RU2138213C1 - Device for coagulation and stimulation of healing of wound defects of biological tissues - Google Patents

Abstract

FIELD: medicine, particularly, medical instruments designed for arresting of bleeding, attainment of coagulation effect, hemostasis, performance of sterilization, sealing and stimulation of healing of wound surfaces. SUBSTANCE: device consists of source of power supply in form of generator of high-frequency alternating voltage with control and indication unit, gas dynamic unit for setting of parameters of flow rate and pressure of gas, and working part in form of plasma generator. The latter has high-frequency unipolar resonance generator of high- voltage pulses, needle-type electrode with coaxially installed gas supply pipe, and chamber of efflux of cold plasma jet. Device generates pulse multipoint cold plasma jet to attain healing effect on wound surfaces of biological tissues. Device allows attainment of efficient results due to coagulation effect and exclusion of dependence of healing effect on relief and configuration of biological tissues. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to medicine, in particular to medical devices intended for surgical interventions with the aim of stopping bleeding, achieving a coagulation effect, providing hemostasis, sterilization, sealing and stimulating the healing process of wound surfaces.

 Known medical instruments and devices for coagulation of bleeding tissues and blood vessels: patents of the Russian Federation NN 2008829, 2034518, 2040216, 2071735, 2080825 class MKI A 61 B 17/36, B 17/39; US patent NN 4781175, 4901719, 4901720, 5167659, 5167660 class N 606 / 37-40, 219 / 121.54-57, in which the mechanical effect on the tissue is replaced or supplemented by electromagnetic exposure. These analogues are constructed according to the scheme of excitation of an electric arc discharge in air and (or) inert gas in a medium (stream) and its subsequent effect on the surface of biological tissues with the aim of performing surgical interventions and achieving a therapeutic effect. All devices contain a power source and a working part, which is a two-electrode system, which is supplied with supplied voltage from a power source.

 All of these analogues have certain disadvantages, such as: thermal trauma to the operating surface and surrounding tissues, the danger of electric shock by high voltage as a result of electrical contact with the patient during the process of excitation and maintenance of the electric arc discharge. From a technical point of view, the main disadvantages of these devices are the instability and unevenness of the electrodynamic process of exposure, lack of effectiveness and control of the results of surgical interventions.

Closest to the proposed device is an electrosurgical device with a gas supply system to increase the coagulation effect, US patent N 4901719 class N 606/40, which is selected as a prototype. The principle of operation of the installation is based on the use of plasma energy in surgical interventions generated during the excitation of electric discharges in an inert gas stream. The unit is designed to perform various surgical interventions, in particular:
non-contact coagulation;
-stop bleeding;
-sealing and sterilization of wound surfaces;
-radiation of purulent-septic wounds, etc.

 The installation contains a power source, which is a high-frequency alternating voltage generator with an adjustable frequency, a high-frequency converter, a gas-dynamic unit, and a plasma torch connected to it. A high-frequency converter converts the supply voltage from the power source and forms an electric arc discharge between the active electrode of the plasma torch and the passive electrode applied directly to the target. The gas-dynamic unit consists of an inert gas source with a system for supplying it under pressure to the plasmatron through a gas supply tube, which is located coaxially to the needle (active) electrode of the plasma torch. The plasma torch is the working part of the device designed to fulfill its functional purpose, and consists of a needle electrode mounted in a holder with a gas outlet channel with a nozzle for the outflow of a gas (plasma) jet.

 The main disadvantages of this device include the instability and unevenness of the process of formation of a plasma jet, which is caused by a two-electrode working circuit with active and passive electrodes. The nature of the process does not allow achieving the most efficient conversion of the energy of the generated discharges into ionization of the gas, which is the energy characteristic of the plasma. Most of the energy is released in the form of thermal and, in part, purely electrical components. This nature of the working process is explained by the fact that at each wave front of the alternating supply voltage supplied to the needle electrode, an electric arc discharge is excited, comparable in duration to the wave front, which qualitatively worsens the process of gas ionization due to a significant non-uniformity in the distribution of the discharge energy in the region and direction gas outflow. As a result, additional structural solutions are required to cool structural elements, reduce heat generation in the impact zone, as well as ensure electrical safety. From a medical point of view, all of the above leads to a decrease in the effectiveness and reliability of therapeutic surgical interventions, an increase in the trauma of biological tissues and surface necrosis due to capture by the influence of nearby healthy areas under the passive electrode, failure to provide or incomplete anesthetic effect and increase pain. Also, the guaranteed coagulation effect and capillary hemostasis in the subsurface layers are not ensured, which necessitates additional processing of the same area, or a constant change in operating modes and variation of their parameters. It should be noted the difficulties of performing surgical interventions on organs and tissues of complex relief and configuration, when the interelectrode spatial characteristics of the physical environment change, which will certainly affect the nature and results of exposure, while reducing the effectiveness of sterilization, sealing and stimulation of wound healing.

