UA99950U - METHOD OF LASER EPILATION - Google Patents

Abstract

The method of laser hair removal involves the preparation of the surface of the skin with unwanted hair growth, anesthesia and the impact on the surface of the skin with laser radiation. 3 days before the laser hair removal from the surface of the skin to be epilated, removes the hair without mechanical damage to the integrity of the skin, degreases the skin with a drug that does not contain alcohol, scans laser pulse irradiation of the epilation area. On the area of skin to be epilated, apply a photosensitizing gel containing a photosensitizer of chlorine or porphyrin series. The skin area with the applied photosensitizer is closed with a light-proof material and kept for some time without light access. Then remove the photosensitizer residues without damaging the epidermis, apply a gentle texture transparent gel, conduct laser irradiation of the desired area of skin.

Description

The useful model belongs to laser medicine, namely to cosmetology, and can be used in medical institutions, specialized salons and cosmetology clinics to remove and prevent the growth of unwanted hair on various parts of the body.

There are many ways to remove unwanted facial and body hair. These methods are mostly temporary, with the most common being shaving, hair removal with depilatory creams (chemicals that contain hair-dissolving chemicals), electric epilation, and waxing. For longer-term hair removal, epilation devices are used, with the help of which they try to pull out the hair from the root in order to reduce the hair cover on the body as long as possible. At the same time, the root part of the hair is removed, which strongly depends on the speed of plucking and, in particular, on the direction of plucking.

There is a known method of laser irradiation of the surface of the skin, which includes the application of a photosensitizer to the surface of the treated area of the skin, followed by its exposure to access without light and the effect of laser radiation on the surface of the pathological area of the skin (MU. Gome, SG avk, MESTiyni, A. Makhmeiyi, RY. Gome, E.Otsiapaa. 5Kip tezipasipu m/p iShte shigariize sagrop adiohide Iazeg. Oeptaioiodis Zygdegu, 1995. - M.21, Mo 12. - R. 1025-1030).

However, the known method has a number of disadvantages. The required effect is not achieved when conducting photodynamic therapy, the period of epithelization (healing) of the skin is quite long and with the formation of scars, there is a significant risk of infection, and the cosmetic results of treatment of the skin surface are unpredictable and ambiguous.

US Patent Nos. 3,538,919 and 4,617,926 describe methods of hair removal that use light energy emitted by a laser, transmitted from an optical fiber, directed at the hairs and destroying them one by one. These methods are too long, which creates discomfort for the patient, and they also create the risk of possible hair pulling out when they are placed under radiation.

To solve the problem related to the duration of the methods described above, in US patent 5425728 it was proposed to irradiate a large surface of the skin with a laser after applying to this part of the skin a composition containing a chromophore that has a high absorption at the wavelength of light emitted by the laser. This chromophore is, in particular, carbon particles

From an average size of 10 to 20 nm. However, the method also has disadvantages: the small size of the particles does not allow deep and selective penetration into the hair follicles. These particles can accumulate in the pores of the skin or in the folds, which causes unwanted damage to areas of the skin during irradiation.

In addition, despite the use of ultrasound or prolonged massage, carbon particles manage to penetrate deeply into the hair follicles.

Widely known methods of laser hair removal are based on the irradiation of areas of the skin containing unwanted hair with single long pulses of lasers. These methods are based on the method of melanin coagulation, which is part of the hair shaft and hair root structures. As a result of such irradiation with an energy density of the order of 10-50 J/sme, melanin coagulation occurs and, therefore, thermal destruction of the hair structure.

Such methods include the use of single long pulses from 500 μs to 30 ms. This is due to the fact that the thermal relaxation time (TRL) of the hair, that is, the time during which the hair manages to transfer a significant amount of heat to the surrounding tissues, is milliseconds. As a result, when using longer single pulses, the heat 3 of the hair will be transferred to the surrounding tissues. Thus, in order to effectively heat the hair and minimize the heating of the surrounding tissues, it is necessary to apply radiation during a time comparable to the time of thermal relaxation of the hair.

