RU2614361C1 - Method for cervix, vagina and vulva dystrophic diseases treatment by shockwave method and device for its implementation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: tissue with pathological changes is coated with fine particles of carbon dye. The coating is exposed to pulsed laser radiation. At the beginning of radiation, laser irradiation pulse power is set lower than the value expected for this threshold pathology. The repetition frequency of acoustic pulses generated by a surface thermal microexplosion and absorbing the laser emission of carbon dye particles is determined. It is compared to the laser pulses frequency. Laser pulses power is sequentially increased to a value at which the acoustic pulse frequency becomes equal to the repetition frequency of laser pulses. Irradiation is performed with this pulse power value. The device includes a laser operating in a pulse-periodic mode of laser radiation generation, a laser radiation operating parameters control unit, a laser radiation parameters measuring unit and an indication unit. It additionally contains an acoustic microphone, a selectable band-pass filter for a maximum range of 5-7 kHz, microphone signal amplifier and a two-input coincidence circuit, all connected in series. One of the coincidence circuit inputs is connected to the microphone signal amplifier output, the second icoincidence circuit input is connected to the laser pulses repetition driving frequency generator output, and output - to the laser radiation operating parameters control unit input and the indication unit.

EFFECT: increased efficiency of treatment and reduced probability of postoperative recurrence and scar development processes through implementation of objective selection and monitoring of the adequacy of defined laser radiation parameters, providing the process of shock wave destruction.

2 cl, dwg

Description

The group of inventions relates to medicine and is intended for shock wave destruction of biological tissues in the treatment of degenerative diseases of the cervix, vagina and vulva.

A known method of treating dystrophic diseases of the cervix, vagina and vulva by shock wave destruction [RF Patent No. 2508138]. In this method, for the implementation of shock-wave destruction of pathological biological tissue with minimal thermal damage, an absorbing dye based on fine carbon particles is applied to the surface of the biological tissue. The destructive effect on the surface structures of biological tissues (mucous membranes, skin) is achieved due to the elastic waves generated in the biological tissue during a surface thermal explosion absorbing laser radiation of carbon particles of the dye.

A laser device for treating dystrophic diseases of the cervix, vagina and vulva by the shock-wave method, including a laser operating in a pulsed-periodic mode for generating laser radiation, a system for controlling the operating parameters of laser radiation, a unit for measuring laser radiation parameters, is designed to control the operation of the laser and indication [RF Patent No. 2508138].

A disadvantage of the known method of destruction of biological tissues and the device that implements it is the lack of objective selection and control of the sufficiency of the set parameters of laser radiation, which provide the process of shock-wave destruction of a specific biological tissue and, as a result, insufficient treatment efficiency, a high probability of postoperative relapse and the development of scar processes.

The invention solves the problem of increasing the effectiveness of treatment and reducing the likelihood of postoperative relapses and the development of cicatricial processes by making an objective choice and monitoring the sufficiency of the set parameters of laser radiation, which ensures the process of shock-wave destruction.

The problem is solved in that in the method for treating dystrophic diseases of the cervix, vagina and vulva by the shock-wave method, including applying a coating of finely dispersed particles of carbon dye to a pathologically changed biological tissue and subsequent exposure to this coating with pulsed laser radiation, the pulse power of the laser is set at the beginning of irradiation radiation below the threshold level expected for a given pathology, determine the repetition rate of acoustic pulses generated at surface heat ovom microexplosion laser light absorbing particles of carbon dye, and compared with the frequency of the laser pulses and then incremented pulse power laser pulses to a value at which the frequency of the acoustic pulses becomes equal to the repetition rate of laser pulses, and is irradiated with pulsed power value.

The problem is solved in that the device for the treatment of dystrophic diseases of the cervix, vagina and vulva by the shock-wave method, including a laser operating in a pulsed-periodic mode of generating laser radiation, a control unit for operating parameters of laser radiation, a unit for measuring parameters of laser radiation and an indication unit, additionally contains an acoustic microphone connected in series, a band-pass selection filter with a maximum transmission in the range of 5-7 kHz, a microphone signal amplifier and two-input -hand coincidence circuit, one input of the coincidence circuit is connected to the amplifier output of the microphone signal, a second input of the coincidence circuit connected to the output of the generator driving frequency of repetition of the laser pulses, and the output - to the input of the control unit operating parameters of the laser radiation and the indication unit.

The invention is illustrated in FIG. one.

The following notation is used:

1 - laser;

2 - control unit operating parameters of laser radiation;

3 - generator sets the pulse repetition rate of laser radiation;

4 - unit for measuring parameters of laser radiation;

5 - display unit;

6 - biological tissue;

7 - acoustic microphone;

8 - bandpass selection filter;

9 - microphone signal amplifier;

10 is a two-input frequency comparison circuit;

11 - pedal.

A laser device for treating degenerative diseases of the cervix, vagina and vulva includes a laser 1, a control unit for operating parameters of laser radiation 2, a generator 3 for setting a pulse repetition rate of laser radiation, a unit 4 for measuring parameters of laser radiation, an indication unit 5, an acoustic microphone 7, selection bandpass filter 8, microphone signal amplifier 9, two-input frequency comparison circuit 10, pedal 11.

The proposed method for the treatment of dystrophic diseases of the cervix, vagina and vulva by the shock-wave method is as follows.

