RU2432928C1 - Method of treating eyelid wounds - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to ophthalmology and can be used in treatment of eyelid wounds. For this purpose region of eyelids is subjected to impact of gas flow, which contains nitrogen oxide in concentration 300 ppm. Impact is performed with exposition 15-30 seconds one time per day doubly.

EFFECT: method makes it possible to accelerate regeneration in region of eyelid wound with formation of tender scar due to optimal mode of impact, conditioned by pathogenetic peculiarities of healing eyelid skin wounds.

4 cl, 3 ex

Description

The invention relates to the field of ophthalmology and is intended for the treatment of wounds of the eyelids, including surgical treatment.

The search for effective methods and especially tools that promote eyelid regeneration in case of injuries of various depths is an urgent and significant problem of ophthalmology.

The use of new treatment methods that reduce the treatment time and give a high functional and cosmetic outcome contributes to the solution of an important social problem - reducing eye morbidity with disability.

For medical treatment of eyelid injuries, disinfecting, anti-inflammatory, and regeneration-improving drugs are used. Physiotherapeutic treatment-magnetotherapy is also used (V.I. Morozov, A.P. Yakovlev. Pharmacotherapy of eye diseases. M., 2009, p. 74, 176-179).

For the closest analogue of the proposed method, a method for treating wounds of the eyelids using the physiotherapeutic method is adopted - magnetotherapy (apparatus for magnetotherapy and magnetophoresis "Pole-3"). In the treatment of patients with eyelid wounds, the effect of magnetotherapy is primarily aimed at normalizing microcirculation, which leads to the removal of edema and anti-inflammatory effect, the revitalization of metabolic processes, acceleration of regeneration (Methods of physiotherapy in ophthalmology. M., 1999, pp. 32-35). However, magnetotherapy is carried out only in specially equipped physiotherapy rooms, the duration of treatment is 8-10 minutes, the course of treatment is 10 procedures, therefore, as a rule, it is used only for complicated surgical wounds of the eyelids.

Several years ago it was found that a simple molecule of nitric oxide (NO) in the body of animals and humans plays the role of a universal regulator of various metabolic processes. Since 1991, information has appeared in the literature on the effect of nitric oxide on the course of the wound process. Tomson AW, Bonham CA, Zeevi A. (Ther. Drag. Monit. - 1995 - vol.17 - p.584 - Mode of action of tacrolimus (FK506): molecular and cellular mechanisms) showed a sharp decrease in the content of nitric oxide in a long non-healing wound. So, it became known that with damage to the skin (mechanical, trophic or thermal), a sharp decrease in the level of nitric oxide after an injury is observed, which is replaced by an increase in its concentration: with wounds after 12-24 hours, with burns - after 48 hours. It is known that in the wound healing process a key role is played by disturbances in microcirculation, phagocytosis, macrophage functions, fibroblast proliferation, and vascular and nervous trophism.

According to several authors, nitric oxide is a tissue regulator that affects the course of reparative processes by enhancing angiogenesis and cell proliferation (Frank S., et al. // FASEB J. - 1999. - Vol.13 / - P / 2002-2014) .

It is assumed that the effect of nitric oxide on the course of the wound process is carried out through increased activity of macrophages, proliferation of fibroblasts, synthesis of collagen and pro-elastin. An increase in the level of nitric oxide in the area of the wound surface has been shown, and its insufficient formation may be one of the reasons for the slowing down of wound regeneration (Schaffer MR et al., 1996, 1997, 1998, 1999.) A previously unknown phenomenon of stimulation of soft tissue wound healing by exposure on them the peripheral cooled region of the plasma flow, of which nitric oxide is an integral part (Schekhter AB and others 1998; Bull. experiment, biology and medical., volume 126, 8, 210-215). The authors believe that with this treatment of wounds, nitric oxide, generated by a plasma-chemical method from atmospheric air, improves microcirculation, suppresses inflammation and the infectious process, and stimulates tissue regeneration. The NO-therapy method is allowed and is used in general and purulent surgery. The presented information suggested the possibility of using a similar method for the treatment of various wounds of the eyelids (abrasions, puncture, cut wounds, burns). However, in general surgery, the area and depth of damage significantly exceeds the size of the eyelid, therefore, a long-term effect is used, both in time (for several minutes) and in the frequency of exposure (up to 10 sessions).

Given the above, we conducted experimental and clinical studies to determine the parameters of the effect of nitric oxide in the gas stream on the area of the wound of the eyelids.

As a source of exogenous nitric oxide, a Plazon medical air-plasma apparatus was used that generates nitric oxide from atmospheric air by a plasma-chemical method.

The impact was produced by a gas stream, the main component of which (80%) is nitric oxide. Using gas chromatography, the area of influence and the concentration of the gas components of the stream are determined.

We have investigated the possibility of treating wounds of the eyelids of 24 patients with this method, and the exposure regimen was previously experimentally selected.

The technical result of the invention is the acceleration of regeneration in the wound with the formation of a more delicate scar, which helps to improve the functional and cosmetic effect, while simplifying the conditions of the method.

The technical result is achieved by treating the wound of the eyelid with a gas stream containing nitric oxide in a certain concentration and exposure, the choice of which is determined by the nature of the existing pathology.

Studies were conducted: the region of the upper eyelid of the rabbit was exposed to a gas stream containing nitric oxide. As a source of exogenous nitric oxide, a gas stream created by the Plazon apparatus was used. The study was carried out on 20 chinchilla rabbits with different exposure times (300 ppm for 15, 30, 45 sec) with double exposure.