The disadvantages of these methods include the fact that the mechanism of hair destruction is based on the absorption of radiation by melanin. As a result, the method can be effectively used only for patients with fair skin and dark hair. When using this method on patients with dark skin, the radiation is absorbed by the melanin in the skin and, as a result, depigmentation of these areas of the skin occurs. In addition, since part of the radiation is spent on absorption in the upper, pigmented layer of the skin, less energy is delivered to the hair than is necessary for its coagulation.

It is known that the method of laser epilation is the closest in terms of technical essence and the result that can be achieved (Patent RF Mo 2167625, 27.05.2001), which includes preparation of the surface of the skin containing unwanted hair, anesthesia and the effect of laser radiation on the surface of the skin. The claimed method of laser epilation consists in the fact that the hair cover is affected by laser radiation in the form of a packet of successive pulses of nanosecond duration with an energy density of 3 to 60 J/cm:2 and a packet duration of 0.5 to 10 ms, and the packet is formed from at least 5 consecutive pulses, and each hair is irradiated with at least one package.

However, the known method has disadvantages when used. The efficiency of epilation is insufficient, especially when removing fluffy, thin and light hair. Hair growth is restored within 2 to 6 months after epilation. There is a high risk of skin damage, especially in people with dark skin. Because of this, the therapy is not effective enough, and the sessions are longer.

The procedure for removing unwanted hair on the face and body is one of the most urgent tasks of cosmetology. This type of cosmetology services clearly leads in terms of the number of patients and, in connection with this, the market is full of various means and devices for hair removal. Among the hardware offered today for epilation, laser epilators occupy a special place, the basis of which is the effect of coherent monochromatic radiation on human skin.

The main advantage of laser epilation methods is the possibility of permanent removal of unwanted hair. However, as practice shows, it is far from always possible to achieve 100 95 results. Most often, hair growth only slows down, the amount of hair in the treated area decreases, but complete removal does not occur. In order to understand the reason for what is happening and to find ways to solve this problem, it is necessary to refer to the mechanisms that lead to the destruction of hair under the action of laser radiation.

All methods of laser hair removal are based on the effect of energy absorption of electromagnetic waves by hair structures. Depending on the parameters of the radiation used, the absorbed energy will either turn into heat, leading to the coagulation of hair proteins, or cause the generation of acoustic waves in the irradiated tissues, which produce mechanical destruction of the hair structure. The effectiveness of laser hair removal is determined by optical, thermal and nonlinear selectivity. The term "selectivity" is one of the fundamental concepts of laser medicine. Selective (from the English "5eIesiime" - selective) methods of laser action ensure high efficiency of treatment of various diseases with minimal risk of injury to adjacent tissues.

The optical target for laser hair removal is melanin, a pigment found in hair. This choice

Zo is determined by the absorption spectrum of melanin. For effective hair removal, it is necessary that the laser radiation penetrate deep into the skin to the level of the hair follicle without significant losses. This can be achieved by using radiation with a wavelength from 0.6 to 1.2 μm. It is in this part of the spectrum that radiation does not meet any effective absorbing targets, except for melanin.

The depth of radiation penetration into the skin is limited by the degree of skin pigmentation and natural scattering, and the efficiency of epilation is determined by the absorption coefficient of melanin radiation. The absorption coefficient of melanin decreases with increasing radiation wavelength.

However, it must be taken into account that melanin, located in the epidermis of the skin, also has a high absorption coefficient of this radiation, so part of the energy of the laser beam is absorbed in the upper layers of the skin, "shielding" deep-lying hair follicles. With a sufficiently high concentration of melanin in the skin, this leads not only to a reduction in the effect of epilation, but can cause a strong thermal effect, which leads to a violation of the natural pigmentation of the skin.

With the same effect, the result of light hair removal will be noticeably worse than in the case of dark hair. The lighter the hair, the more energy is required for its destruction and, accordingly, the greater the effect on skin pigmentation.

