RU2676038C1 - Device for hydrotherapy - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medical equipment, namely, devices for physiotherapeutic effects of liquid and medicinal solutions in the treatment of dental, otorhinolaryngological or gynecological diseases. Device for hydrotherapy includes a manipulator with a replaceable nozzle, a container for the working solution, a valve, a pump-compressor with a power circuit that allows adjusting its performance, a heater for the working solution and a thermal sensor controlling its temperature. Tee is connected between the pump and the manipulator, and the valve is electrically controlled and connected to one of the tee outlets connected to the manipulator. Pressure regulator connected to the circuit is connected to the second output of the tee, the regulator output is connected to the reservoir via a spout. Electrically controlled valve is connected to a voltage pulse generator with the ability to adjust the pulse repetition rate. Heater of the working solution is made in the form of a flexible plate and is fixed on the outer surface of the bottom of the container. Temperature sensor is located inside the tank and is combined with the sensor level of the working solution, the outputs of which are electrically connected, respectively, to the power supply and indication circuit of the heater and pump-compressor according to the feedback principle.EFFECT: invention allows the mechanical removal of the bulk of pathogenic bacteria from the mucous membranes and improve regional blood circulation in the pool of treated tissues, increase local immunity and provide anti-inflammatory action.1 cl, 1 dwg

Description

The invention relates to medical equipment, namely to devices for physiotherapeutic effects of liquid and medicinal solutions in the treatment of dental, ENT or gynecological diseases. In accordance with these areas of medicine, cavities requiring sanitizing jet exposure may include mucous membranes of the oral cavity for periodontal diseases, lacunae of the tonsils with chronic tonsillitis, and the uterine cavity for endometritis.

Hydrotherapy and its variety - hydromassage allows not only mechanically removing the bulk of pathogenic bacteria from the mucous membranes, but also improving regional blood circulation in the pool of treated tissues, increasing local immunity and providing anti-inflammatory effect.

Obviously, hydrotherapy is the most effective, which provides a pulsating effect with a variable pulsation frequency at the necessary and safe jet pressure. The possibility of changing the frequency of pulsations during hydrotherapy allows you to avoid tissue adaptation to repeated effects during the course of treatment and to optimize the effect, for example, due to the "resonant" effect. This occurs when the frequency of external influences is close to the natural frequencies of tissue oscillation. The most significant of them are the frequency of oscillations of the cardiovascular system (including the capillary bed of the mucous membranes (1-1.5 Hz) and the frequency of the alpha rhythm of the brain electroencephalogram (8-12 Hz). [Physical and rehabilitation medicine: national manual / ed. G.N. Ponomarenko. M.: GOETAR-Media. 2016. 668 p.].

A device known irrigator WaterpiK WP-100 Ultra [http://www.finehealth.ru/waterpiK-WP-Ultra-100-universal-irrigator-polosti-rta/]. It is intended for irrigation of the oral cavity and contains a container for the working fluid, a pulsating pump and a manipulator with interchangeable nozzles.

The disadvantages of this device are: the inability to provide heating and maintaining the temperature of the working solution, the inability to change the pulsation frequency of the jet, which is set at a constant 1200 pulsations per min (20 Hz). This reduces the effectiveness of the therapeutic effect and limits the application to the level of plaque removal when brushing your teeth.

A device is also known - a hydromassage dental apparatus [RF Patent No. 2174385; A61H 13/00]. The device is a nozzle for treating the oral cavity, connected to the storage chamber of the working solution having a valve in the form of a free moving stainless steel ball. The ball under the influence of its own weight periodically blocks the entrance of the solution to the chamber. This creates a pulsation regime of the spray jet.

The disadvantage of this device is the inability to control the pulsation mode and the inability to increase pressure above the weight of the ball placed in the liquid. In addition, the device does not provide heating and maintaining the required temperature of the solution. All this reduces the effectiveness of treatment.

Closest to the proposed device for hydromassage of the gums [RF Patent No. 2387442; A61H 13/00]. The device comprises a mouthpiece nozzle, which is screwed onto a handle connected through a mechanism for switching the flow of the solution to the treatment solution supply system, including a pulse compressor, a heat pump made in the form of a semiconductor thermoelectric module. Both junctions of this module are equipped with temperature sensors and are connected to the control and adjustment unit.

The disadvantage of this device is the design complexity, limited use in medicine (the inability to handle hard-to-reach cavities, such as tonsil lacunae or the uterus), as well as the lack of the ability to independently adjust the frequency and pressure of the solution in the coverage area. Typically, the volume of the supplied solution through the compressor increases with increasing frequency. This means that it is impossible to achieve a low-frequency pulsation of the solution with sufficient pressure, and does not allow for a "resonant" effect and reduces the therapeutic effect. In addition, the solution heaters built into the instrument design do not allow for a stable temperature, which depends on the flow rate of the solution.

