required test is selected, the trial data entry may begin. The trial participants and the trial investigators are asked to reply to a plurality of questions or enter information corresponding to various elements of the test. Each of the entered values is immediately evaluated to determine if values entered are outside of the exception limits. The exception limits may be default or custom set by the trial administrator. If the exception limits are exceeded, the trial participants and the trial investigators are asked to verify if the values are correct.
The login authentication process initiates or starts the clock running on a time range within which data entry or the current session must conclude. In situations where the interaction of the members of the clinical trial is authenticated, the login authentication process may include the input of more than one authorized personnel or member of the clinical trial during the established time range. Regardless of the number of authenticated parties or members of the clinical trial, the data entry may occur as follows:
1) before the authentication of all necessary parties or members of the clinical trial;
2) sandwiched in between authentications, e.g., at least one authentication followed by data entry which is followed by at least one authentication or re-authentication, and so on; and/or
3) after the authentication of all necessary parties or members of the clinical trial.
Transactions failing that test may not be committed to the database, i.e., the results will be discarded. After logging in, the members who are the trial monitors and the trial administrators may be allowed to execute various reports and queries on the information collected by the clinical trial up to date. Such reports and queries may assist these members in assuring that the clinical trial adheres to its procedural guidelines and therefore the data collected is beyond reproach.
BRIEF DESCRIPTION OF DRAWINGS
The foregoing objects and advantages of the present invention may be more readily understood by one skilled in the art with reference being had to the following detailed description of a preferred embodiment thereof, taken in conjunction with the accompanying drawings wherein like elements are designated by identical reference numerals throughout the several views, and in which:
Figure 1 is a network topology diagram, showing connectivity of various parts of the system of the present invention.
Figure 2 is a diagram of the hardware components of computing devices used by the system of the present invention.
Figure 3 a is a flow diagram of a database entry program of the present invention, used to populate the application database.
Figure 3b is a logical relationship design diagram of elements comprising the records of the application database. Figure 4a is a sample login screen for gaining access to the clinical trial management program of the present invention.
Figures 4b-4f are a sample screen of the clinical trial management program listing various test and intervals at which these tests are to be performed.
Figure 4g is a sample report screen of the clinical trial management program listing for the trial monitor various information indicating test performance status.
Figure 5 is a flow diagram of the clinical trial management program of the present invention. Figure 6 is a logical relationship design diagram of elements comprising the records of the trial database and their relationship to elements of the application database.
Figure 7 is a flow diagram of the informed consent with biometric authentication.
Figures 8a-8c is a sample informed consent form. Figure 8d is a display of a log of informed consent use during the execution of the trial.
Figure 9 is a flow diagram for utilizing an electronic signature without the use of the paper signature.
DETAILED DESCRIPTION OF THE INVENTION As shown in Figure 1, the inventive system 10 comprises computing devices 14, i.e., 14a, 14b, 14c, for use by trial participants and trial investigators, computing devices 16, i.e., 16,a, 16b, 16c, for use by trial monitors, a computing device 15 for use by a trial administrator, and computing devices 18, i.e., 18a, 18b, 18c, for use by laboratories to connect via the network 20 to a computing device 12, where the trial management program of the present invention is executed. Computing device 12 maintains and utilizes databases 11 which include an application database 1 la for defining trials, i.e., scopes of studies, a personnel database 1 lb for defining persons authorized to access the inventive system residing on computing device 12, and a trial database 1 lc for saving and maintaining information collected with reference to the trials of the applications database 11a. The databases 11 do not have to be physically distinct, any distinction is made herein only for the purpose of clarity of description; in fact these databases 11 may be subdivided into more discreet units. Computing device 12 gathers the trial data submitted through computing devices 14 and 16 for the purpose of collecting that information in the trial's database l ie. The network 20 may be any type of a network, including a telephone network, a local area network, e.g., the Intranet, and a wide area network, e.g., the Internet.
The computing devices 12, 14, 15, 16, and 18 may take the configuration of any computer ranging from mainframes and personal computers (PCs) to digital telephones and hand held devices, e.g., PALM PILOT™ personal assistance devices. In one illustrative embodiment of this invention shown in Figure 2, such a computing device may comprise a bus 30, which is connected directly to each of the following: a central processing unit (CPU) 32; a memory 34; a system clock 36; a peripheral interface 38; a video interface 40; an input/output (I/O) interface 42; a communications interface 44; and a multimedia interface 46.
The common bus 30 is further connected by the video interface 40 to a display 50; by the I/O interface 42 to a storage device 52, which may illustratively take the form of memory gates, disks, diskettes, compact disks (CD), digital video disks (DND), etc.; by the multimedia interface 46 to any multimedia component 56; by peripheral interface 38 to the peripherals 58, such as the keyboard, the mouse, navigational buttons, e.g., on a digital phone, a touch screen, and/or writing screen on full size and hand held devices, e.g., a PALM PILOT device™; by the communications interface 44, e.g., a plurality of modems, to a network connection 60, e.g., an Internet Service Provider (ISP) and to other services, which is, or are, in turn connected to the network 20, whereby a data path is provided between the network 20 and the computing devices 12, 14, 15, 16, and 18 (Figure 1) and, in particular, the common bus 30 of these computing devices; and furthermore, by the communications interface 44 to the wired and/or the wireless telephone system 54. Defining Trial Data
Before clinical trials are carried out they are defined by values that may be placed into the application database 11a (Figure 1). The entity, person, or persons creating, authoring, or instigating the trial driven by the inquiry into the hypothesis under study in a particular clinical trial is (or are) called the trial administrator. The trial administrator defines every aspect of any clinical trial, which may be administered by the inventive system.
Each aspect of the clinical trial of the inventive system is defined by one of a series of database tables 70, shown in Figure 3b. These tables 70 may be developed and managed with the help of any modern database management software, such as ORACLE, SYBASE, MICROSOFT ACCESS™, and others. After being defined, the tables 70 are stored in the application database 11a (Figure 1). Each of these tables 70 references other tables 70 by the virtue of a relational architecture.
The inventive system provides a method to enable the creation of the tables 70 to define the anticipated application data. The hierarchical sequence of the method is shown in Figure 3 a. There, in step 172, the table defining parts of a clinical trial 72 (Figure 3b) is defined, including the structure of the trial, i.e., randomized, prospective, placebo- controlled, etc.; and the number of patients or trial participants to be enrolled in the trial.
