SU1360699A1 - Apparatus for measuring interstitial pressure and capillary permeability - Google Patents

Abstract

The invention relates to medicine, in particular to the study of the state of biological tissues. To improve the accuracy of measuring the pressure, the device is installed in the housing 1 of the syringe, inside of which the piston 2 with the membrane 3 is placed, resting on the uior 4 connected to the rod 5. The rod. 5 is installed in the housing 6 on flexible plates 7. At the rear end of the rod there is a ferrite rod 8, which is a movable element of an inductive sensor, having a housing 9 in which coils 10 are connected by an electronic measuring system unit 15 connected to a recorder 16. 1 or . (from with: about Ci with

Description

The invention relates to medicine, namely to the study of the state of biological tissues, determined by a change in the interstitial pressure and the dynamics of the nodal fluid.

The purpose of the invention is to improve the accuracy of pressure measurement.

The drawing shows the device, the overall appearance.

The device is installed in the medical syringe housing 1, inside which the piston 2 is placed, on which the membrane 3 is fixed, resting on the support 4, connected to the rod 5. The stem 5 is mounted in the housing 6 on flexible plates 7. A ferrite rod is fixed on the rear end of the stem 8, which is a movable element of an inductive sensor, having a housing 9 in which coils 10 are installed. The device has an adjusting device consisting of nuts 11 and 12 and an adjusting screw 13. At the front end of the device there is a injection needle 14. The coils 10 of the inductive sensor are connected by a block 15 of an electronic measuring system connected to the recorder 16.

The device works as follows.

For places "in the needle 13 in the vessel with the desired liquid (for example, saline) and moving the piston 2, collect the liquid in the syringe in a volume of 5-10 ml. After that, the needle 13 is introduced into the tissue under study and, by moving the piston 3, the necessary volume of fluid is supplied to the tissue, which is fixed on a scale on the syringe body by a scale. A depot is formed inside the tissue. The device allows to measure the pressure of the fluid inside the formed depot,

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the pressure in the electrical signal, the value of which after amplification is recorded on the recorder tape. In the process of fluid resorption, the pressure in the depot decreases to a certain value, practically not changing our position further in the course of time.

The advantages of the proposed device in comparison with the known one are as follows: measurements can be carried out both in cavities containing fluid and inside biological tissues, thus no surgical accommodations are required to perform the measurements, and the measurement process itself is reduced to the procedure of a conventional injection; pressure measurements are made in a static state, which eliminates inaccuracies associated with pressure losses in the flow path, as well as the dependence of pressure measurements and capillary penetrability of the tissue on the flow rate of the fluid inside the tissue and therefore more objectively characterizes its condition .

Claims (1)

Invention Formula A device for measuring interstitial pressure and capillary permeability, containing a membrane associated with an inductive displacement transducer, characterized in that, in order to improve the accuracy of pressure measurement, the device is mounted in the syringe body, while the membrane is fixed on the syringe piston, and the stem is provided with a housing and mounted on flexible plates mounted in the stem housing and connected to an inductive sensor rigidly mounted in the housing. five