RU2344755C1 - Device for internal organ and tissue condition diagnostics - Google Patents

Abstract

FIELD: medicine; surgery.

SUBSTANCE: device for internal organ and tissue condition diagnostics includes light source and light receiver mounted in a case, and additional light source. The case is divided lengthwise by partition into two cavities. Both infrared LED light sources and silicon photodiode light receiver positioned between the light sources are mounted in first cavity, while second cavity has drainage orifices. Additionally the device features two electrodes in the front part of first case cavity.

EFFECT: enhanced diagnostics accuracy, expanded functional capacities.

2 cl, 2 dwg

Description

The invention relates to medicine, in particular to surgery, and can be used to diagnose the condition of internal organs and tissues.

A known probe for intraorgan pulsomotorography, in which the illuminator and sensors are hermetically mounted. This probe consists of a rubber tube, rod, connector, light emitter, photodetector (Z.M.Sigal, S.L. Tochilov. Transillumination surgical technology. - Izhevsk, 1988. - p.22-24).

A disadvantage of the known device is that it is possible direct illumination of the photodetector from the light emitter, leading to loss of light, which reduces the accuracy of the diagnosis. In addition, the known device is applicable only to organs such as the stomach, esophagus, intestines, but cannot be applicable to the lungs, diaphragmatic muscle, uterus.

A device is known for diagnosing the condition of hollow organs (see patent No. 2112420, AB 5/103, 5/05). The device comprises a housing in which a light source and a light receiver are arranged. The light receiver is made in the form of a diode, the light source is in the form of an emitter with circular illumination, while the diode is placed behind the emitter and an opaque barrier is installed between them.

The disadvantage of this device, taken as a prototype, is that it does not allow a sufficiently accurate diagnosis, since when using an incandescent lamp as a light source in this device, the light emanating from an incandescent lamp is partially scattered and does not reach the surface of the organ . In addition, the photodiode is located behind the light source, which leads to the loss of light, and therefore reduces the accuracy of diagnostics. In addition, the known device is applicable only to hollow organs (e.g., stomach, esophagus, intestine, uterus), but cannot be applicable to the lungs, diaphragmatic muscle, spleen, liver.

The objective of the claimed invention is to increase the accuracy of diagnosis of the state of internal organs and tissues and expand the functionality of the device.

The problem is solved due to the fact that the device for diagnosing the condition of internal organs and tissues, containing a light source and a light receiver installed in the housing, is additionally equipped with a light source, while the housing is divided by a longitudinal partition into two cavities, in one of which both light sources are installed, made in the form of infrared LEDs, a light detector made in the form of a silicon photodiode and placed between the LEDs, and drainage holes are made in the second cavity. The device is equipped with two electrodes located in front of the first cavity of the housing.

The claimed invention allows to atraumatically examine the state of organs and tissues in the intraoperative and early postoperative periods. When using this device, accuracy is improved in the diagnosis of impaired motor activity, the state of blood flow, oxygenation of the studied area of the organ and tissue. The use of two light sources in the device creates a more uniform illumination of the object of study, in contrast to a single light source, as well as a more complete reception of the reflected signal. In addition, the claimed device has broad-functional capabilities, namely it allows not only the diagnosis of organs and tissues, but also the drainage of the pleural and abdominal cavities. Due to the presence of two electrodes, it is possible to stimulate an organ or tissue in the intraoperative and postoperative periods in order to normalize their functions. The claimed device has a simple design, and also does not require special skills when using it, does not require large economic costs, which allows it to be used both in emergency and planned surgery.

The claimed invention is illustrated by drawings, in which - figure 1 - General view of the device, section; figure 2 - electrical diagram of the device.

The claimed device contains a housing 1 (Fig. 1) made of transparent polyvinyl chloride material, in which a partition 2 is installed, dividing the housing 1 into a first cavity 3 and a second cavity 4. In the first cavity 3 there are two light sources 5 made in the form of infrared LEDs between which a light detector 6 is installed, made in the form of a silicon photodiode. In addition, two electrodes 7 are installed in front of the first cavity 3. Drainage holes 8 are made in the second cavity 4.

The claimed device operates as follows.

The device works when connected to any well-known digital oximeter, for example, a pulse oximeter OP-32A TRITON, and when connected to any known recorder, for example, with an EC 1T-03M electrocardiograph. When working with an oximeter, an alternating pulse current is supplied to the light sources 5. The reflected signal from the object of study, for example, from the diaphragmatic muscle, is received by the light detector 6, which converts the changes in the light flux into an electrical signal, which, in turn, is fed to the analog-digital processing device of the oximeter. When working with a self-recording device, a constant electric current is supplied to the light sources 5, creating monochrome radiation. The signal reflected from the object of study is captured by the light receiver 6 and fed from it to the analog input of the recorder. Using in this case two light sources, we create a more uniform illumination of the object of study in contrast to one light source, as well as a more complete reception of the reflected signal. In addition, in order to reduce light scattering, the LEDs 5 can be installed at an angle of 30-45 ° to the partition 2. In the front of the first cavity 3 there are two electrodes 7 through which organs and tissues can be stimulated by connecting any known device to this device stimulant, for example, DENAS apparatus. In the second cavity 4, drainage holes 8 are made, through which, after the device is installed in the pleural or abdominal cavity in the postoperative period, fluid outflow from the cavities occurs.

Claims (2)

1. A device for diagnosing the condition of internal organs and tissues, comprising a light source and a light detector installed in the housing, characterized in that it is provided with an additional light source, the housing being divided by a longitudinal partition into two cavities, one of which has both light sources made in the form of infrared LEDs, with the possibility of alternately applying a pulse current to them from a digital oximeter or supplying them with a constant electric current from a recording device to obtain m nohromnogo radiation, a light detector, configured as a photodiode and a flint disposed between the LEDs and the second cavity formed drainage holes. 2. The device according to claim 1, characterized in that it is equipped with two electrodes located in front of the first cavity of the housing.

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