The problem to which the invention is directed is to increase the effectiveness of hydrotherapy, expanding the fields of application in medicine and simplifying the design.

The technical result consists in optimizing the hydrotherapy process due to independent adjustment over a wide range of the frequency and strength of the pulsating effect on the mucous membranes of various organs.

To solve this problem, a device for hydrotherapy, including a manipulator with a replaceable nozzle, a container for a working solution, a valve, a compressor pump with a power circuit that allows you to adjust its performance, a working solution heater and a temperature sensor that controls its temperature, is additionally switched on between the pump and the manipulator tee, and the valve is electrically controlled and connected to one of the outputs of the tee connected to the manipulator, while the regulator is connected to the second output of the tee pressure controlled by the circuit, the regulator output is connected to the tank through the spout, and the electrically controlled valve is connected to a voltage pulse generator with the ability to adjust the pulse repetition rate, the working solution heater is made in the form of a flexible plate and is mounted on the outer surface of the tank bottom, and the temperature sensor is located inside capacitance and combined with the level sensor of the working solution, the outputs of which are electrically connected respectively with the power supply, indication and control of the heater and pump and the compressor according to the feedback principle.

Introduction to the design of the tee, to one of the outputs of which an electrically controlled valve is connected, and to the other output, a pressure regulator, which is controlled by the circuit and allows to ensure independence between the frequency of pulsations of the solution and its volume of supply to the channel of the manipulator with a nozzle, which allows creating the necessary pressure solution.

The outlet of the tee, which is connected to the pressure regulator, is connected to the capacity of the working solution through the spout pipe so that the unused working solution is not wasted in vain, but gets back into the tank.

Introduction to the design of the pulse generator voltage control valve with the ability to adjust the pulse repetition rate allows you to control the frequency of opening and closing of the valve in accordance with the frequency of supply of pulses to it from the generator. This allows you to clearly dose the frequency of pulsations of the jet of the working solution, ensuring the optimal assimilation by the tissues of this physical effect and preventing their adaptation during the course of treatment.

The implementation of the heater working solution in the form of a flexible plate mounted on the outer surface of the bottom of the tank allows you to evenly heat the solution to a predetermined temperature, regardless of the speed of its supply to the manipulator and nozzle.

Introduction to the design of a temperature sensor located inside the tank and combined with a solution level sensor allows you to control the temperature and level of the solution in the tank, and their connection with the power supply, indication and control circuit protects the solution from overheating, underheating and lowering levels below the critical level.

In FIG. 1 shows a block diagram of a hydrotherapy device.

The device contains a container with a working solution 1, a flat heater 2, mounted on the bottom of the tank from the outside through heat-conducting glue and electrically connected to the power supply, indication and control unit 3. The same unit is electrically connected to the sensors 4 for temperature and level of the working solution. The output channel 5 from the tank 1 delivers the solution to the pump-compressor 6 controlled by the circuit 7. The output of the pump 6 is connected to the input of the tee 8 having two outputs. An electrically controlled valve 9, which is controlled by a voltage pulse generator 10, is connected to one of the outputs associated with the manipulator 13. Another output of the tee 8 is connected to a pressure regulator 11, which is controlled by a circuit 12 and regulates the volume of the solution entering the manipulator 13 and thereby controls the pressure of the jet . Unused solution through the spout 14 returns to the tank 1.

Capacity 1 is made of stainless steel with a thickness of 0.8-1.0 mm and has a volume of 1.5-2.5 liters. Connecting nozzles are made of polyvinyl chloride (or silicone) tube with a diameter of 5 mm. Pump 6 is a small-sized diaphragm pump type 0142-YB-12-60 with a maximum outlet pressure of 0.8 MPa. Solenoid valve 9 of type YCWS 103GL is closed in its original position and opens upon receipt of a voltage pulse from generator 10 with an amplitude of 24 V. The pressure regulator 11 operates on the principle of redistribution of flow in order to regulate the performance in the main channel. The manipulator 13 is made in the form of a cylindrical handle with a fitting on one end and a threaded joint on the other to screw on the working nozzle 15. Depending on the application, the tubular nozzle 15 may be straight or curved. The diameter of the nozzle for washing tonsil lacunae is 1.5 mm, for processing the mucous membrane of the gums - 2.0-2.5 mm, the uterus - 3.0-3.5 mm. Nozzle material - stainless steel type 12X18H10T. The heater 2 is made in the form of a flexible plate of heat-conducting rubber with loops of nichrome wire laid in it with a diameter of 0.8 mm.

The device operates as follows.

