CN102354339A - Method and system for association of real-time heart physiological data and 3D (three-dimensional) heart model - Google Patents
Method and system for association of real-time heart physiological data and 3D (three-dimensional) heart model Download PDFInfo
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- CN102354339A CN102354339A CN2011103179378A CN201110317937A CN102354339A CN 102354339 A CN102354339 A CN 102354339A CN 2011103179378 A CN2011103179378 A CN 2011103179378A CN 201110317937 A CN201110317937 A CN 201110317937A CN 102354339 A CN102354339 A CN 102354339A
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Abstract
The invention discloses a method and a system for association of real-time heart physiological data and a 3D (three-dimensional) heart model, which comprises: S1, taking heart photos from different angles and uploading the photos to a medical 3D heart simulation database; S2, simulating to make the medical 3D heart model according to the photos taken from different angles; S3, continuously testing a human body with a physiological information detector, and uploading the testing data to the medical 3D heart model according to certain frequency; and S4, simulating the medical 3D heart of the human body on a user interface according to the testing data. The invention also discloses a system for the association of the real-time heart physiological data and the 3D heart model. The heart physiological parameters can be directly presented via construction of the medical 3D heart.
Description
Technical field
The present invention relates to medical science and computer documents processing technology field, more particularly, relate to real-time heart physiological data and 3D cardiac module correlating method and system.
Background technology
Along with social progress, quality of life improves constantly, and people are for strengthening physical efficiency, and the consciousness of grasping personal health condition is more and more stronger.
Heart is one of people and vertebrate organ, is the power in the circulation system.Human heart such as my fist, outer image peach is positioned on the diaphragm, between two lungs and take back.Mainly constitute, atrium sinistrum, left ventricle, atrium dextrum, four chambeies of right ventricle are arranged by cardiac muscle.Between the left atrium and between the left and right ventricles by spaced, so not connected, between atrium and the ventricle valve is arranged, these valves make blood flow into ventricle by the atrium, and can not flow backwards.Action of the heart is to promote blood flow, to organ, tissue ample amount of blood flow is provided, and with supply oxygen and various nutriment, and takes away the end-product (like carbon dioxide, urea and uric acid etc.) of metabolism, makes cell keep normal metabolism and function.
Action of the heart is to promote blood flow, to organ, tissue ample amount of blood flow is provided, and with supply oxygen and various nutriment, and takes away the end-product (like carbon dioxide, urea and uric acid etc.) of metabolism, makes cell keep normal metabolism and function.Various endocrine hormones and some other humoral factors also will be transported to target cell with them through blood circulation in the body, realize that the body fluid of body is regulated, and keep the constant relatively of organismic internal environment.In addition, the realization of blood defence function, and the constant relatively adjusting of body temperature also all will rely on blood and in blood vessel, constantly circulate, and the circulation of blood is because the effect of heart " pump " realizes.Heavily about 300 grams of adult heart; Its effect is huge; For example a people is under rest state; The heart per minute is jumped 70 times approximately; 70 milliliters of each pump blood; Then 5 liters of blood of the about pump of per minute are so calculated a human heart merit that all one's life, pump blood was done, and be about as much as the object of 30,000 kilogram weights is upwards lifted the merit that peak, the Himalayas is done.
Grasping in real time and presenting the heart physiological parameter changes extremely important; But; At present; The effect of being brought into play in computer networking technology and the multimedia technology modern teaching has produced good teaching efficiency; But most of figure, picture presentation can only show two-dimensional signal; Can not give depth preception, the students understand difficulty, quality of instruction can not promote significantly.
Summary of the invention
The technical matters that the present invention will solve is, a kind of timely grasp is provided and presents real-time heart physiological data and the 3D cardiac module correlating method and the system of heart physiological parameter.