Each of the records entered into the table 72 (Figure 3b) would then be further defined in other related tables in the database 11a (Figure 1). Thus, at step 174 the time intervals table 74 (Figure 3b) comprises timing information regarding individual tests, which may be defined, for example:
1) the actual intervals of the study;
2) the margin of flexibility allowable in defining the time intervals; and
3) the test determinations made at each interval. The tests table 76 (Figure 3b), in turn, is defined in step 176 by listing the tests, e.g., the blood; the urine; the weight; and a quality of life questionnaire, to be performed and replied to. Elements of each test 76 may be further defined in step 178 in the elements table 78 (Figure 3b), which may comprise test parameters such as:
1) test name; 2) upper and lower limits of normal;
3) informed consent requirement, i.e., in response to adverse event tests;
4) normal rates of change;
5) optional versus mandatory status of the test;
6) the type of data entry required, i.e., date, number, Boolean, text, etc.; and 7) the data entry vehicle used, i.e., checkbox, text field, a pointer to a data file such as a music format or a digital image, or an interfaced piece of hardware utilized to obtain data. Each test element 78 (Figure 3b) may be determined to have particular exceptions. Exceptions are values or data points entered outside the predefined protocol intervals and tests. They are implemented in order to handle data for patient complications or adverse events, or other points of planned or unplanned data entry. In other words, exceptions are a determination by the trial administrator of what is to be considered abnormal, e.g., body temperature below 96° or above 106° Fahrenheit. In step 180 exceptions 80 (Figure 3b) will be defined for each data element 78 of each test 76 (Figure 3b) calling for such exceptions. Not every element 78 or test 76 may require an exception.
The present application enables each part of one of the clinical trials in tables 72 (Figure 3b) as defined by its elements in related tables 78 to be reusable, i.e., may be used to perform multiple clinical trials. In this manner, basic elements commonly found in clinical trials could be made available in a custom generated clinical trial. For example, the trial administrator trying to create a clinical trial may be presented with a panel of trial parts such as patient, doctor, blood test, heart exam, etc. Any trial element may be incorporated into a trial in a "drag-and-drop" or other fashion.
The trial administrators desiring to create or design clinical trials may do so by establishing a data path from the computing device 15 (Figure 1) to the computing device 12, via the network 20 to access the clinical trial management program of the present invention. This can be accomplished by using an Internet-based browser program, e.g., Microsoft EXPLORER™ or Netscape NAVIGATOR™. After connecting to the computing device 12 (Figure 1), and entering the username/password combination 100, on the login screen 102 of the inventive system as shown in Figure 4a, the trial administrator may create a new trial and begin defining the various elements of the trial. Furthermore, although after the start of the trial modifications may not be accepted, to create new trials the trial administrator may modify and delete any existing trials.
For example, Figures 4b and 4c show the clinical trial 72 comprising intervals 74 and tests 76. When screen buttons 104 are clicked, further components of the trial record 72, e.g., test elements 78 (Figure 3b) and the exceptions 80 (Figure 3b) may be displayed. Description "done" 106 indicates that the particular test 76 for the particular interval 74 has been performed. Defining Personnel Data
As part of development of the clinical trial, the trial administrators will be able to establish or modify an existing list of trial investigators and trial monitors in the personnel database 1 lb (Figure 1) for the particular trial being developed. Moreover, the trial investigators will be able to enter into the personnel database 1 lb (Figure 1), lists of names of trial participants/patients selected to participate in the particular study after the trial is developed and is being carried out.
Each entry, i.e., a person's name and pertinent data, of the database l ie (Figure 1) will have an associated set of pre-established permission standards, different permission standards for the trial participants, trial investigators, and trial monitors. These permission standards define the level of access available to each of the trial participants, trial investigators, and trial monitors involved in the trial to the application data in the database 11a (Figure 1), the personnel data in the personnel database 1 lb (Figure 1), and the trial data in the database l ie (Figure 1). For example: 1) The trial participant/patient would have access to subjective questionnaires in the application data in the database 11a (Figure 1) without access to any other data collected by the inventive system.
2) The trial investigator will have access to patient specific information in the database l ie (Figure 1), by patient name and by patient number as well as to summary data within the scope of his or her own results. The trial administrator may also be able to define the type of investigator enrollment, e.g., an open enrollment allowing anyone qualified to act as the trial investigator to sign up or register as the trial investigator in the personnel database 1 lb (Figure 1).
Alternatively, in an enrollment by invitation only, the trial administrator may choose to develop a trial whereby the trial investigators may have to make a telephone call, e- mail, or mail correspondence to the trial administrator to request and to be furnished the login information. Before furnishing such login information, the trial administrator would update the entries of the personnel database 1 lb (Figure 1) to give these invited trial investigators access to the inventive system. The receipt of the login information would enable the trial investigator to sign up in the trial investigator registration saved in the personnel database 1 lb (Figure 1) on the computing device 12 (Figure 1).
3) The trial monitor will have access to patient specific information saved in the trial data database l ie (Figure 1) and identified by patient number, i.e., no patient names are revealed.
4) The trial administrator, in addition to full access to the application data database l ie (Figure 1), will have access only to summary data of the trial database 1 lc (Figure 1) for the entire trial without specific patient information.
Moreover, as shown in Figure 7, all trial participants and all trial investigators are asked, in steps 90 and 92 respectively, to provide a baseline biometric reading, consisting of one or more of voiceprint, fingerprint, iris scan, electronic signature or other biometric modality, along with one or more identifiers such as their name, a user name and password combination, etc. The identifiers may be entered into text boxes on the computer screen. The provided biometric information and identifiers are then permanently recorded into the biometric consent database 94. This information may also be recorded, along with a database identifier that relates the patient's biometric record with other clinical research data, in another data repository or within the biometric consent database 94 itself.
This biometric consent database 94 will be used in step 95, during the performance of the trial, described in detail below, to obtain informed consent verified with biometric authentication from the enrolled trial participants and investigators. The informed consent may be requested at any time during the performance of the trial as dictated by the one or more clinical trials the trial participants are participating in, as well as any food and drug administration's rules regarding informed consent. Performance of Trial
Once the particular trial has been completely defined or created in the application data database 11a (Figure 1), the trial may commence. After the trial is activated, the parameters defining the trial in the database 11a (Figure 1) can no longer be manipulated. To facilitate creation of new trials, the entire existing trial may be copied to create a new trial and that trial's parameters may be modified.
To run a trial, the trial administrator contracts the trial investigators to select the trial participants and begin patient enrollment and data collection regarding these trial participants. The trial administrator further contracts the trial monitors to monitor the veracity of the trial data. The trial participants are selected, and lists of names of the trial participants are entered into the personnel database 1 lb (Figure 1). As shown in Figure 7, in step 90 all trial participants, and in step 92 all trial investigators are asked to provide a baseline biometric reading, consisting of one or more of voiceprint, fingerprint, iris scan, electronic signature or other biometric modality, along with one or more identifiers such as their name, a user name, a password combination, etc. The identifiers may be entered into text boxes on the computer screen. The provided biometric information and identifiers are then permanently recorded into the biometric consent database 94. This information may also be recorded, along with a database identifier that relates the patient's biometric record with other clinical research data, in another data repository or within the biometric consent database 94 itself. This biometric consent database 94 will now be used in step 95 to obtain informed consent verified with biometric authentication from the enrolled trial participants and investigators. The informed consent may be requested at any time, as dictated by the one or more clinical trials the trial participants are participating in, as well as any food and drug administration's rules regarding informed consent.