After pouring the working solution into the tank 1, turning on the heater 2, the solution reaches a minimum temperature of 37 ° C with the possibility of increasing to 39-40 ° C, which is controlled by the sensor 4 simultaneously with the solution level in the tank 1. The signals from the sensors go to circuit 3, which analyzes and gives permission to circuit 7 to turn on pump 6. After the LEDs indicating the achievement of the required temperature and solution level go out, turn on the pulse generator 10 and pick up the manipulator 13 with the desired nozzle 15. Direct the end of the nozzle dk in capacity 1 and press a foot pedal (not shown), starting the pump 6 in work. Observing the jet feed rate and pulsation frequency, visually select the necessary mode and release the start pedal. Prepare the patient and direct the output of the nozzle 15 to the treatment area. When treating the oral cavity, the patient, sitting above the sink, can independently move the nozzle along the surface of the gums and control the start pedal. In the case of processing lacunae of the tonsils or uterine cavity, the procedure is performed by a doctor. With a course of treatment, the frequency of pulsations must be changed in order to avoid adaptation of tissues to the effects. The jet pressure can also be gradually increased from one procedure to another. At the end of the procedure, the pedal is released, the flow of solution is stopped and the nozzle is removed from the manipulator for subsequent sterilization. The device goes into standby mode or turns off.

The claimed device has been tested in the treatment of dental diseases (periodontitis, periodontal disease, fractures of the lower jaw at the stage of splinting of teeth) and ENT diseases (chronic tonsillitis).

In the treatment of dental diseases (48 patients, including periodontitis - 22, periodontal disease - 5, fractures of the lower jaw with fixation of the jaw using wire splints - 21 patients), the gums were treated with infusion of medicinal herbs (St. John's wort, calendula, chamomile, eucalyptus) at a jet pressure 2.5-4.5 atm and pulsation frequencies in the range of 1-12 Hz for 10 days, according to the first procedure per day with an exposure of 10-15 minutes. The frequency and pressure of the stream gradually increased from the beginning to the end of the course. The temperature of the solution averaged 39-40 ° C.

Each group of patients with a specific pathology had a corresponding control group, where the usual rinsing was carried out with the same infusion of herbs for the same period of time.

To objectify the assessment of treatment results, we studied the papillary-marginal index (PMI) and the gum bleeding index (IR).

An analysis of the comparison with patients in the control group showed that in patients receiving hydrotherapy with the claimed device, the IR normalized by the sixth day in 36 patients (75%), while in patients in the control group this result was achieved by the 8th day in 58% of patients. In the main group, lower values of PMA (0.18 ± 0.02) corresponded to the results of clinical observation. By the 5-6th day of treatment, the mucosa of the alveolar process became pale pink, more dense, stagnation disappeared. In the control group, the mucosa at the same time was more loose, red-pink, and the PMA index was 0.27 ± 0.05.

In the treatment of chronic tonsillitis (32 patients), two groups were also formed: the main - 28 patients and the control - 24 people with a diagnosis of chronic tonsillitis in the acute stage. The patients of the control group were washed the tonsils lacunae with the traditional method using a Janet syringe with a solution of antiseptics, followed by lubrication of the tonsils with chlorophyllipt solutions (chlorhexidine, microcide, dioxidine, etc.). Patients of the main group of tonsil lacunae were washed with the claimed device using a nozzle with a diameter of 1.5 mm and a bend angle of 30 ° for frontal gaps, and a bend angle of 90 mm for lateral gaps. The pulsation frequency is 1-10 Hz at a pressure of 1-2 atm. The clinical effectiveness of the treatment was evaluated during the course and under control after 1 and 3 months. The effect was defined as a significant improvement in the disappearance of pain and discomfort in the pharynx, normalization of the color of the palatine tonsils and arches, persistent cleansing of gaps, a decrease in the size of tonsils and regional lymph nodes, disappearance of subfebrile condition and improvement of blood counts. The course of treatment is 8-10 daily procedures.

The best results were achieved in the main group. By the end of the course of treatment, the number of patients with significant improvement in this group was 15 people (53.5%), while in the control group - 7 people (29.1%).

The use of the claimed device increases the effectiveness of treatment, expands the field and the convenience of its use in medicine.

Claims (1)

A hydrotherapy device including a manipulator with a replaceable nozzle, a container for working solution, a valve, a compressor pump with a power circuit that allows you to adjust its performance, a working solution heater and a temperature sensor that controls its temperature, characterized in that a tee is connected between the pump and the manipulator, and the valve is electrically controlled and connected to one of the tee outputs connected to the manipulator, while a pressure regulator controlled by circuits is connected to the second output of the tee d, the regulator output is connected to the tank through the spout pipe, and the electrically controlled valve is connected to the voltage pulse generator with the ability to adjust the pulse repetition rate, the working solution heater is made in the form of a flexible plate and is fixed to the outer surface of the tank bottom, and the temperature sensor is located inside the tank and combined with a level sensor of the working solution, the outputs of which are electrically connected, respectively, with the power supply and indication of the heater and pump-compressor according to the feedback principle and.

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