RU2389516C2 - Method of radio-frequency two-step restoration of atrophic face skin and body - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine and can be applied for rejuvenation of atrophic face skin and body with using high frequency currents. The two-step exposure of skin to radio-frequency current is applied. An individual minimal erythermal dose (MED) test is performed. At the first stage derma is warmed up at working energy release density corresponding to 1.1 MED. At the second stage, medicinal preparations are deposited onto the skin with the parametres of radio-frequency current not causing thermal erythema.

EFFECT: method allows for adequate dose specified, higher safety of the procedure, stimulated neocollagenesis.

10 cl, 1 ex, 2 tbl, 6 dwg

Description

The present invention relates to the field of aesthetic medicine, in particular to a method for radio-frequency two-stage remodeling of atrophic skin of the face and body.

Currently, in aesthetic medicine to rejuvenate aging skin using a high-frequency current of the radio frequency range (US 7189230 B2, A61B 18/18, 05/13/2007 [1]). In the method [1], taken as an analogue, for rejuvenating human skin, a high-frequency current is supplied through a monopolar (active) electrode applied directly to the skin in the zone of involutionally altered tissues. To create a closed current flow circuit, a second (passive) electrode is applied to the patient’s body outside the treatment area. Using this method stimulates the production of collagen in the dermis and connective tissue fibers of the hypodermis by heating the deep layers of the skin.

The disadvantages of this method

1. The complexity of controlling the depth of the heating zone of biological tissue.

2. The heterogeneity of the electric field in biological tissues in the area of the applied active electrode.

3. The flow of high-frequency current from the active electrode to the passive through the entire patient’s body.

The heterogeneity of the electric field creates the conditions for uncontrolled thermal damage to biological tissues and the formation of a necrosis zone, which can lead to deep burns with the formation of blisters and scars.

The warming of the deep layers of the skin with the capture of the hypodermis creates conditions for damage to the reticular dermis, which leads to the formation of coarse collagen fibers with the risk of developing hypertrophic and keloid scars. The presence of the above disadvantages does not allow to obtain a guaranteed cosmetic effect and causes a high risk of post-manipulation complications in the form of tissue fibrosis. In addition, the passage of a high-frequency current through the body can lead to a pathological violation of electrical processes in vital organs, primarily in the myocardium and, as a result, to a violation of the heart rhythm and the development of another cardiovascular pathology.

To eliminate the above disadvantages, a method of combined radiofrequency and pharmacotherapeutic effects on the skin is proposed. The proposed method ensures the achievement of a stable clinical effect of skin rejuvenation, which consists in smoothing wrinkles, lifting the skin, increasing its elasticity, moisture and turgor with a minimum risk of developing possible post-manipulation complications.

The proposed method of radio-frequency two-stage skin remodeling is carried out in two stages. At both stages of exposure, a high-frequency current with a frequency in the range from 0.5 MHz to 20 MHz is used.

At the first stage, the dermis is heated to a depth of 2-3 mm using a multipolar manipulator electrode. A manipulator electrode is applied to the surface of the patient’s skin. The movement of the manipulator electrode from the treated zone to the untreated is carried out by its transfer. Overlapping the treated areas is not allowed. Before starting treatment, a radio frequency sample is determined - the minimum erythema dose (MED). Definition of DER is assessed by the response of the patient's skin to radiofrequency exposure in the early and long-term. Early dates are estimated 5-10 minutes after exposure to radio frequency. DER is established, starting with a volume density of power of energy release of 10 W / cm ³ introduced into the biological tissue during 5 ± 0.5 seconds. In the absence of erythema, 10 minutes after exposure, the sample is repeated, incrementally increasing the power density by 10%. This procedure is repeated until mild erythema appears. The energy density corresponding to the appearance of weak skin erythema is taken as the MED. As the working energy density, a value corresponding to 1.1 DER is selected. In case of a hyperergic skin reaction to radiofrequency exposure, it is recommended to reduce the dose step by step by 10%. Table 1 gives an estimate of the effectiveness of the radio frequency sample in the early (5-10 minutes) time frame. A control check of the skin reaction to the established level of DER in the long term is carried out after 24 hours.