The experiment used a model of a linear wound of the upper eyelid, 20 mm long, with a depth of up to cartilage. Under local anesthesia with a solution of novocaine 2% subcutaneously, a linear incision was made with a 20 mm blade of the upper eyelid of both eyes. An assessment of the condition of the wound in conditional scores and using morphological studies.

The animals were divided into control (6 rabbits, 12th century) and experimental (14 rabbits, 28th century) groups. In the control group in the postoperative period, treatment was not carried out.

The rabbit eyelid region was exposed to a gas stream containing nitric oxide with a concentration of NO 300 ppm, while the distance from the outlet of the tip of the apparatus to the surface of the eyelids was 20 cm, and the temperature was 25-30 ° C, which corresponds to a concentration of NO 300 ppm. The experiment was divided into several series to determine the optimal exposure time, magnification and timing of exposure.

As a result of experimental studies, the optimal exposure time was determined - 15-30 seconds, 1 time per day twice. With this method of exposure, the wound heals earlier with the formation of a more tender scar than in the control, which is confirmed by morphological studies and is comparable with the results obtained with other agents that accelerate the healing of eyelid wounds, for example, with the use of magnetotherapy.

The method is as follows.

A patient with an eyelid wound is exposed to nitric oxide in a gas stream with a concentration of 300 ppm, an exposure of 15-30 seconds, once a day twice. In this case, if it is necessary to carry out the initial surgical treatment (PCP), the gas flow is effected immediately after the PCP with an exposure of 30 seconds. With superficial wounds of the eyelids, exposure to a gas stream is carried out with an exposure of 15 seconds. With puncture wounds of the eyelids, exposure to a gas stream is carried out with an exposure of 20 seconds. The method is applicable to all types of eyelid wounds, including long-term non-healing, infected.

Example 1. Patient K.

Injury of the upper eyelid of the left eye in the forest, stumbled on a knot a day ago.

On admission: significant edema, hyperemia, hyperthermia of the upper eyelid, wound at the inner corner of the eyelid. The operation was performed: primary surgical treatment of the wound, revision, small foreign bodies (wood) were removed, no sutures were placed on the wound, given the inflammatory process and the presence of wooden foreign bodies in the wound. The edges of the wound are treated with a solution of brilliant green. Immediately after the operation, nitric oxide was applied in a gas stream to the region of the upper eyelid of the left eye, with a concentration of 300 ppm, exposure time of 30 seconds. The next day, edema and hyperemia of the upper eyelid significantly decreased, the dressing was slightly wet, purulent discharge was not observed, the wound edges are moderately hyperemic, there is no edema. After ligation, repeated exposure was made by nitric oxide in the gas stream to the region of the upper eyelid of the left eye, with a concentration of 300 ppm, exposure time of 30 seconds.

Two days after the surgical treatment, a slight local edema of the upper eyelid was observed in the area of the wound, the edges of the wound were adapted, and there was no discharge. After 7 days, the patient was completely healthy.

Example 2. Patient L.

Received with a linear superficial wound of the upper eyelid of the left eye with a fragment of glass.

Guiding seams were applied, the seam area was treated with a solution of diamond greens. Nitric oxide was applied in the gas stream to the region of the upper eyelid of the left eye, with a concentration of 300 ppm, exposure time of 15 seconds. A pressure bandage has been applied. After a day, edema and hyperemia of the damaged eyelid in the wound area were not determined, the sutures were adapted, clean. The repeated exposure of nitric oxide in the gas stream to the area of the treated wound of the upper eyelid of the left eye, with a concentration of 300 ppm, exposure of 15 seconds. The patient was discharged for outpatient treatment. The sutures were removed on the sixth day, a tender scar was determined in the wound area.

Example 3. Patient T.

Entered with a stab wound of the upper eyelid of the left eye with a bounced dart.

On admission: on the surface of the skin of the upper eyelid, a wound of 3 mm in size corresponds to 15 mm in depth.

The wound was washed with a solution of furatsillina and gentamicin, the suture was not imposed. Nitric oxide was applied in the gas stream to the region of the upper eyelid of the left eye, with a concentration of 300 ppm, exposure time of 20 seconds. After a day, edema and hyperemia of the damaged eyelid were not observed. The repeated exposure of nitric oxide in the gas stream to the area of the puncture wound of the upper eyelid of the left eye, with a concentration of 300 ppm, exposure time of 20 seconds. The patient was discharged for outpatient treatment after 3 days. After 6 days, the wound healed completely, a tender scar was detected on the skin.

Thus, NO - CHP accelerates the regeneration of wounds of the eyelids, contributing to the formation of a more tender scar, which is important for obtaining a functional and cosmetic effect, reduces the rehabilitation time by 5-7 days, and can be used to treat eyelid wounds both on an outpatient basis and in a hospital .

The method is easy to use, the device can be used in various conditions, does not require special preparation, consumables, the gas stream is sterile.

Claims (4)

1. A method of treating wounds eyelids, characterized in that on the eyelids affect the gas stream containing nitrogen oxide in a concentration of 300 million ^-1 with exposure to 15-30 once daily twice. 2. The method according to claim 1, characterized in that the gas flow is carried out immediately after the initial surgical treatment with an exposure of 30 s. 3. The method according to claim 1, characterized in that for superficial wounds of the eyelids, exposure to a gas stream is carried out with an exposure of 15 s. 4. The method according to claim 1, characterized in that with puncture wounds of the eyelids, exposure to a gas stream is carried out with an exposure of 20 s.