DE3108766A1 - Medical puncture probe measuring device - Google Patents

Abstract

A medical puncture probe measuring device for thin, sensitive puncture probes is equipped with a puncturing cannula which protects the puncture probe during puncturing and is provided together with the probe as an exchangeable unit on the device. After insertion of the cannula a probe advancing drive ensures stepwise advance of the probe in order to prepare a histogram. Besides the probe advancing drive for positioning of the probe on different sites to be measured, the device preferably contains a puncturing drive which inserts the probe and the cannula into the tissue, as well as adjustment means for adjustment of the puncturing depth and the puncturing site. The device can also be designed for manual puncturing.

Description

Medical stick probe measuring device The invention relates to a Stab probe measuring device of the type mentioned in the preamble of claim 1 for Use of tissue puncture probes on animals and humans.

Oxygen and blood flow measuring elements with high spatial and temporal resolution as well as tissue puncture probes measuring biopotentials or probes of other sensitivity require an application device that largely avoids repercussions a locally and temporally defined positioning on the tissue to be examined the sensitive probe tip allows the biological significance of such Improve measurements.

In the representation of measurement results that z. B. with oxygen tissue probes are obtained, it has proven to be useful to use the measured oxygen pressure values with an interval width of 5 or 10 mmHg and classified for the individual Classes add up the frequencies observed and display them as bar graphs; this form of representation is called the p02 histogram. Such an oxygen histogram makes a statement about the supply conditions of the examined tissue and its micro-cycle. The prerequisite for this, however, is that the probe for each Measurement, which is included in the histogram formation, moved to an adjacent measurement location will. If possible, the individual measuring locations should be a few 10 p apart and are equidistant from one another.

p02 histograms are interpreted as location patterns, although these Strictly speaking, represent time and place patterns of oxygen distribution. The one in one such a histogram contained time-dependent scatter of the measured p02 values can largely be eliminated by the fact that fast measuring elements, such as those for example for tissue blood flow from DE-OS 25 49 559 are known for the measurements can be used as with the p02 probes mentioned for example 500 Individual measurements can be carried out in less than 60 seconds. So that will the microcirculatory examination, in terms of the time required, for the clinical one Routine use is debatable.

-Ehrly and Schröder (Angiology, Vol. 28 No. 2, February 1977) went To measure the oxygen field in the lower leg muscles, proceed as follows: First, a plastic cannula with a stylet was pushed through the skin into the muscle. after withdrawing the stylet, the plastic tube remained, its from the skin outstanding part was cut off.

In a further step, a micromanipulator was placed over the Tube opening placed in position through the plastic tube to the mechanically sensitive Insert a microprobe into the muscle tissue. This method works in many ways Disadvantageous: 1. The time required to assist an assistant is 5 to 10 Minutes to measure an oxygen pressure field (a histogram).

2. A plastic-coated steel cannula creates a puncture channel that in comparison with the probe stub actually required for a p02 probe one is an unnecessarily large injury. Such a lesion makes measurement results immediate following the placement of the cannula, probably because of violent nociception reflexes, which affect the size of the vessel, worthless, so waited a few minutes must be until approximately the puncture-related irritation of the tissue parameters have subsided.

3. With some types of polarographic probes, after each interruption the polarization voltage and / or the H2O contact of the probe tip during the application process a renewed run-in time of the probe at the measuring location lasting several minutes is required.

4. The mechanical uncertainties of the separate placement of the cannula and the manipulator with the fragile tissue measuring probe result in some in vain Measurement attempt, as the probes are often used in the course of the various manipulations described damaged, especially when inserted into the cut tube.

The object of the present invention is to provide a device to create the most responsive tissue probes under routine clinical conditions mechanically safe to place in the tissue and for a histographic representation of the results in an appropriate manner.

This object is achieved according to the invention with the features of the marking part of claim 1 solved By this embodiment, the placement of the probe in the Tissue is mechanically safe by puncturing, so that probes that are sensitive to shearing can also be used can be used.

Furthermore, this design allows simultaneous introduction the guide cannula and the measuring probe into the tissue; this is to save time important. The measuring probe tip withdrawn in the guide cannula remains from the surrounded by an aqueous environment, and this ensures immediate operational readiness for pO2 probes in the tissue. Finally, compared to previous techniques, the diameter of the Guide cannula can be greatly reduced. When using commercially available raw materials For probe construction, the outer diameter of the guide cannula can be reduced to 0.5 mm will.

