SU1456166A1 - Apparatus for investigating biomechanical properties of hollow organs - Google Patents

Abstract

The invention relates to the field of medicine and can be used to study the biomechanical properties of the walls of hollow organs, such as the heart, stomach, gallbladder, bladder, intestinal loops. The device for studying the biomechanical properties of hollow organs allows to increase the accuracy of the study by determining the place of impending destruction and the magnitude of the destructive force at the moment of rupture of the inner layers of the wall of the organ. The device contains a cylinder 1 of elastic material, a source of pressure 2, sensors 3, 4 of pressure and volume, a tube 5, a recorder 6, a source of light 7 placed inside the cylinder 1, on the surface of which a coordinate grid 8. is made. 1 sludge. and S (L with 4 SP O) Od Od

Description

The invention relates to medicine and can be used to study the biomechanical properties of the walls of hollow organs, such as the heart, stomach, gallbladder, bladder, and intestinal loops.

The purpose of the invention is to increase the accuracy of the study by determining the place of impending destruction and the magnitude of the degraded force at the moment of rupture of the internal layers of the organ wall.

The drawing shows a schematic diagram of the device.

A device for studying the biomechanical properties of hollow organs contains a cylinder 1 of elastic material, a source of pressure 2, sensors 3 and 4 of pressure and volume, respectively, connecting tubes 5, a recorder 6, a source of light 7 located inside the cylinder 1, on the surface of which a coordinate grid 8, The light source 7 is connected to the power supply unit 9 with a cable 10.

The device .. is used as follows.

Cylinder 1 is introduced into the cavity of the test organ, a light source 7, a pressure source 2, a recorder 6 with pressure sensors 3 and a volume 4 are inserted. Against a background of a uniform wall glow, the projections of the coordinate lines of the grid 8 are determined. the line and deformations of the coordinate lines of the grid 8 are judged on the deformations of the wall of the test organ, in different directions, determine the area of greatest deformation in which the rupture of the wall of the organ should be expected. When the internal layers of the wall of the organ a are broken, a sharp increase in the intensity of luminescence is observed in the region of greatest deformation, and at this moment the breaking force (pressure) and the volume of the organ cavity are recorded.

. Constructive design of the device allows the pressure to be supplied to the cylinder and through a fluid with physicochemical properties close to those of biological fluids.

The device allows one to study the anisotronic properties of the organs under study, which is important both for clinical practice and for the development of materials for artificial organs.

Claims (1)

Invention Formula A device for studying the biochemical properties of hollow organs, containing a balloon of elastic material, a source of pressure, pressure sensors and volume, connecting tubes, a recorder, characterized in that, in order to improve the accuracy of the study by determining the location of the eventual destruction and magnitude destructive force at the time of rupture of the inner layers of the wall of the body, it is provided with a light source placed inside the balloon, and a coordinate grid is made on the surface of the latter.