RU2328244C1 - Method of early laser correction of postoperative cicatrix - Google Patents

Abstract

FIELD: medicine; surgery.

SUBSTANCE: laser beam CO₂ exposes at wave length 10.6 microns in a superpulse mode with pulse duration 200-300 mcs, pause duration 0.002 to 0.9 mcs, cicatrix process beginning with second-third week after operation or trauma. Scanner exposure is initially performed within one pass by cicatrix mass, and then captured non-modified skin within 1 - 2 mm.

EFFECT: high percent of good cosmetic results owing to earlier structure reorganisation of connecting tissue.

2 cl, 2 ex

Description

The invention relates to medicine, namely to aesthetic and maxillofacial surgery, and relates to the surgical effect of laser radiation on the scarring process.

According to the results of an information search, all methods of influencing skin scars can be divided into surgical (surgical), conservative, combined and combined methods [1-4].

Surgical methods of treatment, involving the excision of the scar and the replacement of the defect with displaced local tissues, a free skin flap, a flap on the feeding leg, do not always bring a satisfactory cosmetic effect. Often this is due to repeated unpredictable scarring in this area, an increase in the patient's rehabilitation time.

The advantages of conservative therapy are non-invasive treatment, low invasiveness of surrounding tissues, the possibility of carrying it out in cases of scar localization in places of undesirable surgical intervention, and the possibility of repeated exposure to scarred tissues.

A known method of exposure to scar tissue through radiation from a holmium laser with a wavelength of λ-1.96-2.15 μm, in a pulse-periodic mode with a pulse energy of 0.1-2.0 J and a pulse duration of 200-500 μs. In this case, the effect is carried out, for example, by a focused beam transmitted through a fiber made in the form of an optical fiber, the working end of which is in contact with scar tissue. After the initial exposure, if necessary, a second exposure to the defocused beam of a holmium laser or a subsequent exposure to a focused and defocused beam in the form of repeating cycles can be performed. [5].

Closest to the described is a method of exposure to an already formed scar tissue by means of laser radiation, for example using a CO ₂ laser having a radiation wavelength of λ = 10.6 μm.

This method is versatile, there is the possibility of using the method in the treatment of wounds of any localization, which allows to expand the scope of its clinical application, brings a significant visual effect, reduces the time of patient rehabilitation.

The effect of radiation from a CO ₂ laser has the property of stimulating cellular elements to produce collagen and elastin through the penetration of light quanta into the deeper layers of tissues. This is associated with the activation of proliferative processes in the wound and the acceleration of the scarring process. The disadvantage of this method is that it is intended to affect the already formed scar tissue, while it is proved that scars less than 1 year old have a much more pronounced reaction to treatment than chronic scars [6-8].

But none of the methods analyzed by the authors suggests exposure to CO ₂ laser radiation in the early stages of scar tissue formation.

The objective of the invention is to provide a painless and effective way to stimulate the proliferation of cellular elements in order to shorten the flow of phases of the wound process in the early stages of scar tissue formation.

The technical result obtained by the implementation of the invention is expressed in reducing the time of wound healing, improving the aesthetic result and, as a result, stabilizing the psycho-emotional status of patients.

To solve this problem, we propose a method of exposure to scar tissue starting from the second or third week after surgery or injury by processing with CO ₂ laser in super-pulse mode with a pulse duration of 300 μs and a pause duration of 0.002-0.09 s with a scanner in one pass only in the array scar. Then, with a pulse duration of 200 μs in one pass with the capture of unchanged skin within 1-2 mm to reduce the clarity of the borders of the scar. In this case, the effect is carried out by a focused beam, which is guided by a 2 mW diode laser. Contact of the working parts of the device with scar tissue does not occur.

The signs confirming the novelty and inventive step of the proposed technical solution are the following:

1. Impact CO ₂ laser on the scarring process starting from the second week after surgery or injury, because earlier exposure does not make sense because the resulting epithelial tissue can be damaged by a CO ₂ laser. And starting from the fourth week after surgery or trauma, the exposure to a CO ₂ laser on an already formed scar does not produce a clinically significant result.

2. CO ₂ laser treatment is performed in super-pulse mode with a pulse duration of 200-300 μs and a pause duration of 0.002-0.09 s with the scanner in one pass, first only along the scar array, and then with the capture of unchanged skin within 1-2 mm for reduce the clarity of the borders of the scar.

3. The total number of treatments is not more than 4 per treatment course with an interval of 2 weeks, and the duration of each session is on average 2-4 minutes.

In contrast to the known method, the effect on tissues in the method developed by us is carried out by radiation of a CO-2 laser in a super-pulse mode, which is the original mode of exposure of a carbon dioxide laser to biological tissues. It has a high degree of laser energy concentration (20 mJ) in very short pulses. By changing the duration of the pause between pulses, the pulse frequency can be varied from 1 to 650 Hz. When using the super-pulse mode, the laser radiation power is fixed at 50 W, the pulse duration should be changed in the range from 200 to 300 μs, the duration of the pause between pulses can vary from 0.001 to 2 seconds.

In the super-pulse mode of exposure to body tissues, conditions are created for their photodynamic ablation, when tissue removal occurs as a “quick blast”, without a pronounced thermal effect. Also, one of the important and undoubted advantages of the method is the creation of sterility in the area of the laser beam and the painlessness of manipulation. After the initial exposure, if necessary, a second exposure to a carbon dioxide laser beam can be performed until an optimal result is achieved. As a rule, during the course of treatment, treatments were performed 2-4 times with an interval of 2 weeks. Moreover, the achieved effect met the expectations of patients in 62% of cases.