The invention is also advantageous due to the features of the claim 2 marked. This simplifies the sterilization during implementation of measurements outside the operating room and when using disposable cannulas there are cost advantages; the change of the entire measuring system (cannula + probe) takes less than 20 seconds.

The invention is also advantageous due to the features of the claim 3 marked. With this drive, the cannula becomes fast and without being too large Pricked irritations in the tissue. There are cannula and feed drive at the same time and stabbed without moving to each other, so that the probe is opposite when stabbed the cannula remains immobile and is protected by it against the puncture process.

The invention is advantageous due to the features of the claim 4 marked. The desired depth of view can be selected with the adjustment drive.

The invention is also advantageous due to the features of the claim 5 marked. This execution of the probe drive allows one to a few p definable Sondeii # step feed without sterilization problems or electrical disturbances of the probe signal occur, as z. B. when using of an electric motor in the vicinity of the probe would be expected and without the accelerable Puncture slide must be subjected to a significant amount of weight, which is a clean Tissue bullet he makes possible.

The invention is also advantageous due to the features of the claim 6 marked. This version is particularly compact and can be used if it is not used a freehand measurement on a frame, the handling being similar to that of a hypodermic syringe. In with this version the possibility of creating several histograms of different in a very short time Register body parts; the measuring cycle exists when using this version of the invention from a hand-made puncture of the puncture cannula together with an internal one Probe, the hydraulically driven step feed of the probe from the puncture cannula, the automatic retraction of the probe into the puncture cannula and finally pulling out the l the entire measuring probe stabbing device from the tissue. An oxygen pressure field measurement as the formation of the histogram from the pO2 values of 500 different Tissue types can be carried out, for example, within 60 seconds; any awkward Installation for preparing a histogram recording is included in this version avoidable of the invention. This gives the user time frame conditions, which is a dynamic and pathologically-anatomically differentiated question am Allow individual cases; for example the separate analysis of the different Branches of the leg vascular system-dependent muscle parts during vascular surgery.

Finally, the invention is advantageous due to the features of the claim 7 marked. This embodiment of the measuring probe piercing device allows in particular if the measurement is carried out by hand, a sufficient depth definition of the measurement location, when the frame is used as a stop for the rapid puncture movement of the skin surface will.

In addition, at least 3 legs or

a ring plate existing stop one during the extension period the measuring probe sufficiently torsion-resistant fixation of the puncture cannula on the Skin surface.

In the drawing, the invention is exemplified and schematic shown.

Fig. 1 shows a schematic side view of a measuring probe piercing device, as a fixed tripod structure especially for the measurement of tissue parameters of the Limb muscles are suitable.

Fig. 2 shows the sectional drawing through a to be guided by hand Puncture device for quick measurement of histograms of exposed parts of organs on surgically opened patients or for orientational measurements on different Extremity areas.

Fig. 1 shows a schematically indicated lower leg 1, which means a support plate 36 and a tibial edge support plate 38, which by an adjusting device 34 is attached to the main axis 28 of a frame, in turn fixed to the frame is. A locking device 30 for rough adjustment of the height of the puncture probe measuring device shape over the shin and a ball joint 26 which can be locked with a handwheel 32 the frame largely variable in shape, so that without loosening the connection between Frame and lower leg different measuring locations and stitch directions can be selected can. A measuring probe 2 with a sensor tip 2a is in a tissue puncture suitable guide cannula 4 slidably mounted and by means of a not shown, in the Inside a stationary part 7 located drive part of a feed drive, the is designed as a hydraulic piston, can be displaced in a defined manner, with a connecting pipe 9 and a flexible hydraulic line 11 connect the cylinder to a pressure transducer.

To pierce the tissue, the measuring probe 2 is first so far in the guide cannula 4 is withdrawn so that the sensor tip 2a during the piercing is mechanically protected.

The puncture itself takes place in that a movable slide 10 with respect to a part 16 fixed on the frame in the form of a slide rail construction 12 only permitted stitch direction by a pre-tensioned tension coil spring 14 is accelerated like a catapult launch. Those that can only be moved in the stitch direction Parts 10, 12 of the slide were previously tensioned by the helical spring 14 locked in a ready-to-puncture position (retaining device not shown). The instep depth of the generated by triggering the cannula stitcher 10, 14, 16 Guide cannula 4 into the tissue of the lower leg 1 results from the stroke of the Slide 10 and the basic position of the fixed part 16, which in its distance to the lower leg 1 with an adjustment drive consisting of a rack 20 and by a handwheel 22 actuated pinion opposite the one that determines the stitch direction Part 18 of the frame is adjustable.

