RU2131275C1 - Electric stimulator for hollow organs - Google Patents

Abstract

FIELD: medicine, in particular, obstetrics, gynecology, stomatology. SUBSTANCE: electric stimulator is intended for diagnostics of state of health before and after treatment. It has current generator with current regulator, active and passive electrodes, mode-of-operation switch, and current amplifier. Current regulator is made as attenuator. Active electrode contains tube manufactured from optically transparent material. Electric stimulator also has temperature-sensitive element, shaped as transistor in metal case and positioned at tube end, and electric stimulation electrode connected to transistor case. Active electrode is connected to attenuator output and transistor electrodes are connected to current amplifier output through mode-of-operation switch. EFFECT: simplified construction, enhanced efficiency. 2 dwg

Description

 The invention relates to medicine, namely to a device that allows you to determine the temperature and stimulate organs and tissues in obstetrics and gynecology, dentistry, otorhinolaryngology, urology, is intended for the diagnosis of health before and after treatment, as well as for the prevention and treatment of inflammatory and other diseases .

 Known electrical stimulator "Stimulus-1" (see passport "Stimulus-1", the Central Bureau of scientific and technical information of the medical industry.), Containing a generator, a modulator, modulator and power amplifier.

 A disadvantage of the known electrical stimulator is the design complexity and large dimensions. In addition, this electrostimulator cannot be used to stimulate hollow organs without redesign.

 Known electrical analyzer "Mirabelle", Izhevsk, TU 92-0201005-88 ART OP-78-01-7041 0/803), containing a current generator, active and passive electrodes, which are fixed at points on the human body, depending on the focus of the patient syndrome.

 The known device, taken as a prototype, is used as a stimulant that acts by current through the skin. It cannot be used for electrical stimulation of the mucous membrane of hollow organs with increased sensitivity to the action of electric current. In addition, the known device does not allow to control the course of the electrical stimulation procedure.

 The essence of the claimed invention lies in the fact that the electric stimulator, including a current generator with a current regulator, active and passive electrodes, a mode switch and a current amplifier are introduced, the current regulator is made in the form of an attenuator, and the active electrode contains a tube of optically transparent material, the temperature sensor in the form a transistor in a metal case mounted on the end of the tube and an electrostimulation electrode connected to the transistor case, while an active elec genus with attenuator output and transistor electrodes with current amplifier output.

 The advantage of the proposed electric stimulator and electrothermometer is its great sensitivity to temperature, linearity of the temperature scale, the temperature sensor allows direct contact with the mucous membrane of the organ under study. In addition to the indicated advantage, it is possible to sterilize this design by any means: gas, chemical or cold (treatment with alcohol or other sterilizing compounds according to the procedure approved for this scheme). This is possible due to the tightness of the structure of the active electrode shown in FIG. 1, while the design is simple, convenient to operate.

 In the proposed electrostimulator, an active electrode connected to a metal body-temperature sensor is inserted into the cavity of the hollow organs, in particular into the uterus, which allows electrical stimulation and temperature measurement of the hollow organs to be simultaneously performed, thereby controlling the electrostimulation procedure. And depending on the temperature of the stimulated area, the modes of electrical stimulation are adjusted.

 In FIG. 1 is a sectional perspective view of the active electrode of an electric stimulator; FIG. 2 - electrical circuit of the electrical stimulator.

 The active electrode of the electric stimulator contains a housing 1 (Fig. 1), made in the form of a tube of optically transparent material, a temperature sensor in the form of a transistor 2 in a metal housing installed at the end of the tube, and connected to the housing of the transistor 3 (Fig. 2), electrode 4 electrical stimulation. The active electrode is connected to the mode switch 5. The emitter of the transistor 6 is connected to the first base of the transistor 7. The second base of the single-junction transistor 8 is connected to its housing 3. The emitter of the transistor 6 and the first base 7 are connected to the second wire of the switch 5. One of the outputs of the switch 5 is connected with an attenuator 9, which in turn is connected to the output of the electric stimulator 10, which is a current generator. The second electrode of the electric stimulator 10 is connected to the corresponding area of the human body, depending on the focus of the patient's syndrome. For example, in FIG. 2, the second electrode is connected to the sacral lumbar region of the patient. The other two outputs of the switch 5 are connected to the input of the current amplifier for the temperature sensor 11 (hereinafter - the current amplifier).

 The device operates as follows. The active electrode (Fig. 1) is inserted into the investigated hollow organ (for example, into the uterine cavity), the current source is turned on, and the green lamp of the device lights up. The switch mode 5 (Fig. 2) is translated, for example, into position "a" for electrical stimulation of a hollow organ, while the temperature of the stimulated organ is not measured. To measure temperature without electrical stimulation, the switch is set to position "b". To simultaneously measure temperature and electrical stimulation, switch 5 is set to position "c".

 During electrical stimulation, it is possible to use both unipolar and bipolar current signals of the electric stimulator 10. Current pulse frequency (1 ± 0.2) kHz, pulse duration (0.8 ± 0.3) ms, and the output voltage amplitude varies from 0 to 20 - 40 V.

 In this case, the amplitude of the output voltage of the electric stimulator depends on the resistance of the body tissue (the drier it is, the greater it is and vice versa). With a resistance of 100 kΩ, the voltage amplitude of the electric stimulator can be adjusted stepwise with an additional switch from 0 - 4V 4 - 8V and so on up to 36 - 40V, as well as smoothly with the knob on each selected range. An additional step switch and a smooth controller are mounted in the attenuator 9.

 In a humid environment, the first five ranges are sufficient for operation, as tissue resistance is small, and therefore a very small voltage amplitude is required here.

 The mode "a", "b" or "c" is selected by the switch 5. Having selected the number of the operating mode of the switch 5, set the knob of the desired amplitude of the output voltage. It is determined by the beginning of a slight tingling of the tissue site.

 Simultaneously with electrical stimulation in mode "c" of switch 5, the voltage from the temperature sensor representing the pn junction of transistor 3 is supplied through switch 5 to current amplifier 11.

 At the same time, it is possible to connect a recorder (if necessary) to the output of current amplifier 11, which allows recording the nature of the temperature change during the procedure on the tape of the writing device.

There are 3 modes of operation of the device:
- simultaneous temperature measurement and electrical stimulation,
- electrical stimulation without temperature measurement,
- only temperature measurement without electrical stimulation.

Claims (1)

 An electrical stimulator, including a current generator with a current regulator, an active and passive electrodes, characterized in that a mode switch and a current amplifier are introduced into it, the current regulator is made in the form of an attenuator, and the active electrode contains a tube of optically transparent material, the temperature sensor in the form of a transistor a metal case mounted at the end of the tube and an electrostimulation electrode connected to the transistor case, while an active electrode is connected to the output of the attenuator through a mode switch and Electrode output transistor current amplifier.

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