The emission of a carbon dioxide laser with a wavelength of λ = 10.6 μm in the form of very short pulses (200-300 μs) with a short pause between pulses in super-pulse mode creates a high energy density of the laser exposure, which limits the diffusion of heat in tissues from the irradiation zones. This creates the conditions for tissue ablation at high speed and prevents a burn reaction and carbonization. For example, with a pause duration between pulses of 0.001 s and a light spot diameter of 0.2 mm, the energy density is 530 J / mm ² , with a pause of 0.01 s, the energy density is 76 J / mm ² , with a pause of 0.1 s, the energy density is 7, 9 J / mm ² .

So, when the time of exposure to CO-2 laser radiation on the tissue for 1 s, the thermal diffusion depth is about 720 μm, when the exposure time is 0.01 s 72 μm, when the exposure time is 0.001 s (1 ms) 23 μm, when the exposure time is 0 , 0001 s (100 μs) - 7.2 μm (Muller, 1989).

In addition, the duration of the exposure pulses used in the described method (200-500 μs) is shorter than the relaxation time of the target tissue, and therefore, necrosis and carbonization of tissues caused by thermal diffusion is minimal.

At the same time, the depth of the zone of thermal damage is sufficient to ensure reliable hemostasis during exposure and adequate stimulation of the phases of the scarring process.

Example 1. Patient K., 21 years old.

Diagnosis: A cut wound of the frontal and buccal areas, upper and lower eyelids on the right.

Delivered by ambulance to the emergency department 11.11.2005, at the time of admission - bleeding. The primary surgical treatment of the wound, hemostasis, a course of anti-inflammatory therapy. The wound healed by primary intention, with a tendency to form an inverted normotrophic scar of a crimson-red color, with a width of 0.3 to 0.9 mm. The presence of a scar gave the patient severe discomfort, the psychoemotional state corresponded to a depressive one. At a period of 13 days after the injury, the patient began treatment according to the proposed method using the Lancet laser surgical apparatus, after 2 treatments, the surface of the scar was smoothed, the scar mass was softened, and the color of the scar was reduced to pink. After the 3rd treatment, the patient assessed the condition of the scar as "very good", the psychoemotional state improved markedly.

Example 2. Patient S., 47 years old.

Diagnosis: Torn-bruised wound of the buccal and parotid-chewing region on the right.

The patient was delivered 26 hours after the injury. The primary surgical treatment of the wound was made, a course of anti-inflammatory therapy was conducted. The wound healed by secondary intention, with a tendency to the formation of a hypertrophic scar of a crimson-red color, width from 0.6 to 1.6 mm, the patient assessed the condition of the scar as "very bad", the mood was depressed.

Starting from 14 days after the injury, the patient was treated according to the proposed method using the Lancet laser surgical device. In the postoperative period, the following dynamics was noted in relation to scar tissue: after the first treatment, a dry crust formed on the site of exposure to the laser beam on the 2-3 day. The adjacent tissues were almost intact. Crust lasted up to 6-8 days, after which it was torn away. An intense pink epithelized surface corresponding to the laser exposure zone, i.e. the scar after a single exposure to it by the radiation of a carbon dioxide laser was formed with the restoration of the organotypic properties of tissues. The patient assessed the condition of the scar as "very good", the psycho-emotional state corresponded to normal.

The method allows to achieve a higher percentage of good cosmetic results due to an earlier reorganization of connective tissue into structures characteristic of a normal dermis, which is not observed during the natural course of the process.

Bibliography.

1. The use of laser surgical devices "Lancet" in medical practice / Skobelkin O.K. and others. - M .: Medicine, 2002. - S.11-27.

2. Geynits A.V. Dermabrasion with a CO-2 laser for epidermal-dermal skin defects on an outpatient basis / A.V. Geynits, V.A. Doronin. - M .: Medicine, 2004. - P.23-56.

3. Guller A.E. Structural composition of human skin scars / In the book: X All-Russian Scientific and Practical Conference "Young Scientists in Medicine" - Kazan, 2005. - P.217-218.

4. Moskvin S.V. Combined laser therapy in cosmetology. / S.V. Moskvin, L.V. Myslovich. - Tver: Triad, 2005. - S.151-153.

5. RF patent No. 2030923

6. Minaev T.G. J. Annals of plastic and reconstructive surgery, 2005, No. 3,

7. Chou T.D. Reconstruction of burn scar of the upper extremities with artificial skin / Chou T.D., Chen S.L., Lee T.W. et al. // Plastic Reconstructive Surgery. - 2001. - No. 108 (2). - p. 378-384.

8. Norris J.E. The effect of carbon dioxide laser surgery on the recurrence of keloids. / Plastic Reconstructive Surgery. - 1991. - Vol. 87, No. 1. - p. 44-53.

Claims (2)

1. A method for early correction of scars by exposure to a CO ₂ laser beam of a wavelength of 10.6 μm, characterized in that the effect on the scarring process is carried out starting from the second or third week after surgery or injury by a laser beam in super-pulse mode with a pulse duration of 200-300 μs , with a pause duration of 0.002 to 0.9 μs, and the exposure is carried out using the scanner in one pass, first only along the scar array, and then with the capture of unchanged skin within 1-2 mm. 2. The method according to claim 1, characterized in that the total number of treatments is not more than 4 per treatment course with an interval of 2 weeks, and the duration of each session is on average 2-4 minutes.