ChTR of dermis cells is hundreds of microseconds, and hairs are much longer, milliseconds. As a result, when using millisecond pulses, the skin has time to cool down, and the hair accumulates heat up to coagulation. Even with the same degree of pigmentation (melanin concentration) in the skin and hair, the degree of influence on the hair and skin will vary greatly. In dark hair color and fair skin, this method can show good results. However, in the case of epilation of lighter hair or skin pigmentation, the result will be much worse.

Thus, an increase in the duration of the pulse leads to an increase in the efficiency of epilation. At the same time, the skin feels a significant impact and its ChTE increases. This applies not only to the areas directly adjacent to the hair, but also to the entire volume of skin exposed to the laser. As a result of such overheating, pigmentation may change or even coagulation of the skin may occur, which is often observed in practice.

Therefore, the improvement of laser hair removal methods, in which the effect on the skin will be minimal with high efficiency, is quite relevant nowadays.

The basis of a useful model is the task of improving the method of laser hair removal with the aim of significantly reducing the duration of the procedure while significantly increasing its effectiveness within a short period of time while simultaneously reducing overheating and mechanical damage to the surrounding tissues. To obtain the possibility of uniform and dosed laser irradiation of the treated area of the skin, to shorten the period of epithelization, to reduce the risk of infection, to achieve healing of even deep skin defects with a smooth scar, and to obtain predictable cosmetic results during the treatment of the skin surface under conditions of various variants of its deformation.

The task is solved by the fact that the used method of laser hair removal allows you to have a targeted effect on unwanted hair on the skin. The method of laser hair removal using photosensitizers of the chlorine or porphyrin series allows to achieve active selective accumulation of the photosensitizer in the hair follicles of the skin. Upon laser irradiation of the photosensitizer with a certain wavelength, the photosensitizer is activated, which causes a photochemical reaction in the hair follicles, as a result of which they are destroyed. Photosensitizers are relatively quickly removed from the body and have low toxicity.

The method is carried out as follows. Three days before laser hair removal, hair is removed from the surface of the skin to be epilated without mechanical damage to the integrity of the skin. Prepare for epilation of the required area of skin.

The skin is degreased with a preparation that does not contain alcohol and scanning laser pulse irradiation with a wavelength of 800-930 nanometers and a frequency of 140-160 Hz is performed for 5-20 minutes. with an irradiation pulse power of 4-10 W with a duration of 50-300 ns. Then, a photosensitizing gel containing 0.1-2 95 photosensitizers of the chlorine series or 0.1-1 wt. 95 photosensitizers of the porphyrin series. At the same time, a photosensitizing gel based on viscoelastic hyaluronic acid is used.

The area of skin with the applied photosensitizer is covered with a light-proof material and kept for some time without access to light. Then 3 of it remove the remains

From the photosensitizer without damage to the epidermis. A transparent gel with a delicate texture is applied to the skin in the treated area, which allows you to smoothly move the handle of the laser epilator over the treated area, which increases the effectiveness of the procedure and eliminates the negative effect of the laser on the skin. Then laser irradiation of the selected area of the skin is carried out, successively moving the laser epilator over the entire epilation area, with a wavelength of 661-666 nm when using a photosensitizer of the chlorine series or with a wavelength of 630-633 nm when using a photosensitizer of the porphyrin series, with an irradiation energy density of 20-80 J/sme After epilation, anti-inflammatory and anti-burn therapy is carried out using healing drugs for 3-5 days, and epilation on the next area of the skin is carried out after the skin irritation disappears.

Experimental studies of the proposed method of conducting laser epilation in clinical conditions showed the high efficiency of the proposed method. At the same time, an easy course of the postoperative period was obtained, a high efficiency of hair removal was ensured for any type of hair, and a long-lasting and stable cosmetic result was obtained.

For maximum removal of body hair (920-100 95), you need to undergo a course of laser epilation procedures, on average 8-10 procedures, which are carried out at intervals of 30 days (2nd procedure) to 4 months (7th procedure). The number of sessions depends on individual indicators - the state of the hormonal background, the amount of melanin in the hair.