At this point the clinical trial management program of the present invention, shown in Figure 5, may read in the parameters of the trial established in the application data database 11a (Figure 1) and automatically generate the appropriate questionnaires and forms to allow the trial participants of the trial to fill in the results of tests 77 (Figure 4f).
As shown in Figure 5, the clinical trial management program 200 may be accessed by authorized personnel in step 202 through the login screen 102 (Figure 4a). In step 204, judging by the login and determining the level of access through the use of the personnel database 1 lb (Figure 1), a determination is made of what level of authentication should be performed, or whether authentication is necessary all together. It may be determined that further or additional authentication is required, such as biometrics authentication of a single or multiple trial participants, e.g., in situations where the authentication is used to guarantee the physical interaction between a trial investigator and a trial participant. In such a case authentication steps such as biometrics, e.g., iris or finger print scan, facial recognition, voice print, retinal scan, facial recognition, etc., and/or DNA authentication, e.g., the blood, urine, hair, saliva, tissue sampling, etc., in step 206 or other, e.g., entering social security number, special ID codes, in step 208 may be required before proceeding. Please note that the authentication may be performed on the individual members of the clinical trials, e.g., the trial investigators and the trial participants; or on the plurality of members of the clinical trials concurrently, e.g., a plurality of the trial investigators, a plurality of the trial participants, a combination of the trial investigators and trial participants.
The concurrent authentication of a plurality of members is utilized by the present invention in situations where the authentication is used to guarantee the physical interaction between the trial investigators and the trial participants.
The authentication tests may use flexible timeouts defined by the trial administrator for single and multiple interactive sessions with the trial participant. Moreover, these sessions are location independent. Each computing device 14, 15, 16, and 18 (Figure 1) used in the authentication may be identified by a unique identification number, therefore the physical location of such components need not be fixed for the authentication purposes.
As described above, the preferred embodiment of the present invention contemplates but is not limited to personnel with predefined purposes. Accommodation of personnel for many diverse purposes, e.g., television, magazine, and newspaper reporters, colleges, hospitals, competitors, statisticians, insurance companies, etc., not described in the preferred embodiment may be easily provided by the inventive system and may be as easily created by these skilled in the art. By Participants or Investigators
After logging in step 202 and being authenticated in steps 206 or 208, in step 210 the trial investigators and the trial participants will be shown a list of possible tests 72 (Figure 4c). After selecting a particular entry 76a (Figure 4c) from the screen 72 (Figures 4c), the trial investigators and the trial participants are presented with trial data entry screens, e.g., 76a-c (Figures 4d-4f).
However, before allowing the entry of the test result data in step 212, the program 200 may determine in step 211 that an informed consent is required before the trial data for the selected test is accepted. The trial investigators or participants are then presented with the informed consent screen or document in step 95. As shown in Figure 7, the trial investigators and participants will be asked in step 96 to review the consent document along with any necessary supporting documentation. This may be performed by presenting the informed consent document and supplemental information to the patient on the computer screen. A sample Informed Consent Document 300 is shown in Figures 8a- 8c.
In step 97 the trial investigators and the trial participants will indicate their agreement with the informed consent document either by typing their agreement into a text box on the computer screen or interacting with the clinical trial management program 200 (Figure 5), for example, by checking a checkbox or clicking a button. In step 98, the trial investigators or the trial participants will then reenter any identifiers entered and saved in the biometric consent database 94 and perform a biometric authentication. The clinical trial management program 200 requires that both the trial investigator's and the trial participant's authentication be performed on the same computing device and within a pre-set period of time, for example, 30 seconds, which insures that the trial investigator and the trial participant have interacted and the consent was given by the trial participant in the presence of the trial investigator. The identifiers and biometric data are compared to the data recorded in the biometric consent database 94 and if they are matched successfully, the successful informed consent agreement is permanently recorded in step 99 in the consent database 94. Electronic Signature
An additional precaution taken by the inventive system in ascertaining the identity of the trial investigators and participants is the use of the electronic signature 302 (Figure 8c) to verify the consent form 300 electronically. Figure 9 shows a process 310 for providing means to securely grant access via electronic means of communication, to users who are unknown and initially "not trusted", i.e., any information entered by unknown users can not be used for subsequent analysis by a central organization. Thus, all needs for paper document, e.g., informed consent, transmission, subsequent storage, geographic proximity and/or travel are eliminated. Traditionally, the first step in assigning an electronic signature for clinical research that will undergo the FDA approval has been a paper-based signature. In that step the user agrees to the following:
1) To use the electronic system appropriately; and
2) To the fact that their electronic signature will be legally binding and a substitute for their physical signature.
The second step is for a member of the authorized organization that is assigning the electronic signature then physically verifies the identity of this person as well.
In step 312 an unknown user performs the requisite first step by agreeing with a trusted entity by using a single public token. The public token is a unique identifying information associated with the users when they interact with the system, i.e., their username. In step 314 the trusted entity accepts and processes the user provided public token. The trusted entity is a human or electronic system that resides within a trusted and closed area defined by an electronic data collection system, such as the present invention. Furthermore, the public token could be a biometric identification, such as a fingerprint or iris scan. A non-biometric public token may be told to or intercepted by any 3rd party at any time without exposing the trusted system to infiltration.
In step 316, a secret token is then generated by the electronic system from the accepted public token. This secret token may be in the form of a simple text token, e.g., a password, or a more complex secret token, such as an encryption key. This secret token is then transmitted, by public means, and is received by the user in step 318. The public means may include a telephone line, e-mail, fax, etc. In step 320, the secret token is stored by the trusted entity along with the user's public token.
Having received the secret token, in step 322, the users electronically identify themselves to the system. Their identification includes their public and secret token and any additional information that the organization may require, for example, the user's full name and contact information could be collected at this time.
In step 324, the system confirms that the entered secret token matches the public token. If it does, a notification is sent to the user by either the same or alternate transmission means confirming that they may access the system. This transmission does not contain any public or secret token information.
Having received the notification, in step 326 the users may be requested once again to electronically identify themselves to the system using their public and secret tokens. After one or more such interactions, in step 328 the system may generate a new secret token or automatically prompt the users to create new secret tokens themselves, e.g., "Please choose a new password." This new secret token is then securely stored in the system and becomes the users second or private token for access. The user is now considered trusted and research data can be collected.
