RU2406463C1 - Method of microwave destruction of keloid cicatrix - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, and can be applied for local destruction of a keloid cicatrix. The keloid cicatrix is exposed to microwave destruction at power flow density 1 Wt/cm² to 25 Wt/cm² for 5-120 seconds.

EFFECT: method provides reduced treatment length.

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Description

The invention relates to medicine, namely to hyperthermia of keloid scars.

The study of reparative tissue regeneration remains one of the urgent problems of biology and medicine. Rough scarring with the formation of hypertrophic and keloid scars is a serious surgical problem, especially when the scars are located in open areas of the body - on the neck, face, chest.

Various methods of treating keloid scars are known, for example, surgical and physiotherapeutic ones.

A known method of treating hypertrophic and keloid scars, comprising injecting a prolonged corticosteroid selected from the betamethasone group and a local anesthetic into the keloid scar tissue (Pat. RF No. 2200557). However, this method of treatment does not allow to obtain significant softening of the scar, reducing its area, reducing traction of the tissues surrounding the scar; in addition, skin atrophy often occurs.

A known method of treating keloid scars of the skin, which consists in daily performing phonophoresis on the scar area using an oil solution of an extract of polar lipids of silt sulfide mud (US Pat. RF No. 2234963), the effect of which is mainly to remove subjective sensations and improve the texture of the tissue.

A known method of treatment of keloid skin scars, including laser exposure to the surface of the scar (US Pat. RF 2260462). However, there are a number of disadvantages: the method does not allow to obtain good results in the treatment of extensive keloid scars, has a long rehabilitation period, and does not allow relapses to be avoided.

A promising direction in this area is the use of physical factors - low temperature, namely cryodestruction and microwave cryodestruction.

Known combination treatment of keloid scars with cryodestruction and CO ₂ laser photocoagulation (US Pat. RF 2350364), which allows to obtain a satisfactory cosmetic result, but the method does not reduce the frequency of relapses.

The closest way to the claimed one is the method of local destruction, namely cryodestruction of keloid scars, which consists in multiple applications with a passively chilled instrument (Potapov I.I. et al. Cryosurgery in Otorhinolaryngology, M., 1975, pp. 137-150). The disadvantage of this method is the duration of the procedure and, in the case of large scars, the need for a second course of treatment.

When using the method of combined microwave cryogenic treatment of keloid scars, it is possible to freeze a larger volume of tissue. So, with microwave cryogenic exposure, the volume of freezing increases 50-60 times more than with pure cryogenic exposure.

After treatment with cryogenic and microwave-cryogenic methods, it is possible to eliminate the keloid scar and to achieve the absence of relapse. However, these methods have some disadvantages. Firstly, cryogenic destruction allows only small keloid scars to be destroyed. Secondly, there are technical difficulties. So, cryogenic equipment, manufactured industrially, does not allow to reach the temperature of destruction (-160 ° C). This is possible only with the use of experimental clinical samples of devices of the MAK-1 type (construction of the Russian State Medical University), and their use is limited to only a few clinics. In addition, for carrying out cryodestruction, Dewar vessels for storing liquid nitrogen and liquid nitrogen itself are necessary, with the supply of which difficulties may arise. In addition, for carrying out microwave cryodestruction, an apparatus for generating microwave radiation is also needed. Thirdly, cryodestruction and microwave cryodestruction do not allow accurate calculation of the volume of tissue undergoing destruction, therefore, to cure patients with keloids, it is very often necessary to repeat the treatment session. With these types of exposure, the accuracy of keloid damage is insufficient, so you have to repeat the effect on the scar. It is impossible to achieve 100% effectiveness.

For this reason, it was necessary to turn to other physical methods for the destruction of keloid scar tissue. The method of microwave destruction proposed by the authors turned out to be the most effective and affordable for outpatient treatment.

Electromagnetic (EM) vibrations of the microwave (microwave) frequency range are preferable in comparison with other physical methods of creating an elevated temperature in a certain volume of the body because electromagnetic energy is absorbed not only in surface tissues, but also in deeply located biological tissues. In this regard, an increase in temperature at the depth of tissues occurs not only due to heat transfer from the surface inward due to thermal conductivity, but also due to the conversion of the energy of EM waves into heat directly at each point of the irradiated volume. This allows you to remove the problem of thermal overload (burns) of the skin by cooling it, and at the same time ensure the creation of a hyperthermic regime in tumor tissues at a level of 42-44 ° C.

The present invention is the creation of an affordable method of treatment, improving the quality and accelerating the treatment of patients with keloid scars.

The problem is solved by using the method of treatment of keloid scars by the method of local destruction. Moreover, the destruction of the keloid scar is carried out using microwave destruction at a power flux density (PPM) of 1 W / cm ² to 25 W / cm ² for 15 to 120 seconds.

