RU56792U1 - PROBE FOR STUDY OF GASTRASTIC TRACT BODIES - Google Patents

Abstract

The utility model relates to the field of medicine, namely to the diagnostic equipment used in gastroenterology. The objective of the utility model is to increase the information content of the probe. This technical result is achieved by the fact that the probe for the study of the digestive tract, made in the form of a transparent silicone tube, is additionally equipped with a thermistor and an acidity sensor. An infrared optoelectronic pair is located inside a transparent silicone tube, the emitter and receiver of which are separated by an opaque partition. The acidity sensor consists of a measuring electrode located at the distal end of the probe, and a cutaneous reference electrode in contact with the wrist of the patient. The cutaneous comparison electrode is connected by an electrode wire through a connector to a data processing and recording unit. The thermistor and the measuring electrode are connected to the data processing and recording unit through the connector. Fig. 1.

Description

The utility model relates to the field of medicine, namely to the diagnostic equipment used in gastroenterology.

A known probe, which is part of a device for studying the functional state of the gastrointestinal tract (GIT) by separately measuring motility of the wall and intracavitary pressure [A.S. USSR No. 1502004, IPC A 61 B 5/00. A device for studying the functional state of the gastrointestinal tract // B.I. - 1989. - No. 31].

The disadvantages of this probe are low sensitivity and low information content, which is due to the presence of membranes and the determination of only one indicator in the form of pressure during compression of the walls of the esophagus.

A known probe used in the device for studying the motor function of the organs of the gastrointestinal tract, selected as a prototype, made in the form of a transparent silicone tube. An infrared optoelectronic pair is located inside a transparent silicone tube, the emitter and receiver of which are separated by an opaque partition. The emitter is connected to a power source, and the receiver is connected to a data processing and registration unit [RF Patent No. 2154410, IPC 7 A 61 V 5/05, publication date 2000.08.20].

A disadvantage of the known probe design is the low information content. This is because this design allows you to explore only one informative parameter, such as peristalsis of the digestive tract.

The objective of the utility model is to increase the information content of the probe.

This is achieved by the fact that the probe for examining the digestive tract as well as in the prototype, is made in the form of a transparent silicone tube. An infrared optoelectronic pair is located inside a transparent silicone tube, the emitter and receiver of which are separated by an opaque partition. The emitter is connected to a power source, and the receiver is connected to a data processing and recording unit.

According to a utility model, the probe is additionally equipped with a thermistor and an acidity sensor. The acidity sensor consists of a measuring electrode located at the distal end of the probe, and a cutaneous reference electrode in contact with the wrist of the patient. The cutaneous comparison electrode is connected by an electrode wire through a connector to a data processing and recording unit. The thermistor and the measuring electrode are connected to the data processing and recording unit through the connector.

Due to the introduction of a thermistor and an acidity sensor, it is possible to determine the temperature and acidity in the organ cavity, which increases the information content of the probe.

The figure shows the proposed probe for the study of the digestive tract.

The probe is made in the form of a transparent silicone tube 1, inside which there is an infrared optoelectronic pair 2, the emitter 3 and the receiver 4 of which are separated by an opaque partition 5. The emitter 3 is connected to a power source (not shown in the figure), and the receiver 4 is connected to the processing and registration unit Data 11 (BOARD). Inside the probe are placed a thermistor 6 and an acidity sensor, which consists of a measuring electrode 7 and a cutaneous reference electrode 8. The thermistor 6, measuring electrode 7 are connected to a connector 10 connected to the data processing and recording unit 11 (BORD).

The cutaneous comparison electrode 8 is connected to the connector 10 through the electrode wire 9.

Infrared optoelectronic pair 2 is based on AL107B LEDs.

As a thermistor 6, it is advisable to use a semiconductor thermistor type ST3-19 having a linear conversion function in a given range of temperature changes, as well as small dimensions.

The measuring electrode 7 can be made, for example, antimony, and the cutaneous comparison electrode 8 with silver chloride.

The probe works as follows. When examining the digestive tract, for example, the esophagus, a transparent silicone tube 1 is inserted into the cavity of the latter. The light flux generated by the emitter 3 is scattered from the opaque partition 5, and then, propagating, it is reflected from the walls of the esophagus and is perceived by the receiver 4. When the walls of the esophagus are reduced, the intensity of the reflected light flux changes, which is converted by the receiver 4 into an electric signal of a certain amplitude, duration and forms fed to the data processing and recording unit 11 (BOARD). The values of these parameters judge the peristalsis of the esophagus.

Thermistor 6 responds to changes in temperature in the cavity of the esophagus. In the case of inflammatory processes, the temperature rises at the site of the outbreak. The resistance of the thermistor 6 varies in proportion to the temperature value. From the thermistor 6, temperature data is fed through the connector to the data processing and recording unit 11 (BOARD). The magnitude of the change in the resistance value determines the degree and place of the lesion of the esophagus.

When a probe is inserted into the cavity of the esophagus between the measuring electrode and the cutaneous reference electrode, a potential difference is formed, the value of which is determined by the value of acidity in

the cavity of the esophagus, that is, a hydrogen pH. Thus, by means of an acidity sensor, a direct proportional conversion of the chemical parameter of the pH medium into an electric signal of the EMF occurs.

Claims (1)

The probe for examining the organs of the gastrointestinal tract, made in the form of a transparent silicone tube, inside which there is an infrared optoelectronic pair, the emitter and receiver of which are separated by a lightproof partition, the emitter is connected to a power source, and the receiver is connected to a data processing and recording unit, which differs the fact that it is additionally equipped with a thermistor and an acidity sensor, consisting of a measuring electrode located at the distal end of the probe, and a cutaneous electrode cf Aviation contacted with the wrist of the patient and connected by an electrode wire through a connector with a data processing and recording unit, and a thermistor and a measuring electrode are connected to the data processing and recording unit through a connector.