As set forth in Figure 5, the trial participants start to enter test result data in step 212. The test screens 76a-c (Figures 4d-4f) are dynamically generated by the clinical trial management program 200. In step 210 the actions required, i.e., defined in the application data database 11a (Figure 1), are evaluated and only these required are presented. Furthermore, data entered in response may lead to additional options to be displayed. Actions that have been previously completed are displayed as such, giving instant feedback regarding what was previously entered into the system.
Of course, if after glancing at the list of required actions displayed in step 210 the trial investigator or the trial participant decides not to proceed, in step 214 a logout path may be taken. An in-depth description of the logout procedure will be discussed below. A transaction of the clinical trial management program 200 begins following the login in step 202 and the authentication in step 204. All the information entered during the session after the login and before the logout is considered a part of this transaction. The transaction will not be committed, i.e., be made a part of the permanent storage 52 (Figure 2) until the whole session is completed. As data elements 77 (Figures 4d-4f) are entered in to the test screens 76a-76c (Figures 4d-4f), the clinical trial management program 200 dynamically executes scripts to perform the first level of validation of the data values 77 (Figures 4d-4f) entered. The executed scripts may validate entered data values 77 (Figures 4d-4f) and may be executed by the browser program, e.g., Microsoft EXPLORER or Netscape NANIGATOR, using its built-in functionality on the computing devices 14, 15, 16, and 18 (Figure 1). Moreover, the executed scripts may validate entered data values 77 (Figures 4d-4f) on the computing device 12 (Figure 1) to provide two levels of data validation.
These scripts compare the values 77 (Figures 4d-4f) entered, with previously set exception limits 80 (Figure 3b) defined in the application data database 11a (Figure 1). In the event where an entered value is outside of these exception limits the inventive clinical trial management program 200 will alert the trial investigator or the trial participant entering the data values 77 (Figures 4d-4f) and may request or require additional data to be entered. For example, a confirmation dialog, to insure that the out-of-range value is in fact correct will be interposed in step 216 and the trial investigators and the trial participants may be asked or forced to reply before proceeding.
After all the test values 77 (Figures 4d-4f) are completely filled in, step 216 saves these values 77 (Figures 4d-4f) in the current transaction, executes the scripts to perform the second level of validation as described above. The values 77 (Figures 4d-4f), entered for each element are once again compared with the exception ranges 80 (Figure 3b) and with the acceptable data change rate. The data change rate is determined by comparing values 77 (Figures 4d-4f) to those entered for the same element at previous intervals. Should the values 77 (Figures 4d-4f) be either out of the exception range 80 (Figure 3b) or change at a rate beyond the preset exception change rate for the given element, an exception record 270 (Figure 6) is added to the current transaction. In step 218 it is determined if one or more exceptions are generated at the given interval for the given element. If exceptions are generated, in step 219 the trial investigators and participants may be asked to review and sign the consent documents along with any necessary supporting documentation and indicate their agreement with the informed consent document as described above with reference to step 95 (Figure 7) and described in detail above. After the consent is given in step 95 or if consent is not required as determined in step 219, an exception record causes new tests to be added to the trial participant's complete trial record in step 220 as well as the elements within that new text that must be completed to close the trial participant's participation in the trial. At this point it is possible to offer an option of completing the exception data immediately or to queue the exception for completion at a later time.
If in step 222 it is determined that the exception is to be completed now, the test form for the exception is presented and the data entry loop starting in the step 212 is repeated. Otherwise, in step 224 the exception is queued, and will then appear in the appropriate data entry options of the step 210.
After values 77 (Figures 4d-4f) in the transaction are saved, and tests generated from exceptions are completed or queued, the values 77 (Figures 4d-4f) may be stored. Figure 6b shows the record for storing values 77 (Figures 4d-4f). Each record 270 comprises the following fields: 1) A unique key 270a used to identify the transaction.
2) A trial key 270b, for pointing to the specific trials table 72 (Figure 6a) of the application data database 1 la (Figure 1) with which the present record 270 identifies or belongs.
3) An intervals key 270c for identifying the particular interval on the intervals table 74 (Figure 6a) of the application data database 11a (Figure 1), which corresponds to the specific value 77 (Figures 4d-4f) of the present trial identified by the trial key 270a (Figure 6).
4) A test key 270d for identifying the particular tests table 76 (Figure 6a) that the values 77 (Figures 4d-4f) are associated with. 5) An element key 270e for identifying or pointing back to the element in the elements table 78 (Figure 6a) that the values 77 (Figures 4d-4f) correspond to.
6) An identification key 270f for identifying the trial personnel who entered the values 77 (Figures 4d-4f), such personnel was previously defined in the personnel database 1 lb (Figure 1) as described above.
7) A patient identification key 270g associating the values 77 (Figures 4d-4f) with the particular trial participant, such trial participant was previously defined in the personnel database 1 lb (Figure 1) as described above.
8) A date and time created field 270h for storing the year, month, date, hour, minute, second and millisecond that the values 77 (Figures 4d-4f) were recorded.
9) A data certification code field 270i comprising a plurality of random digits.
The current methods of administering a clinical trial involve monitoring the trial centers to assure research integrity. The basic role of the trial monitor is to verify that the data entered by the clinical investigator corresponds to the records taken in the source documentation. The source documentation denotes the trustworthiest record of the data because it contains records of the interactions between the trial investigator and the trial participant and the resultant outcome of any tests taken. The source documentation is held in such high regard because it contains the trial investigator's signature. Usually the source documentation is regarded as the trial participant's medical chart. The present invention describes a method by which the source documentation can be generated by the computer application. All new data values entered into the trial database are grouped according to the date, time, trial participant, computer address, and login episode. For each and every unit of data entered into the trial database l ie (Figure 1), a multi-digit unique identification number is generated at random. After each log in episode, the trial investigator's computing device 16 (Figure 1) may print a record of the activities of each patient handled by the trial investigator during any given login episode. This record will act as a legal record of the investigator's actions during a log in episode and be clearly marked with a statement affirming that the investigator has read the record and agrees with it. The investigator will then be asked to sign the record. The signed record can then be utilized as the source documentation since it contains a record of patient data with a verifying signature. The document may be appropriately formatted for placement into the trial participant's chart.
Moreover, the inventive method makes the job of the trial monitor considerably easier. Prior to auditing a site where the trial tests are performed, the trial monitor may print out a list of data transactions and corresponding identification numbers. The trial monitor may then make certain that the events documented in the trial investigator's source documentation contains the correct identification numbers.
Since both the investigator source documentation and monitor transaction list are generated from the same server-side database, there is virtually no possibility for fraud or forgery in this. The trial investigator that tries to change the data values or other parameters entered into the database will create a discrepancy between the source documentation and the data transaction list output for the monitor.
10) A unique identifier field 270j for the identity of the hardware such as the IP address of a network 20 (Figure 1) connection 60 (Figure 2) of the computing devices 12, 14, 15, 16, and 18 (Figure 1).