For the treatment of skin diseases by the method of hyperthermia, special hyperthermic units are used, including domestic ones - “Yacht-3” and its modifications and portable options. They differ from each other in operating frequency, generator output power and emitter design.

Local microwave destruction is devoid of the disadvantages inherent in cryogenic and microwave cryogenic destruction. So, the treatment is carried out on an outpatient basis and, given the possibility of using portable devices, it can be carried out even with the doctor visiting the patient. For the implementation of microwave destruction, only one apparatus is needed that is powered by an electric network. The specified equipment is manufactured by industry. The authors found that when using local microwave destruction in one treatment session, almost complete destruction of the keloid scar tissue in its entire volume is achieved, and the destruction volume can be calculated knowing the power flux density and the diameter of the emitter. When studying biopsies, it was experimentally established that this technique leads to coagulation necrosis of keloid scar tissue, destruction of the blood vessels of the microvasculature with the formation of extensive hemorrhages. In the future, the focus of necrosis is subjected to resorption and organization, due to which scar tissue is formed, corresponding in structure to an atrophic or normotrophic scar. Relapses are absent.

To confirm the effectiveness of the proposed method, we studied experimental material obtained from nonlinear white rats, which studied the nature of damage and regeneration of skin tissue after cryodestruction, microwave cryodestruction, and microwave destruction. Modes of exposure are presented in the table. Used 5 groups of rats of 10 animals each. The impact was carried out on the skin of the lateral thigh on the right and left after cutting the hairline. Cryodestruction was carried out in the first group, microwave cryodestruction in the 2nd, and microwave destruction in the 3rd. In the 4th group, a burn was carried out as a generally accepted control for thermal effects. The fifth group included intact rats. Animals were removed from the experiment 24 hours, 7 days, 14 days, 30 and 60 days after exposure.

Impact Equipment Mode Cryodestruction Device of the jellied type MAK-1 Applicator temperature - 160 ° С Microwave cryodestruction The device The yacht for local hyperthermia The device of the jellied MAK-1 type Stage 1: Contact irradiation with a microwave field, emitter diameter 25 mm, power flux density (PPM) 1-1.2 W / cm ² , exp. 1 min.
Stage 2: Cryodestruction: temperature of the applicator -160 ° C, diameter of the applicator 8 mm, exposure 1 min. Application Microwave Destruction Yacht for local hyperthermia Contact action by the microwave field. The diameter of the emitter 25 mm, PPM 1-5 W / cm ² , exp. 15 sec

It should be emphasized that in the experimental group “Microwave Destruction” the exposure modes were slightly different than in the clinic: for example, the PMD did not exceed 5 W / cm ² and the exposure time was 15 seconds. These limitations are related to the size of the rat and the thickness of its skin.

As a result of the experiment, it was proved that the healing process after microwave destruction is almost identical to that after cryodestruction and microwave cryodestruction - a soft scar or tissue that looks similar to the surrounding skin forms at the site of exposure. When using local microwave destruction, a complete disappearance of the keloid is achieved in almost a single exposure. The inventive method is illustrated by clinical examples.

Example 1. A girl of 14 years old, keloids of the earlobes, the duration of existence of about 3 years. Keloids arose after piercing earlobes to wear earrings. The previous treatment was not successful, relapse of keloids occurred. The size of keloids is 1.5 × 1.5 × 1 cm on the left and 1.5 × 1 × 1 cm on the right. Performed microwave destruction of keloids in the mode of 1 W / cm ² , 5 sec sections. Elimination of keloids was achieved, followed by healing of the post-destructive surface with a normotrophic scar 3 months after exposure.

Example 2. A girl of 16 years old, on the right in the chest area is a spontaneous keloid measuring 3 × 3 × 3 cm. The duration of the keloid is 4 years. The previous treatment was not successful, relapses occurred. Performed microwave destruction of the keloid in the mode of 10 W / cm ² for 60 seconds. A complete disappearance of the keloid was noted after 4 months with the formation of an atrophic scar in its place.

Example 3. A boy of 13 years. A keloid scar appeared after a burn in the region of the left shoulder girdle and shoulder in the upper third of 5 × 10 cm ² . The previous treatment was not successful. The duration of the keloid is 3.5 years. Performed microwave destruction of the keloid in the mode of 25 W / cm ² within 120 seconds. Within 6 months, complete replacement of the keloid with normotrophic scar was noted.

Claims (1)

A method for the treatment of keloid scars by local destruction, characterized in that the destruction of the keloid scar is carried out by microwave destruction at a power flux density of 1 W / cm ² to 25 W / cm ² for 5-120 s.