RU80329U1 - DIAGNOSTIC DEVICE - Google Patents

Abstract

The proposed utility model relates to medical equipment and can be used to determine the physiological state of the female reproductive system. The essence of the utility model is that the diagnostic device contains a sensor and a processor, as well as control and indication units, while the output of the sensor is connected to the first input of the processor, a group of outputs connected to the group of inputs of the display unit, the sensor being made in the form of a pH recorder and its electrical input is connected to the first output of the control unit, the input connected to the input of the diagnostic device, and the second and third outputs connected respectively to the second input of the processor and to the first input dy display unit, a group of inputs connected to outputs of the processor group. The technical result of using the proposed device is the ability to diagnose the presence of disorders, for example, fixing inflammatory processes, the reproductive system in women by measuring the hydrogen index (pH) of the vaginal mucosa due to a significant increase in the discharge current relative to the threshold value with increasing acidity of the corresponding medium.

Description

The proposed utility model relates to medical equipment and can be used to determine the physiological state of the female reproductive system.

A device for determining the acidity of solutions is known, which is a pH sensor connected electrically to a measuring system (see, for example, http://www.L-micro.ru/files/pHChem.pdf).

The known device provides the ability to measure the pH of solutions, however, it is not suitable for the diagnosis of the physiological state of the body in the field of gynecology and obstetrics.

The closest prototype analogue is a diagnostic device (see, for example, RF patent No. 63666 for a utility model with priority dated January 22, 2007, IPC ⁷ : АВВ 5/05), including a diffuse current sensor containing electrodes isolated from each other, with ends mounted flush to the working surface and perpendicular to it, as well as power and signal processing units connected by the sensor electrodes, the signal processing unit being connected to the display unit by a group of outputs, while the first sensor electrode is made in the form of a hollow cylinder, and The second electrode is made in the form of a cylindrical rod coaxially placed in the cavity of the first cylinder, the first and second electrodes being connected, for example, by means of conductive glue, to the first inputs of the signal processing system and the power supply, respectively, with the ends opposite to the ends facing the working surface, and In addition, the electrodes, together with the signal processing system, the second input connected to the second output of the power supply, are filled with a compound, for example epoxy

the bottom resin, from which the working surface is also formed, while the third input of the signal processing system is connected to the input of the diagnostic device.

Such a device makes it possible to determine ovulation periods in women, but with its help it is not possible to diagnose the presence of reproductive system disorders in women.

The objective of the utility model is to enable the diagnosis of the presence of reproductive system disorders in women, for example, inflammatory processes in the vagina.

The essence of the utility model is that the diagnostic device contains a sensor and a processor, as well as control and indication units, while the output of the sensor is connected to the first input of the processor, a group of outputs connected to the group of inputs of the display unit, the sensor being made in the form of a pH recorder and its electrical input is connected to the first output of the control unit, the input connected to the input of the diagnostic device, and the second and third outputs connected respectively to the second input of the processor and to the first input dy display unit, a group of inputs connected to outputs of the processor group.

The technical result of using the proposed device is the ability to diagnose the presence of disorders, for example, fixing inflammatory processes, the reproductive system in women by measuring the hydrogen index (pH) of the vaginal mucosa due to a significant increase in the discharge current relative to the threshold value with increasing acidity of the corresponding medium.

It is known (see, for example, http://www.medlink.ru) that the emergence of various types of inflammatory processes on the internal

the surface of the vagina is accompanied by a change in the acidity (pH) of the medium from 7 to 12 units or higher, depending on the nosology of the disease.

The action of the diagnostic device is based on determining the potential difference between the sensor electrodes, which depends (proportionally) on the acidity of the medium on the inner surface of the vagina, which allows one to fix and accordingly diagnose inflammatory processes corresponding to an increase in acidity.

Figure 1 shows a functional diagram of a diagnostic device.

The diagnostic device comprises (Fig. 1) a pH sensor 1 and a processor 2, as well as a control unit 3 and an indication unit 4, wherein the output of the sensor 1 is connected to the first input of the processor 2, a group of outputs connected to the group of inputs of the indication unit 4, the sensor 1 its electrical input is connected to the first output of the control unit 3, the input connected to the input of the diagnostic device, and the second and third outputs connected respectively to the second input of the processor 2 and to the input of the display unit 4.

Sensor 1 is made in the form of an appropriate device for registering pH (see, for example, http://www.L-micro.ru/files/pHChem.pdf) and is designed to provide signals corresponding to the pH of the vaginal mucosa due to a significant increase in the value discharge current relative to the threshold value with increasing acidity of the corresponding environment of the tested woman.

The processor 2 is designed to control the procedures for the collection and processing of information in the diagnostic device, made in the form, for example, of a calculator such as C8051F33 Silicon Laboratories (see, for example, www. Silabs.com). and connected to the output of the sensor 1 through the matching unit (not shown in Fig.), made in the form

circuits of preliminary voltage amplifiers, for example, an integrated amplifier TDA 2002 (SGS) (see, for example, W. Titze and K. Schenk “Semiconductor circuitry”, Moscow, Mir, 1982, pp. 248-249).

The control unit 3 is designed to set the desired mode of operation of this device and is made in the form of a connection diagram of the sensor 1, processor 2 and display unit 4 with a power supply (not shown in Fig.).

The display unit 4 is intended to inform the user about the operating mode and the result of the diagnosis and is made, for example, in the form of a circuit of green and red LEDs (not shown in Fig.), The red LED being connected to the first and the green to the second input of the group of inputs of the block 4 indications.

The diagnostic device operates as follows:

When a sensor 1 is inserted into the vagina of the tested woman on the surface of a polarizable electrode (not shown in FIG.), H ⁺ ions are sorbed and between the electrodes (not shown) of sensor 1, a potential difference occurs proportional to the acidity of the medium in which the sensor is placed.

The signal removed from the sensor 1 is fed to the corresponding input of the processor 2 and, depending on the size of the incoming signal, the green or red LED turns on. In this case, the luminescence of the green LED indicates the acidity of the test medium to the corresponding norm, and the luminescence of the red LED corresponds to the increased acidity of the test person.

Claims (1)

A diagnostic device comprising a sensor and a processor, as well as control and indication units, wherein the output of the sensor is connected to the first input of the processor, a group of outputs connected to the group of inputs of the display unit, the sensor being made in the form of a pH recorder and connected to the first output of the unit by its electrical input control input connected to the input of the diagnostic device, and the second and third outputs connected respectively to the second input of the processor and to the first input of the display unit, a group of inputs ennogo with a group processor outputs.