The probe 2 is, as can be seen from Fig. 1, through in its front the cannula 4 to be pierced through is made thinner and in its rear in the stationary part 7 mounted part formed thicker. It can be entered from below Stationary part 7 introduced and pushed through this and inside of the stationary part 7 releasably attached to the piston of the hydraulic feed drive will. At the rear end of the probe 2 is a plug 3 for connecting a measuring cable 4 attachable.

The cannula 4 is attached to a base plate 6 and with a knurled screw 8 attached to the slide 10.

After removing the plug 3 from the probe 2 and after loosening the not shown attachment of the probe on the hydraulic piston in the stationary part 7 and after loosening the knurled screw 8, the probe 2 together with the cannula 4 of the Device can be pulled down. Probe 2 and cannula 4 are thus easy Way designed to be easily detachable and replaceable. The arrangement of probe 2 and cannula 4 can z. B. be kept ready as a spare part or for reuse in a simple manner separated from the rest of the device sterilized. There is no need to sterilize the entire device through this.

Fig. 2 shows the longitudinal section drawing through a manually operable Probe applicator, the unit also consisting of the measuring probe 2, a Coupling connector 15 and the guide cannula 4 are sterilized separately can. To create a histogram, the one protruding from a frame 50 is first used free outer length of the guide cannula 4 pierced by hand in such a way that the frame 50 rests on the surface of the skin in a ring shape and the applicator is thus firmly attached to the body part supports. The frame 50 is connected to a stationary part 52 of the probe drive via a Thread connected, by twisting the free outer length of the guide cannula 4 and thus the definitive puncture depth can be changed. After piercing the guide cannula 4, the measurement is initiated by the fact that the flexible Hydraulic line 11 and a tube 58 hydraulic fluid into a hydraulic pressure chamber 56 is pumped.

As a result of this pressurization, the drive part of the probe drive is now consisting of an annular piston 54.1, a probe cover tube 54.2, a coupling piece 54.3, a coupling device 56, a return spring protection tube 54.4 and a return spring 66 moved in the stitch direction, the probe from the the front end of the guide cannula 4 is moved out. This is done advantageously by discontinuous pressurization of the space 56, with between the individual A measured value is taken from each feed step.

After completion of the measurement, the hydraulic system is depressurized the spring 66 is released and pulls the probe back into the puncture cannula 4. The measurement is thus ended and the guide cannula can be removed from the tissue 1 again be pulled out. Parts 54.0, 54.1, 54.3, 54.4 represent different sections an annular piston; this can be used in a meaningful place for assembly purposes (not shown) can be broken down into smaller sub-units.

The two illustrated embodiments can be used in many ways can be varied. In the embodiment of Fig. 1, the drives (feed drive, Key drive, adjusting drive) also connected in series or formed in another way be. Various variations are also possible in the embodiment of FIG. 2. For example the one used for support, as a frame 50 designated ring plate are replaced by three legs that functionally the same Ensure support on the skin.

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Claims (7)

CLAIMS: Medical needle probe device with a single sensor tip having puncture probe, which can be slid in a guide cannula in the puncture area stored and connected to the drive part of a probe feed drive whose Stationary part supported on a frame with respect to the body part to be examined is, characterized in that the cannula designed as a needle needle (4; 4) on Stationary part (7; 52) is attached. 2. Apparatus according to claim 1, characterized in that the cannula (4; 4) and the probe (2; 2) as an exchange unit via suitable couplings (15, 52; 2, 56) can be connected to the stationary part (52) or drive part (54.1). 3. Device according to one of the preceding claims, characterized in that that the stationary part (7) of the Feed drive (7, 11) via a Cannula pin drive (10, 14, 16) is mounted on the frame (18, 28). 4. Apparatus according to claim 3, characterized in that the punch drive (10, 14, 16) is mounted on the frame (18, 28) via an adjusting drive (20, 22). 5. Device according to one of the preceding claims, characterized in that that the feed drive as pressurized via a flexible line (11; 11) hydraulic drive (7; 54.1, 56) is formed. 6. Apparatus according to claim 5, characterized in that the stationary part (52) as a cylinder (56) and the drive part as an annular piston (54.1) or annular diaphragm are formed, wherein the probe (') the cylinder and the piston or the membrane axially penetrated and attached to the piston or the membrane (56). 7. Apparatus according to claim 6, characterized in that the frame essentially of at least three legs or a ring plate attached to the cylinder (50), which extends essentially in the direction of the stitch forward over a length extend, which corresponds to the free outer linge of the cannula (4) in the puncture position