A pathologically modified biological tissue 6 is coated with a thin layer (0.2-0.3 mm) of a finely dispersed carbon dye. Then, on the control unit for operating parameters of laser radiation 2, pulse power is set from the range (1.0-1.5) ⋅10 ² W / cm ² , the laser pulse repetition rate is 5 Hz and, by pressing the floor pedal 11, laser radiation pulses are started . Irradiate the surface of the biological tissue on which the coating was applied. In the process of irradiation, an automatic increase in the pulsed power of the laser radiation occurs. At the moment of coincidence of the pulse repetition rate of the laser radiation with the repetition frequency of the acoustic pulses, the process of therapeutic effect on the pathological biological tissue begins. The procedure is carried out for 5-15 minutes under intravenous general anesthesia. In the process of irradiation, the carbon dye particles are destroyed, accompanied by the purification of biological tissue from them, which then, due to weaker intrinsic absorption of laser radiation, is not subjected to further destructive effects. This ensures the safety and dosed therapeutic effect of the effect and, as a result, reduces the likelihood of postoperative relapses and complications, as well as the development of cicatricial processes.

After treatment, remission of the disease is clinically confirmed.

The proposed device (Fig. 1) works as follows.

On the control unit operating parameters of the laser radiation 2 set the operating parameters of the radiation:

- the peak power of the laser radiation in the pulse is set taking into account the characteristics of the pathological zone of biological tissue 6 and the diameter of the laser beam on it so that the power density on the irradiated surface is in the range (1-1.5) 10 ² W / cm ² , which is slightly less necessary for normal operation;

- the duration of the laser pulse is set in the range (0.2-0.3) sec.

The pulse repetition rate generator 3 sets the pulse repetition rate of laser radiation from the range (1-5) Hz.

The operation of the laser emitter is controlled by the unit 4 for measuring the parameters of the laser radiation and displayed by the indicating unit 5. After depressing the pedal 11, the pulse power of the laser radiation is automatically stepwise increased in increments of 1 W / pulse until acoustic pulses appear that coincide with the pulse repetition rate of the laser radiation 1. Increase the pulse power of the laser radiation occurs only until the pulse frequency of the laser pulses coincides with the pulse repetition rate Lls acoustic signal.

Laser exposure leads to heating of the carbon dye particles, leading to their microexplosions, resulting in the generation of a pulsed acoustic signal synchronous with a laser pulse, which is captured by an acoustic microphone 7. As shown by the authors, the amplitude spectrum of the pulses of the acoustic signal has a maximum value at a frequency of 5 -7 kHz, therefore, to ensure effective selection of a useful signal against a background of noise, the acoustic microphone 7 is connected in series with a band select a radiation filter 8 having a transmission maximum in the indicated frequency range and a pulse signal amplifier of the microphone 9, the output of which is connected to one of the inputs of the two-input frequency comparison circuit 10. The second input of the matching circuit is connected to the output of the generator 3 of the laser pulse repetition frequency.

At laser radiation intensities below a certain level, microexplosions do not occur, shock-wave destruction of biological tissue is not realized, amplified pulse signals of microphone 7 are not received at the input of the frequency comparison circuit. To ensure high efficiency of the shock-wave destruction of biological tissue, it is necessary that the frequency of the acoustic signal coincides with the pulse repetition rate of the laser 1. When the input of the control unit 2 operating parameters of the laser radiation receives a signal from the output of the frequency comparison circuit that the repetition frequency of acoustic pulses lower than the laser pulse repetition rate, it causes a logical command to increase the peak power of the laser radiation. This increase continues until an acoustic signal appears and the frequency of its repetition is equalized with the pulse repetition rate of laser 1. When equalizing these frequencies, the increase in the peak power of the laser radiation stops, which is accompanied by a light (sound) signal from the display unit 5. A further increase in the radiation energy of laser 1 is impractical, since the effectiveness of treatment does not increase, but the risk of unwanted photo-damage to more deeply lying healthy tissues increases.

Due to the fact that the acoustic microphone 7 is connected in series with the bandpass selection filter 8 and the amplifier 9 of the pulse signals of the microphone, the effective selection of the useful signal against the background of noise and its amplification is carried out. This allows you to install an acoustic microphone at a distance of 50-80 cm from the surgical field, which in addition to increasing efficiency increases the ergonomics of the device.

Claims (2)

1. A method of treating dystrophic diseases of the cervix, vagina and vulva by the shock-wave method, comprising applying a coating of finely dispersed particles of carbon dye to a pathologically changed biological tissue and subsequent exposure of the coating to pulsed laser radiation, characterized in that the pulsed laser power is set at the beginning of irradiation radiation below the threshold level expected for a given pathology, determine the repetition rate of acoustic pulses generated at surface heat micro explosion of particles absorbing laser radiation of a carbon dye, and compare it with the frequency of the laser pulses, and then sequentially increase the pulse power of the laser pulses to a value at which the frequency of the acoustic pulses becomes equal to the frequency of the laser pulses, and irradiate at this value of the pulse power. 2. A device for the treatment of degenerative diseases of the cervix, vagina and vulva by the shock-wave method, including a laser operating in a pulsed-periodic mode for generating laser radiation, a control unit for operating parameters of the laser radiation, a unit for measuring parameters of the laser radiation and an indication unit, characterized in that the device further comprises an acoustic microphone connected in series, a band pass filter with a maximum transmission in the range of 5-7 kHz, a microphone signal amplifier the two-input coincidence circuit, one input of the coincidence circuit is connected to the amplifier output of the microphone signal, a second input of the coincidence circuit connected to the output of the generator driving frequency of repetition of the laser pulses, and the output - to the input of the control unit operating parameters of the laser radiation and the indication unit.

Images