The aim of the invention is to eliminate these drawbacks of analogues and prototype, improving and improving the process of surgical intervention, solving the problem of creating an effective and technically simple device and stimulating the healing of wound surfaces of biological tissues, namely:
- improving the reliability of surgical interventions as a result of eliminating the instability and uneven formation of a plasma jet;
- increasing the impact efficiency during surgical interventions as a result of applying a fundamentally different process - a pulse-periodic multi-spark (in batches of electric discharge pulses) cold plasma torch, in which the discharge energy is converted to a large extent into gas ionization, and, as a result, the necessary coagulation effect is achieved and an effective hemostasis on the surface and to the depth, effective sterilization, sealing and stimulation of wound healing;
- simplification of the design of the product and the exclusion of the possibility of thermal and electrical damage to the target;
- elimination of the dependence of the effectiveness of the therapeutic effect on the relief and configuration of biological tissues, their composition and condition.

 This is achieved (the invention) in that the device comprises a power source, which is a high-frequency alternating voltage generator with an adjustable frequency, a high-frequency converter connected to it, a plasma torch connected to it in the form of a needle electrode mounted in a holder with a gas outlet channel (nozzle), and gas-dynamic block, the gas supply tube of which is installed coaxially with the needle electrode. In this case, the high-frequency converter is made in the form of a high-frequency unipolar resonant generator of high-voltage pulses placed in one housing with a plasma torch in the form of a design arranged coaxially and sequentially of the high-voltage and low-voltage windings on the magnetic core, one of the terminals of the high-voltage winding connected to a needle electrode, and the other to the output low-voltage winding, both terminals of the low-voltage winding are connected to a high-frequency alternating voltage generator.

 The drawing shows the proposed device. The device contains a power source 1, which is a high-frequency alternating voltage generator, a gas-dynamic unit 2 for supplying gas and setting parameters for its flow and pressure through the control unit 3, the working part is a plasma torch 4 with a needle electrode 5 and a gas-outlet channel (nozzle) 6, located in one housing with a high-frequency converter 7 (a unipolar high-frequency resonant generator of high-voltage pulses) and a gas supply tube 8. The high-frequency converter is designed as located on the hard (ferromagnetic) core 9 high 10 and low-voltage windings 11, wherein the low voltage winding length is much shorter than the high voltage (t. e. the number of turns of the low voltage winding is much smaller than the number of turns of high-voltage winding). One terminal 12 of the high-voltage winding is connected to a needle electrode, the other terminal 13 is connected to one of the terminals 14 and 15 of the low-voltage winding, which are connected to a high-frequency alternating voltage generator.

 The operation of the device is as follows.

 In the gas-dynamic unit 2, the control unit 3 sets the parameters of gas flow and pressure. The power source 1 generates a supplied voltage from an AC network or other external source into a high-frequency (radio frequency range) alternating voltage of predetermined parameters, which is supplied to the low-voltage (primary) winding 11 of a unipolar resonant generator of high-voltage pulses, which is essentially a resonant transformer, consisting of two oscillatory circuits tuned to resonance and loosely coupled magnetically. According to the well-known scheme of connected radio circuits in the high-voltage (secondary) winding 10, a high alternating high-frequency voltage is induced, which is formed on the needle electrode 5 into high-voltage high-frequency pulses. At the same time, the frequency of the alternating voltage from the generator 1 is also regulated to adjust the resonance frequency of the high-frequency converter 7 during the excitation of high-voltage pulses with the formation of a parametric resonant circuit, which allows to achieve maximum amplification and discharge voltage (the ratio between the low-voltage voltage after generator 1 and the discharge voltage electrode 5 reaches several orders of magnitude). High-voltage high-frequency pulses in the active electrode - virtual electrode circuit (environment or object of influence) generate at the tip of needle electrode 5 in the gas stream a pack of electrospark discharges (nanosecond duration) of the same sign, which during the ionization of a jet of inert gas passing from the gas-dynamic unit 2 through a gas supply tube 8 and a gas outlet channel 6, a pulsed multi-spark cold-plasma torch is formed in the plasma torch 4, which is characterized by stability, uniformity and the effect of a “cold” plasma (since in the absence of leaks in the resonant circuit, plasma is generated without transferring thermal energy to the gas stream, and all the discharge energy, due to their multi-spark nature, is evenly distributed over the cross section of the gas stream). The characteristics of the cold plasma torch formed in the plasmatron 4 are determined by the selected parameters of the operating mode (output voltage of the power source, voltage fluctuation frequency, characteristics of the gas flow mode), the size of the nozzle 6, as well as the design of the high-frequency converter 8 (the number of turns of the low-voltage and high-voltage windings, their ratio and the length of the ferromagnetic core).

 As a gas-dynamic unit 2, well-known standardized means of a power source 1 (high-frequency alternating voltage generator) are used — amplifiers with an output voltage of tens to hundreds of volts or transistor inverters.

Claims (1)

 A device for coagulation and stimulation of healing of wound defects of biological tissues, containing a high-frequency alternating voltage generator with an adjustable frequency, a high-frequency voltage converter connected to it, a plasma torch including a needle electrode installed in the holder, and a gas dynamic unit, the gas supply tube of which is installed coaxially with the needle electrode moreover, one terminal of the high-frequency converter is connected to a needle electrode of a plasma torch, characterized in that that the high-frequency converter is made in the form of a high-frequency unipolar resonant generator of high-voltage pulses, which is located in one housing with a plasma torch and includes an input low-voltage and output high-voltage winding located on a hard ferromagnetic core, while the second terminal of the high-voltage winding is connected to one of the terminals of the low-voltage winding .