The invention discloses a kind of real-time heart physiological data and 3D cardiac module correlating method, comprising:
S1. absorb the photo of heart multiple angles, be uploaded to medical science 3D heart simulation data base;
S2. according to the photo of described multiple angles, The Realization of Simulation medical science 3D cardiac module;
S3. the physiologic information detector continues testing human, by certain frequency test data is uploaded to described medical science 3D cardiac module;
S4. the medical science 3D heart that shows said human body in user interface according to described test data simulation.
In real-time heart physiological data of the present invention and 3D cardiac module correlating method, described multiple angles specifically is 360 degree.
In real-time heart physiological data of the present invention and 3D cardiac module correlating method, described simulation display of medical 3D heart is static/animation simulation display of medical 3D heart.
In real-time heart physiological data of the present invention and 3D cardiac module correlating method, described test data comprises: heart contraction intensity, heart rate, blood oxygen saturation, blood pressure, respiratory rate.
In real-time heart physiological data of the present invention and 3D cardiac module correlating method, described frequency is 1000Hz.
The invention discloses a kind of real-time heart physiological data and 3D cardiac module interconnected system, be used to realize above-mentioned method, comprising:
Heart photo acquisition module is used to absorb the photo of heart multiple angles, is uploaded to medical science 3D heart simulation data base;
Medical science 3D cardiac module emulation module links to each other with described heart photo acquisition module, is used for the photo according to described multiple angles, The Realization of Simulation medical science 3D cardiac module;
Cardiac tests data upload module links to each other with described medical science 3D cardiac module emulation module, is used for the physiologic information detector and continues testing human, by certain frequency test data is uploaded to described medical science 3D cardiac module;
Medical science 3D heart reproduces module: link to each other with described cardiac tests data upload module, be used for showing according to described test data simulation in user interface the medical science 3D heart of said human body.
In real-time heart physiological data of the present invention and 3D cardiac module interconnected system, described multi-angle specifically is 360 degree.
In real-time heart physiological data of the present invention and 3D cardiac module interconnected system, described simulation display of medical 3D heart is static/animation simulation display of medical 3D heart.
In real-time heart physiological data of the present invention and 3D cardiac module interconnected system, described test data comprises: heart contraction intensity, heart rate, blood oxygen saturation, blood pressure, respiratory rate.
In real-time heart physiological data of the present invention and 3D cardiac module interconnected system, described frequency is 1000Hz.
Real-time heart physiological data and the 3D cardiac module correlating method and the system of embodiment of the present invention have following beneficial technical effects:
(1) 3D models show heart picture is more directly perceived;
(2) utilize the physiologic information detector to obtain the heart physiological parameter in real time;
(3) present the heart physiological parameter in real time through the 3D virtual technology.
Description of drawings
Fig. 1 is a kind of real-time heart physiological data of the embodiment of the invention and 3D cardiac module correlating method process flow diagram;
Fig. 2 is a kind of real-time heart physiological data of the embodiment of the invention and 3D cardiac module interconnected system structure block scheme.
Embodiment
By describing technology contents of the present invention, structural attitude in detail, realized purpose and effect, give explanation below in conjunction with embodiment and conjunction with figs. are detailed.
Heart is as my fist size, and through making heart be divided into left and right sides two halves at interval, each partly further is divided into the part that reclaims blood again and is called the atrium, and the part of spray blood is called ventricle, so heart has left and right ventricles and left atrium totally four chambeies.
In the ventricle gateway, locate all to have valve, in the porch of left ventricle bicuspid valve is arranged, there is aorta petal in the exit, and there is tricuspid valve the porch of right ventricle, and there is pulmonary valve in the exit.The effect of valve is exactly that blood can only be flowed to fixing direction, prevents the refluence of blood.