Table 1 The degree of effectiveness of the radio frequency sample absent weak moderate pronounced Erythema of the skin - - + + ++ Edema - - + + ++

In one procedure, no more than 8% of the patient’s skin surface is treated with a total exposure time of 20 minutes to 2 hours.

In the second stage, immediately after the radiofrequency heating of the dermis, a medicinal substance of an immuno-modeling pharmacotherapeutic action that stimulates neocollagenesis is applied to the treated skin. Then the drug is deposited with a pulse-periodic radio-frequency current supplied to the patient’s skin using a monopolar or multipolar manipulator electrode that moves smoothly along massage lines with a total exposure time of 15 to 20 minutes. The duration of the RF current pulses is selected in the range of 50-500 μs, and their repetition frequency in the range of 100-1000 Hz. In this case, radio frequency current parameters are used that do not cause the appearance of thermal erythema. The total number of procedures is up to 12 with a frequency of 1 time in 7 days. Moreover, each procedure includes the combined effect of radio frequency current and the deposition of the drug.

As a result of the course of procedures, remodeling of the patient’s skin occurs, which consists in the restructuring of the skin architectonics. The changes in the quaternary structure of the protein caused at the first stage lead to a change in its conformation and antigenic structure. At the second stage, immunocompetent cells are controlled by immunocorrectors deposited in the skin in order to activate neocollagenesis.

The advantages of the proposed method of radiofrequency two-stage skin remodeling

1. Control of the depth of skin warming and threshold temperature values providing neocollagenesis.

2. A preliminary radiofrequency test provides an adequate dose selection, which guarantees the safety and effectiveness of the procedure.

3. Deposition of immunocorrectors into the skin ensures the achievement of a cosmetic effect even in patients with reduced immunoreactivity of congenital or acquired genesis.

4. The exclusion of high-frequency current through the entire body of the patient.

To implement the first stage of exposure to radio frequency current in the proposed method using a specially designed electrode-manipulator. The manipulator electrode contains two or more bipolar poles.

The distance between the poles is selected from the condition of the required heating depth according to medical indicators. The heating depth corresponds to the distance between the poles of the manipulator electrode. The design of the bipolar electrode-manipulator is presented in figure 1, where 1 is the pole; 2 - case; 3 - high-frequency cable; 4 - high-frequency connector. The geometric profile of the poles for the formation of a uniform electric field between them, and consequently, uniform heating of the skin tissue, are selected by the Cheng method (Chang T.Y., "Improved uniform-field electrode profiles for TEA laser and high-voltage applicaitons", Rev. Sci. Instr., 44, 405, (1973) [2]) depending on their width and the distance between them.

In the simplest case, the profile of each pole in the cross section is selected in accordance with the formula

Here, y and x (see Fig. 1) are the coordinates in the plane of the section of the electrode (y along the plane and x perpendicular to it). The parameter "k" determines the geometric characteristics of the pole creating a homogeneous field. With a decrease in the parameter k, the pole becomes wider, and with an increase in k, the profile becomes narrower. The graph of figure 2 shows the dependence of the value of the parameter k on the ratio of the width of the poles (d) to the distance between them (h), for a given maximum inhomogeneity δ _{m of the} field at the edges of the poles, equal to 5% (curve 1) and 10% (curve 2) .

The field inhomogeneity parameter δ _m is determined by the relation

where E (0) is the field strength in the center between the poles, and E (x _m ) is at the pole boundary.

Figure 3 presents the normalized profile of the electrode for two values of the ratio of the width of the pole to the interpolar distance. The electrode width is five times the distance between them d / h = 5 (k = 0.011) (curve 1) and d / h = 1.2 (k = 0.12) (curve 2).

For other values of the ratio d / h according to the graph of figure 2, determine the value of the parameter k and calculate the profile of the poles by the formula (1).