11) An authentication stamp field 270k generated by the authentication method in steps 206 and 208 (Figure 5) for the session in progress.
12) An actual data record 2701 of the 77 (Figures 4d-4f) with data of various types, e.g., text, integer, binary, real, floating, date/time, images, biometrics, etc., keeping their appropriate data type.
13) Any supplemental data 270m entered along with the values 77 (Figures 4d-4f) as defined by the element corresponding to the values 77 (Figures 4d-4f), for example, an 'other' field in a multiple-choice question. As shown in Figure 5, in step 216 each record 270 is recorded in the transaction that covers the entire session from login in step 202 to logout in step 214. In step 226 it is determined from the personnel database 1 lb (Figure 1) or from the application data database 11a (Figure 1) that a logout authentication is required. If authentication is required, in step 228 it is determined which authentication is to be performed, the biometrics, e.g., iris or fingerprint scan, retinal scan, facial recognition, DNA imprinting using hair, saliva, etc., in step 230 or other, e.g., entering social security number, special ID codes, in step 232 may be required before committing the transaction. The authentication may be performed on the individual members of the clinical trials, e.g., the trial investigators and the trial participants or on the plurality of members of the clinical trials concurrently, e.g., a plurality of the trial investigators, a plurality of the trial participants, a combination of the trial investigators and trial participants.
In step 234 it is determined if the required authentication at the end of the session was properly performed or failed. If the authentication failed, in step 236 the transaction is rolled back and the data does not become a permanent part of the trial data. In the alternative the transaction may become a permanent part of the trial data with a recorded indication that the logout authentication failed, or permanently logged outside of the trial data, however the transaction will be rolled back and the data will not become a part of the trial data in the trial data database l ie (Figure 1). In step 238, the transaction is committed, i.e., recorded as a permanent record in the trial data database 1 lc (Figure 1).
Additional determinations may indicate whether transaction comprising the values 77 (Figures 4d-4f) will be rolled back in step 236 or committed in step 238. A session may end because the timeout period specified for a particular or a group of the trial participants and trial investigators stored in the personnel database 1 lb (Figure 1) has been exceeded.
By Laboratories
A particularly useful feature of the present invention is its ability to accept results for individual trial participants as well as bulk results for groups of trial participants from laboratories connected by computing devices 18 (Figure 1) to the computing devices 12 (Figure 1) via the network 20 (Figure 1) or by a direct digital interface between the laboratory computing devices 18 (Figure 1) and the computing device 12 (Figure 1). Where a plurality of samples of the trial participant's specimens, e.g., blood, saliva, or urine, are tested by a particular laboratory, the results may be securely transferred to the trial data database 1 lc (Figure 1). The trial participants' privacy may be maintained by providing the laboratories only with the assigned trial participant unique number. The laboratory computing device 18 (Figure 1) may then cross-reference the trial database l ie (Figure 1) using the trial participant unique number and input the appropriate laboratory test result. This will eliminate the need for human intervention in inputting the test results and therefore the possibility for human-error or fraud By Monitors
As described above, the trial monitor is the entity, person, or persons that constantly monitor the integrity of the trial insofar as the data entered and the conduct of the trial investigators and the trial personnel is concerned. The frial administrator often contracts the trial monitors as part of the CROs or as independent consultants. Typically the trial monitor maintains a record of the activities of the trial investigators and makes certain that the data submitted by the trial investigator corresponds to the source documentation, i.e., the patient's medical record. The trial monitor verifies whether the trial investigator has provided the proper informed consent and that the trial participant's characteristics conform to the inclusion and exclusion criteria specified in the trial protocol. All consents can be compared with all the exceptions (daily, weekly, monthly, per trial) to assure that all the consents were accepted when required. Trial monitors will perform declared and undeclared visits to the trial investigator sites to audit the operations of the trial investigator in-person.
The inventive system may provide the trial monitor with access to limited information in the trial data database lie (Figure 1). While the trial monitors may be free to view all trial participant information from the personnel database 1 lb (Figure 1), they may not be able to identify these trial participants except by a unique code assigned to each trial participant for purposes of the trial. Upon entering the inventive system in step 202, the trial monitor may be asked to authenticate himself or herself in steps 206 or 208. This authentication is accomplished using either a fonn of biometrics measurement in step 206 or by username and password method in step 208. Once the trial monitor is properly logged into the application running on the computing device 12 (Figure 1), they will have access to the entries of the trial participant related data stored in the personnel databases 1 lb (Figure 1) and in the trial data database l ie (Figure 1) referenced according to specific trial investigators, hi step 240, the trial monitors will be able to get complete reports of transactions performed by individual trial investigators, e.g., 84 (Figure 4g), identified by data stamps including the following:
1) date and time of patient visit 86 (Figure 4g);
2) interaction and data entry 88 (Figure 4g); 3) Internet protocol address from which data was entered (not shown);
4) trial investigator identification 90 (Figure 4g); and
5) a unique encryption stamp for each transaction 87 (Figure 4g).
These reports may be created for each trial participant according to each time point, of the intervals 74 (Figure 3b), tracked as per the trial protocol. Furthermore, these reports may enable the trial monitor to verify the trial investigator's source documentation against the data shown in the report. Separate reports may be generated for data that is missing, entered late, changed by the trial investigator, or is out of range.
This may allow the trial monitor to address each specific issue with the trial investigator and to reconcile the problem in the trial data. Separate reports may further be generated for every adverse event reported by the trial investigator. Each report may list the adverse event and the follow-up necessary to be performed by the trial investigator in order to document the ultimate consequences to the trial participant.
Summary reports of the trial monitor's verified values 77 (Figures 4c-4f) may be generate each time a trial monitor completes a review of either a single test element 78 (Figure 3b) or group of tests 76 (Figure 3b). The verified values 77 (Figures 4c-4f) will also be associated with identifying stamps such as date, time, trial monitor's biometrics authentication, etc. This report may ultimately be printed for approval by the trial investigator and signature.
By Administrator The trial administrator may be given special access to certain forms of data while being restricted to others. For example, while the trial administrator may be able to view overall summary data about a frial, they will be unable to access patient-specific information in order to maintain patient privacy. The application will have special functions available to the trial administrator. In general, the trial administrator will be able to have a real-time "bird's eye view" of the ongoing clinical trial. After logging in step 202, the trial administrator will be asked to authenticate himself or herself as described above with reference to steps 204, 206 and 208. In step 242 the trial administrator will be enabled to obtain summary data of the trial and application-specific tools to allow manipulation of the summary data.