The kermesinus venous return atrium dextrum that oxygen is low, nutrition is low, carbon dioxide is high, metabolic product is high that contains from body tissue's collection; Get into right ventricle through tricuspid orifice; From right ventricle through the pulmonary valve mouth; Send into pulmonary circulation; Between capillary wall and alveolus wall, absorbing oxygen becomes cherry arterial blood with the discharge carbon dioxide, gets into the atrium sinistrum.Arrive left ventricle in the atrium sinistrum through mitral orifice, get into body tissue's cell through aorta petal again.Some in these blood absorbs nutrition through small bowel, and a part makes metabolic product external with urine drains through kidney in addition.Moreover through liver Toxic is neutralized, at nutrients such as liver synthetic proteins through the vena cave heart that refluxes.The normal person is under rest state, and heart each minute shrinks 60-80 time, and be very regular.The each contraction, aortal pressure raises, and passes to peripheral vessel.So when we touched wrist and scratch ulnar side, the fluctuation that can feel artery served as obviously to scratch side usually, through touching the fluctuation of artery, can understand systaltic number of times is rule or irregular, thereby observes the function status of heart and blood vessel.
The present invention is intended in real time the physiological parameter that gets access to is uploaded to the 3D cardiac module through making up medical science 3D heart, and the 3D cardiac module that obtains this heart physiological parameter has in real time just had the vital sign data same with this entity heart, and image is with directly perceived more.Therefore, technical scheme of the present invention is following:
See also Fig. 1, a kind of real-time heart physiological data and 3D cardiac module correlating method comprise:
S1. absorb the photo of heart multiple angles, be uploaded to medical science 3D heart simulation data base;
Described multi-angle specifically is 360 degree, certainly, also can adopt 180 degree, so only the three-dimensional medical science heart of meeting emulation one side.
S2. according to the photo of described multiple angles, The Realization of Simulation medical science 3D cardiac module, described medical science 3D cardiac module has a plurality of signs, the related anatomical cardiac structural orientation of described sign;
Described sign can be triangle, snowflake shape, dot or the like.
S3. the physiologic information detector continues testing human, by certain frequency test data is uploaded to described medical science 3D cardiac module;
Described test data comprises: heart contraction intensity, heart rate, blood oxygen saturation, blood pressure, respiratory rate; Described frequency is 1000Hz; Perhaps; The physiologic information detector is sent to detected test data that 3D visual human's real-time transmission frequency is 1ms in the 3D dummy human system in real time; Described transmission comprises wired mode; Like LAN (Local Area Network), also can wireless mode, like GPRS, 3G.
S4. the medical science 3D heart that shows said human body in user interface according to described test data simulation.
Described simulation display of medical 3D heart is static/animation simulation display of medical 3D heart.
See also Fig. 2, a kind of real-time heart physiological data and 3D cardiac module interconnected system comprise: heart photo acquisition module 10, medical science 3D cardiac module emulation module 20, cardiac tests data upload module 30, medical science 3D heart reproduce module 40.Heart photo acquisition module 10 is used to absorb the photo of heart multiple angles, is uploaded to medical science 3D heart simulation data base; Medical science 3D cardiac module emulation module 20 links to each other with heart photo acquisition module 10, is used for the photo according to described multiple angles, The Realization of Simulation medical science 3D cardiac module;
Cardiac tests data upload module 30 links to each other with medical science 3D cardiac module emulation module 20, is used for the physiologic information detector and continues testing human, by certain frequency test data is uploaded to described medical science 3D cardiac module; Medical science 3D heart reproduces module 40: link to each other with cardiac tests data upload module 30, be used for showing according to described test data simulation in user interface the medical science 3D heart of said human body.
Further; Described multi-angle specifically is 360 degree; Described simulation display of medical 3D heart is static/animation simulation display of medical 3D heart, and described test data comprises: heart contraction intensity, heart rate, blood oxygen saturation, blood pressure, respiratory rate, described frequency are 1000Hz.
Real-time heart physiological data and the 3D cardiac module correlating method and the system of embodiment of the present invention have following beneficial technical effects:
(1) 3D models show heart picture is more directly perceived;
(2) utilize the physiologic information detector to obtain the heart physiological parameter in real time;
(3) present the heart physiological parameter in real time through the 3D virtual technology.