Figure 4, as an example, presents a multipolar quadrupole manipulator electrode, consisting of four cylindrical poles located at the vertices of the square, where 1 is the pole; 2 - case; 3 - high-frequency cable; 4 - high-frequency connector. When applying to the poles of a high-frequency voltage phase-shifted by 90 ° in accordance with FIG. 5, the electric field rotates around the axis of symmetry of the manipulator electrode. The distance L between the poles is selected on the basis of the skin warming depth necessary for medical reasons, and the diameter of the rod poles D is determined from the ratio

At the first stage of heating the dermis, a bipolar electrode with poles between 2-10 mm apart or a quadrupole electrode with four poles located at the vertices of a square can be used to apply the radio frequency current to the patient’s skin, with a two-channel high-frequency phase-voltage supply voltage 90 degrees to diagonal poles in each phase.

Example No. 1. The application of the method in clinical practice.

Patient K., 53 years old.

She complained of dry skin, expressed wrinkles and grooves in the face and neck. Anamnesis vitae: menopause for four years, frequent colds with a frequency of more than two times a year. Anamnesis morbi: skin care products used only external cosmetics. Status specialis: skin in the face and neck area is pale pink with areas of skin hyperpigmentation from light brown to dark brown in diameter from 0.5 to 2.0 cm. Multiple wrinkles are noted in the entire face and neck, as well as deep furrows in the area of the eyebrows, nasolabial folds, corners of the mouth, persisting constantly with a calm expression. In the periorbital region, hernial sacs, sagging skin of the upper eyelids with difficulty in lifting them are noted. There is a moderate deformation of the oval of the face due to sagging soft tissues below the edge of the lower jaw to one centimeter.

Diagnosis: Senile atrophy of the skin of the face of a moderate degree: K2, MH, G2, P2 (Table 2).

Radiofrequency skin remodeling was carried out according to the above method at a high-frequency current frequency of 2.64 MHz. The following areas were sequentially treated in the face and neck: frontal, periorbital, buccal, perioral, chin and cervical. After preliminary determination of DER, the working power density of energy release was established and radiofrequency therapy was performed. The course of therapy was 6 procedures with a frequency of once every 7 days. Actovegin solution was used as an immunocorrector.

As a result of treatment, the disappearance of hernial sacs in the orbital-palpebral region, a decrease in the nasopharyngeal folds and folds in the region of the corners of the mouth, an improvement in the shape of the face, and a lifting effect in its middle and lower parts are noted.

Claims (10)

1. The method of rejuvenating atrophic skin of the face and body with high-frequency currents, characterized in that they use a two-stage method of exposure to the skin with radio frequency currents, while an individual test is performed to determine the minimum erythema dose (MED), at the first stage of exposure to the skin, the dermis is heated Using a working energy density corresponding to 1.1 DER, at the second stage, drugs are deposited into the skin using radio frequency current parameters that do not cause thermal erythema. 2. The method according to claim 1, characterized in that in the first stage, exposure to the skin by currents of the radio frequency range is carried out by a multipolar electrode. 3. The method according to claim 1, characterized in that as drugs use agents that stimulate neocollagenesis. 4. The method according to claim 1, characterized in that at the stage of deposition of the drug using radio frequency current supplied to the skin of the patient using a monopolar electrode. 5. The method according to claim 1, characterized in that at the stage of deposition of the drug, a radio frequency current is applied to the patient’s skin using a multipolar electrode. 6. The method according to claim 4, characterized in that at the stage of depositing the drug, a pulse-periodic mode of supply of radio frequency current is used. 7. The method according to claim 5, characterized in that the pulse width of the radio frequency current is in the range of 50-500 μs, and the frequency of their repetition is in the range of 100-1000 Hz. 8. The method according to claim 1, characterized in that the two-stage method of exposure is carried out up to 12 procedures with a frequency of 1 time in 7 days. 9. The method according to claim 2, characterized in that at the first stage of heating the dermis, a bipolar electrode with electrodes, the distance between which is in the range of 2-10 mm, is used to supply the radio frequency current to the skin of the patient. 10. The method according to claim 2, characterized in that at the first stage of heating the dermis, a quadrupole electrode with four poles located at the vertices of the square is used to supply the radio frequency current to the patient’s skin, and the two-channel high-frequency supply voltage with a phase shift of 90 ° is diagonal located poles for each phase.

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