General functions available to the trial administrator could include summary information, analysis tools, and reporting tools. A summary information area allows the trial administrator access to updates on the status of various frial investigator sites. In doing so, the frial administrator is able to see the performance of each trial investigator via parameters such as the number of patients enrolled or the number of completed patients or the number of delinquencies or the number of adverse events or by the answers to satisfaction-questionnaires about the trial investigators rated by patients/trial participants. Analysis tools may also be available to the trial administrator such that raw summary data representing the current state of the trial will be able to be manipulated. For example, the trial administrator may be able to apply various statistical analysis functions, i.e., averages, standard deviations, control for data variables, etc., to generate graphs and charts. The trial administrator would also be able to use analysis tools to compare two or more trial investigator sites in terms of performance and view the results in graph or chart format.
Reporting tools may be provided such that the trial administrator can generate reports. For example, a pharmaceutical company testing a new drug may want a report that conforms to the outline of a new drug application; the frial administrator, for academic reasons might want a report that is later submitted as a clinical paper to a medical journal. Templates for various kinds of reports will be available to the trial administrator. The trial administrator will be able to customize their own template, which may consist of a series of headings and hierarchical subheadings to format a document. The reports created may be integrated with the analysis tools such that graphs generated dynamically from the trial data will be incorporated into the report. The application will allow for collaborative authoring and tracking of a document using a system by which parts of a document may be "checked-in" or "checked-out" by multiple trial administrators. The reports created will be able to be output in multiple formats compatible with other word processing software or document readers, i.e., Adobe Acrobat, or Microsoft Word. Ultimately upon completion of the report, the trial administrator may immediately transfer the document electronically to the end viewer such as a peer review committee or a governmental regulatory board.
Reminders
One of the major components of clinical research is the participation of the patients in performing the chore of replying to subjective questionnaires. These questionnaires typically pertain to issues of quality of life, pain scales, and symptom diaries, to name just a few. In addition, subjects involved in clinical research are often asked to take medications that may require strict doses and regimens for route of administration and frequency of consumption. A major area of deficiency in clinical research is the risk that the patients may forget to take the prescribed medications or answer questionnaires at specified times. This ultimately leads to inaccurate results. Moreover, currently there is no method for instantaneous reporting of events adverse to the patient. Patients are often left to their own initiative to report adverse events that may occur before their next visit to a clinic or a discussion with the trial investigators.
The present invention trains the trial participants to use handheld devices and other electronic data entry clients, such as wireless telephones, to answer questions and to report adverse events, h a fashion described above where the questionnaires are formatted electronically to enable entry of subjective data directly from the trial participants' computing devices 14 (Figure 1) over the network 20, the same can be accomplished with the use of wireless technologies where the computing device 14 is connected to the network 20 or even to the computing device 12 itself via wireless means.
The present invention enables the trial participants equipped with handheld devices to participate in clinical research. During that research, the trial participants may be prompted at specified times, through their hand held devices, to initiate certain health related activities, such as taking medication. Furthermore, the trial participants may be requested to enter data pertaining to health questionnaires.
Using a predefined list of trial participants, and network addresses of the handheld devices or the telephone numbers if these devices are telephones, the present invention notifies or reminds the trial participants to perform a trial-related activity at a specified time. If appropriate the trial-related activity through the handheld device, e.g., filling out an informed consent and signing it using the electronic signature as described above. Questionnaire data may be entered in to the handheld device via a keyboard, by writing on a screen with a stylus, using interactive voice response (INR) or a voice recognition systems.
Simultaneously, messages are routed to the trial administrator's computing devices 15 (Figure 1), which can also be physically or wirelessly connected to the network 20 or an associated health care provider. For example, if the trial participant is unable to be reached, a message, which can be a beep, a voice message, an e-mail, etc., is sent to notify the trial administrator or the associated health care provider to initiate a search for the trial participant. Alternatively, the trial participant can immediately report any form of adverse event, in which case the trial administrator or the associated health care provider will also be notified. This feature of the inventive system adds to improved patient safety during the research process of the trial. While the invention has been particularly shown and described with respect to illustrative and preferred embodiments thereof, it will be understood by those skilled in the art that the foregoing and other changes in form and details may be made therein without departing from the spirit and scope of the invention that should be limited only by the scope of the appended claims.

Claims

We Claim:
1. A method of assuring an informed consent of one or more frial participants, the informed consent signifying an understanding of aspects of a test of a plurality of tests and an agreement to participate in performance of the test, the plurality of tests is carried out during a conduct of a clinical trial by a plurality of members, the plurality of members including the one or more trial participants the clinical trial being conducted on at least one trial computing device connected to a network via one or more data paths, said method comprising the steps of: conducting the clinical trial according to established procedural guidelines whereby the one or more trial participants perform the plurality of tests by providing the informed consent when required, performing the test; providing test data to the at least one trial computing device.
2. The method of claim 1, further comprising the steps of: establishing the clinical trial by scheduling one or more periods of execution for accepting said test data; assigning the plurality of tests to be performed during said one or more periods; defining a plurality of elements for each of said plurality of tests; and identifying a plurality of exceptions for setting limits on said test data.
3. The method of claim 2, further comprising the step of establishing procedural guidelines for conducting the clinical trial, said guidelines identifying which of the plurality of tests require the one or more trial participants to provide the informed consent.
4. The method of claim 3, further comprising the step of identifying at least one trial administrator and the one or more trial participants for the conduct of the clinical frial.
5. The method of claim 4, further comprising the steps of: detecting discrepancies in said provided test data; and requesting the one or more trial participants who provided said test data in which discrepancy was detected to provide the informed consent.
6. The method of claim 5, further comprising the step of preventing the one or more trial participants from further participation in the clinical trial if the informed consent was not provided.
7. The method of claim 6, further comprising the steps of: alerting the one or more frial participants to perform the test scheduled to be performed during a particular period of execution; and continuously attempting to reach the one or more trial participants if the one or more frial participants fail to reply.
8. The method of claim 7, wherein the step of alerting further comprising the step of contacting the participant's computing device by sending a message at a network address of the device and displaying a recorded alerting message when the participant reads the message.
9. The method of claim 7, wherein the step of alerting further comprising the step of contacting the participant's computing device by dialing a telephone number of the device if the participant's computing device is a telephone and playing a recorded alerting message when the participant answers.
10. The method of claim 7, wherein the step of alerting further comprising the step of contacting the one or more trial participants' pager by dialing a telephone number of the pager and sending a call back number to the pager and playing a recorded alerting message when the participant calls the call back number.
11. A method of assuring informed consent while electronically conducting a clinical trial, the clinical trial having a plurality of members, the plurality of members including at least one trial administrator, at least one trial monitor, at least one trial investigator, and one or more trial participants, the plurality of members using one or more computing devices connected to a network to perform a plurality of transactions of the clinical trial, said method comprising the steps of:
(a) establishing procedural guidelines for the clinical trial;
(b) performing the clinical trial according to the procedural guidelines by carrying out a plurality of tests;
(c) detecting a discrepancy in said plurality of tests; and
(d) requesting an informed consent if said discrepancy is found.