Combine accompanying drawing that embodiments of the invention are described above; But the present invention is not limited to above-mentioned embodiment; Above-mentioned embodiment only is schematic; Rather than it is restrictive; Those of ordinary skill in the art is under enlightenment of the present invention; Not breaking away under the scope situation that aim of the present invention and claim protect, also can make a lot of forms, these all belong within the protection of the present invention.
Claims (10)
1. real-time heart physiological data and 3D cardiac module correlating method is characterized in that, comprising:
S1. absorb the photo of heart multiple angles, be uploaded to medical science 3D heart simulation data base;
S2. according to the photo of described multiple angles, The Realization of Simulation medical science 3D cardiac module;
S3. the physiologic information detector continues testing human, by certain frequency test data is uploaded to described medical science 3D cardiac module;
S4. the medical science 3D heart that shows said human body in user interface according to described test data simulation.
2. real-time heart physiological data according to claim 1 and 3D cardiac module correlating method is characterized in that, described multiple angles specifically is 360 degree.
3. real-time heart physiological data according to claim 1 and 3D cardiac module correlating method is characterized in that, described simulation display of medical 3D heart is static/animation simulation display of medical 3D heart.
4. real-time heart physiological data according to claim 1 and 3D cardiac module correlating method is characterized in that described test data comprises: heart contraction intensity, heart rate, blood oxygen saturation, blood pressure, respiratory rate.
5. real-time heart physiological data according to claim 1 and 3D cardiac module correlating method is characterized in that described frequency is 1000Hz.
6. real-time heart physiological data and 3D cardiac module interconnected system are used to realize the described method of claim 1, it is characterized in that, comprising:
Heart photo acquisition module is used to absorb the photo of heart multiple angles, is uploaded to medical science 3D heart simulation data base;
Medical science 3D cardiac module emulation module links to each other with described heart photo acquisition module, is used for the photo according to described multiple angles, The Realization of Simulation medical science 3D cardiac module;
Cardiac tests data upload module links to each other with described medical science 3D cardiac module emulation module, is used for the physiologic information detector and continues testing human, by certain frequency test data is uploaded to described medical science 3D cardiac module;
Medical science 3D heart reproduces module: link to each other with described cardiac tests data upload module, be used for showing according to described test data simulation in user interface the medical science 3D heart of said human body.
7. real-time heart physiological data according to claim 6 and 3D cardiac module interconnected system is characterized in that, described multi-angle specifically is 360 degree.
8. real-time heart physiological data according to claim 6 and 3D cardiac module interconnected system is characterized in that, described simulation display of medical 3D heart is static/animation simulation display of medical 3D heart.
9. real-time heart physiological data according to claim 6 and 3D cardiac module interconnected system is characterized in that described test data comprises: heart contraction intensity, heart rate, blood oxygen saturation, blood pressure, respiratory rate.
10. real-time heart physiological data according to claim 6 and 3D cardiac module interconnected system is characterized in that described frequency is 1000Hz.
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN104537187A (en) * | 2015-01-14 | 2015-04-22 | 哈尔滨工业大学 | Steering type virtual heart simulation method |
| CN106456269A (en) * | 2014-02-18 | 2017-02-22 | 西门子保健有限责任公司 | System and method for real-time simulation of patient-specific cardiac electrophysiology including the effect of the electrical conduction system of the heart |
| CN110444072A (en) * | 2019-08-06 | 2019-11-12 | 成都泰盟软件有限公司 | A kind of entity and virtual physiological test real time fusion system |
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| CN106456269A (en) * | 2014-02-18 | 2017-02-22 | 西门子保健有限责任公司 | System and method for real-time simulation of patient-specific cardiac electrophysiology including the effect of the electrical conduction system of the heart |
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Application publication date: 20120215 |