The implementation of the proposed method of photodynamic epilation is illustrated by the following clinical example.

Patient N., 25 years old, came to the salon with a complaint of excessive growth of bristly hair in the area between the eyebrows.

Laser epilation of unwanted hair in the area between the eyebrows was performed.

Hair was removed from the surface of the integument between the eyebrows without mechanical damage to the integrity of the integument three days before photodynamic hair removal.

Soft light and a minimum of external stimuli were used to create conditions for deep relaxation. The patient was lying down, relaxed. The epilation site was prepared. The required area of the skin was degreased with preparations that do not contain alcohol, and scanning laser pulse irradiation with a wavelength of 800 nm and a frequency of 160 Hu was performed for 5 min. with an irradiation power of 10 W in a pulse and its duration of 300 ns. because then a photosensitizing gel based on hyaluronic acid viscoelastic, containing 2 wt. 95 photosensitizers of the chlorine series. The area of the surface of the skin with the applied photosensitizer was covered with a light-proof material and kept without access to light for 30 minutes. Then the remnants of the photosensitizer were removed from it without damaging the epidermis. After that, a transparent gel with a delicate texture was applied, which allowed the handle of the laser epilator to move smoothly over the treated area. Have you performed laser irradiation of a selected area of skin, successively moving the laser epilator over the entire epilation area, with a wavelength of 666 nm with an irradiation energy density of 80 J/cm? within 10 min. After hair removal, anti-inflammatory and anti-burn therapy using "Panthenol" was prescribed for 5 days.

Got the result. After 5 days, there are no signs of skin irritation. Observation period From month. There are no unwanted hairs between the eyebrows. The high efficiency of epilation is ensured with obtaining a long-lasting and stable cosmetic result.

Clinical tests have shown that for this method of laser epilation, the patient's skin color and the ratio of skin and hair color are not of fundamental importance.

Thanks to this, it is possible to perform epilation not only in dark-skinned patients, but also in black patients.

Due to the high selectivity of the effect, the client's pain sensations are significantly reduced.

The clinical effect of a full course of laser hair removal is expressed in the complete cessation of hair growth. Good results are achieved not only when epilating dark hair, but also light hair.

Claims (2)

USEFUL MODEL FORMULA 1. The method of performing laser epilation, which includes preparation of the surface of the skin with unwanted hair growth, anesthesia and exposure to the surface of the skin with laser radiation, which is distinguished by the fact that three days before the laser hair removal from the surface of the skin to be epilated, hair is removed without mechanical damage to the integrity of the skin, the skin is degreased with a preparation that does not contain alcohol, scanning laser pulse irradiation of the epilation area 3 with a wavelength of 800-930 nm and a frequency of 140-160 Hz is performed for 5-20 minutes. with an irradiation pulse power of 4-10 W with a duration of 50-300 ns, Zo photosensitizing gel containing 0.1-2 95 chlorine series photosensitizer or 0.1-1 wt. for the photosensitizer of the porphyrin series, the skin area with the applied photosensitizer is covered with a light-proof material and kept for some time without access to light, after which the remains of the photosensitizer are removed without damaging the epidermis, a transparent gel with a delicate texture is applied, laser irradiation of the necessary skin area is carried out, with a wavelength of 661-666 nm when using a photosensitizer of the chlorine series or with a wavelength of 630-633 nm when using a photosensitizer of the porphyrin series, with an irradiation energy density of 20-80 J/cm. 2. The method according to claim 1, which differs in that a photosensitizing gel based on the viscoelastic of hyaluronic acid is used. C. The method according to claim 1, which differs in that after hair removal, anti-inflammatory and anti-burn therapy is carried out using healing drugs for 3-5 days. 00 Computer keyboardG. Payalnikovo (00000000 State Intellectual Property Service of Ukraine, 45 Urytskogo St., Kyiv, MSP, 03680, Ukraine SE "Ukrainian Institute of Industrial Property", 1 Glazunova St., Kyiv - 42, 01601