12. The method of claim 11, further comprising the steps of:
(e) the at least one trial administrator selecting the at least one frial monitor and the at least one frial investigator;
(f) the at least one trial investigator selecting the one or more trial participants to be enrolled in the one or more clinical trial; and
(g) the at lest one trial monitor observing the one or more clinical trial to detect any deviations from the procedural guidelines.
13. The method of claim 12, further comprising the steps of authenticating said plurality of members and accepting only these of the plurality of transactions that are performed by said plurality of members that are authenticated.
14. The method of claim 11, wherein the plurality of members comprises at least one trial adminisfrator, at least one trial monitor, at least one trial investigator, and one or more trial participants, the at least one trial adminisfrator selecting the at least one trial monitor and the at least one frial investigator, the at least one frial investigator selecting the one or more trial participants to be enrolled in the one or more clinical trial, the at lest one trial monitor observing the one or more clinical frial to detect any deviations from the procedural guidelines.
15. The method of claim 14, wherein the plurality of members further comprises: one or more reporters; one or more scientists, and one or more publishers.
16. The method of claim 15, wherein the at least one trial administrator selects said at least one trial investigator according to an open enrollment, in said open enrollment anyone qualified to act as a trial investigator is permitted to register as the at least one trial investigator.
17. The method of claim 16, wherein the at lest one trial administrator selects said at least one trial investigator according to a by-invitation-only enrollment, in said by invitation only enrollment the at least one trial administrator registers said at least one frial investigator.
18. The method of claim 17, wherein each said one or more clinical frial comprises:
an identification of the at least one trial administrator, and an identification of the one or more trial participants to be enrolled in the clinical trial;
a schedule of a one or more periods of execution during which period a one or more test values are accepted;
a plurality of tests for each of said one or more periods on said schedule;
a plurality of elements for each of said plurality of tests; and
a plurality of exceptions for setting limits on said one or more test values.
19. The method of claim 18, wherein each of the plurality of members has an associated set of pre-established permission standards, said permission standards define a level of access by each of the plurality of members to said one or more test values.
20. The method of claim 19, further including a step of allowing access by the at least one frial investigator to said one or more test values through a use of said identification of the one or more frial participants.
21. The method of claim 20, further including a step of allowing access by the at least one frial monitor to said one or more test values through a use of said identification of the one or more trial participants.
22. The method of claim 21 , wherein said carrying out of the plurality of transactions comprises the following steps:
determining a level of access allowed and a level of authentication necessary for a one or more of the plurality of members performing the plurality of fransactions;
performing an authentication method corresponding to said determined level of authentication, each of the plurality of transactions comprises steps performed by said one or more of the plurality of members after said performance of said authentication method;
exhibiting said plurality of tests and said plurality of elements and permitting entry of a one or more test values in satisfaction of said exhibited plurality of elements; and
accepting said one or more test values and determining if said accepted one or more test values are outside of said limits.
23. The method of claim 22, wherein said authentication uses biometrics and non biometrics methods.
24. The method of claim 23, wherein if said authentication method fails said plurality of transactions is not permanently stored.
25. The method of claim 24, wherein if said authentication method fails said plurality of transactions is marked as failed and is permanently stored.
26. The method of claim 25, wherein said authentication method starts the clock running on a time range within which the plurality of transactions must be carried out.
27. The method of claim 26, wherein the plurality of transactions is prevented from being carried out if said time range is exceeded, said time range is specified by said at lest one frial adminisfrator for each of said plurality of members.
28. The method of claim 27, wherein said plurality of elements are dynamically generated for said one or more periods of execution, whereby only these of said plurality of elements that require said one or more test values to be entered are exhibited.
29. The method of claim 28, further comprising steps of exhibiting a confirmation dialog to insure that said entered one or more test values determined to be outside of said limits are correct, and if not correct then insuring that said entered one or more test values be corrected.
30. The method of claim 29, wherein said entered one or more test values comprise:
a unique key for identifying a transaction;
a trial key for identifying the clinical trial;
a test key for identifying said first test of said plurality of tests of the clinical trial identified by said frial key;
an intervals key for identifying each of said one or more periods of execution of said first test;
an element key for identifying each of said plurality of elements;
an identification key for identifying said at least one trial investigator and said at least one trial participant who entered said information value;
a patient identification key for identifying each said at least one frial participant;
a date and time created field for storing temporal values of recording of said information value;
.a data certification code field comprising a plurality of random digits;
a unique identifier field to identify the computing devices; and
an authentication field for identifying said authentication method performed.
31. The method of claim 30, further comprising a step of producing a plurality of reports of the plurality of transactions, said plurality of reports are created from said one or more test values and retrieved according to one or more keys comprising:
a date and time of each of said plurality of transactions;
a network address of the computing devices from which information was entered;
an identification of the at least one trial investigator;
an identification of the computing device on which said plurality of transactions was entered; and
a unique encryption stamp for each of said plurality of transactions.
32. The method of claim 31 , wherein said step of producing said plurality of reports enables finding said discrepancy and thereby verify veracity of the one or more clinical trial.
33. The method of claim 32, wherein said step of producing said plurality of reports enables evaluation of performance of the at least one frial investigator.
34. The method of claim 33, wherein the network is Internet.
35. The method of claim 33 , wherein the network is a telecommunications network.
36. A method of authenticating performance of a test and entry of test data during execution of a clinical frial to guaranty that the test occurred according to procedural guidelines, included informed consent, and was performed by an authorized participant, the test being performed and the test data is entered by a plurality of authorized participants using a plurality of participant's computing devices into at least one trial computing device executing a trial management program, the at least one frial computing device and the plurality of participant's computing devices are connected to a network, said method comprising the steps of: a) establishing the clinical trial by scheduling one or more periods of execution for accepting said test data, assigning the plurality of tests to be performed during said one or more periods, defining a plurality of elements for each of said plurality of tests, and identifying a plurality of exceptions for setting limits on said test data;
b) establishing procedural guidelines for conducting the clinical trial, said guidelines identifying which of the plurality of tests require the one or more trial participants to provide the informed consent; and
c) conducting the clinical trial according to established procedural guidelines whereby the one or more trial participants perform the plurality of tests by providing the informed consent when required, performing the test, and providing the test data to the at least one trial computing device.
37. The method of claim 36, further comprising the step of assuring authenticity of the informed consent by providing an electronic signature, the electronic signature including a public token and a private token.
38. The method of claim 37, further comprising the steps of: examining the test data to detect discrepancies, sufficiency of the informed consent or in the electronic signatures used to guarantee the informed consent; requesting a new informed consent to be provided by the authorized participant who provided the test data in which discrepancy was detected; and notifying an administrator in a position to prevent fraud and to determine and prevent danger to the authorized participant.
39. A method of authentication of the conduct, recordation, and a plurality of members of one or more clinical trials, the plurality of members including at least one trial administrator, at least one frial monitor, at least one trial investigator, and one or more trial participants, the at least one frial adminisfrator selecting the at least one frial monitor and the at least one frial investigator and defining procedural guidelines for the one or more clinical trials, the at least one frial investigator selecting the one or more trial participants to be enrolled in the one or more clinical frials, the at lest one trial monitor observing the one or more clinical frials to detect any deviations from the procedural guidelines, the plurality of members using one or more member computing devices connected to at least one frial computing device via a network to perform a plurality of transactions of the one or more clinical frials, the method comprising the steps of:
a) establishing a plurality of tests and procedural guidelines for each of the one or more clinical frials, each of said plurality of tests comprising a one or more periods of execution, a plurality of elements, and a plurality of exception limits;
b) providing to each of the plurality of members a level of access to the test data and an electronic signature, the electronic signature including a public token and a private token;
c) performing the one or more clinical frials according to the procedural guidelines and accepting the test data of the one or more clinical trials including informed consent forms, the informed consent forms being signed by the one or more trial participants using electronic signature; and
d) assuring veracity of the one or more clinical frials and notifying the at least one frial administrator if discrepancy is found in the trial data, the informed consent, or in the electronic signatures used to guarantee the informed consent, the at least one frial administrator being in a position to prevent fraud.
40. The method of claim 39, wherein the step of providing the electronic signature further comprising the steps of:
accepting a public token selected by a member; generating, storing, and providing to the member a secret token; accepting said public token and said secret token from said member and confirming trustfulness of said member by confirming previously stored identity information of said member; and said member selecting a new secret token after providing said public token and said secret token.
41. A method of authenticating performance and recordation of a transaction during execution of a clinical trial to guaranty that the transaction occurred in a proscribed manner and was performed by authorized personnel members, the transaction being performed by the authorized personnel members from a plurality of computing devices connected to a network by using data entry programs, the transaction being recorded on an at least one computing device executing a trial management program, said method comprising the steps of:
a) establishing in the clinical frial a schedule of a plurality periods of execution, during which period a plurality of test values are accepted; a plurality of tests for each of said plurality of periods, a plurality of elements for each of said plurality of tests, and a plurality of exceptions for setting limits on said one or more test values;
b) the authorized personnel members accessing the at least one computing device executing the trial management program and identifying themselves;
c) determining a level of access allowed and a level of authentication necessary for the authorized personnel members;
d) presenting said plurality of tests and said plurality of elements and initiating a timer on a time range within which the transaction must be completed;
e) accepting a plurality of test values in satisfaction of said plurality of elements; and
f) recording said plurality of test values of the transaction if the transaction was completed with in said time range.
42. The method of claim 41, wherein said authentication uses biometrics and non biometrics methods.
43. The method of claim 42, further comprising a step of deteπnining if said accepted plurality of test values are outside of said limits.
44. The method of claim 43, further comprising steps of exhibiting a confirmation dialog to insure that said plurality of test values determined to be outside of said limits are correct, and if not correct then accepting a new plurality of test values.
45. A method of authenticating the execution and recordation of at least one clinical frial, said method comprising the steps of:
a) constructing a first database with
a set of first records defining the at least one clinical frial to be executed,
a set of second records defining dates on which tests of the at least one clinical frial will be executed,
a set of third records defining respectively said tests executed corresponding to said dates, and
a set of fourth records defining respectively elements of said tests, said elements are parameters to be tested by the corresponding tests,
b) constructing a second database to list only those frial participants that are permitted to enter and access data of the at least one clinical trial;
c) requesting permission to enter trial data by providing identifying information of said frial participant who will enter said trial data and on whose behalf said data is being entered and comparing said identifying information with the list of said frial participants in said second database and authenticating and permitting entry of said frial data if there is a match; d) accepting said frial data from said authenticated trial participant, said frial data comprising timing information of duration of entry of said frial data and the parameters to which the frial data relates; and
e) testing said accepted frial data by comparing said timing information of duration of enfry and the parameters with those timing information of duration and parameters in the first database and, if there is a match, accepting said trial data.
46. The method of claim 45, wherein said first database is further constructed with a set of fifth records defining value ranges of said elements, and testing whether the trial data related to the parameters falls within said value ranges.
47. The method of claim 46, wherein said accepted trial data is stored in a third database.
48. A method of authentication of the conduct and recordation of one or more clinical frials, the one or more clinical frials having a plurality of members including at least one frial adminisfrator, at least one frial monitor, at least one frial investigator, and one or more trial participants, the at least one frial adminisfrator selecting the at least one frial monitor and the at least one frial investigator and defining procedural guidelines for the one or more clinical frials, the at least one frial investigator selecting the one or more frial participants to be enrolled in the one or more clinical frials, the at lest one frial monitor observing the one or more clinical frials to detect any deviations from the procedural guidelines, the plurality of members using one or more computing devices connected to a network to perform a plurality of fransactions of the one or more clinical frials, the plurality of fransactions being stored in a third database, the method comprising the steps of:
a) establishing in a first database a plurality of tests and procedural guidelines for each of the one or more clinical frials, each of said plurality of tests comprising a one or more periods of execution, a plurality of elements, and a plurality of exception limits and defining in a second database the plurality of members; b) recruiting and registering the plurality of members in said second database, each of the plurality of members being assigned level of access to a third database;
c) performing the one or more clinical frials according to the procedural guidelines by carrying out all of the plurality of fransactions making up the one or more clinical frials; and
d) querying said third database at random to assure veracity of the one or more clinical frials and notifying the at least one frial administrator if discrepancy is found, the at least one frial adminisfrator being in a position to prevent fraud.
49. A method of authenticating performance of a fransaction during execution of a clinical frial to guaranty that the fransaction occurred in a proscribed manner, the fransaction being entered through a data enfry program executing on a first at least one computing device into a third database managed by a frial management program executing on a second at least one computing device, said first at least one computing device and said second at least one computing device are connected to a network, said method comprising the steps of:
a) establishing in a first database progression of fransactions of the clinical frial comprising a schedule of a plurality of periods of execution during which period a plurality of test values are accepted; a plurality of tests for each of said plurality of periods, a plurality of elements for each of said plurality of ests, and a plurality of exceptions for setting limits on said one or more test values;
b) establishing in a second database a list of a plurality of frial members enrolled to perform said progression of fransactions;
c) said frial members performing said progression of transactions by executing the data entry program, the frial management program identifying said frial members and determining a level of access allowed and performing a level of authentication necessary; d) displaying said plurality of elements and accepting a plurality of test values in satisfaction of said plurality of elements; and
f) recording said plurality of test values if said plurality of test values was received with in a time range within which the fransaction must be completed.
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