RU2308957C1 - Method for obtaining a preparation for mesotherapy and preparation obtained due to this method (variants) - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: the present innovation deals with obtaining a preparation for mesotherapy to be applied for correcting age-induced alterations of facial skin at aging. It has been suggested the method to isolate human allogenic fibroblasts for their intradermal injection to the patient. Isolation of allogenic fibroblasts should be carried out of neonatal's umbilical cord. It has been suggested the method for isolating a patient's own autologous fibroblasts to be mixed with allogenic fibroblasts from neonatal's umbilical cord. The suggested preparation for mesotherapy contains allogenic fibroblasts obtained out of neonatal's umbilical cord. The preparation for mesotherapy has been suggested that contains the mixture of allogenic fibroblasts obtained out of neonatal's umbilical cord, and autologous fibroblasts, out of a patient's own skin. The innovation enables to improve the quality of the obtained preparation and provides enhanced rejuvenation effect.

EFFECT: higher efficiency.

5 cl, 4 dwg, 2 ex, 1 tbl

Description

The invention relates to medicine and can be used in methods for producing mesotherapy preparations used to correct age-related changes in facial skin during aging.

The desire to maintain attractiveness and external youth as long as possible encourages people to use a variety of cosmetic products, to resort to the help of cosmetologists and plastic surgeons. According to statistics, every sixth woman over 40 years old uses the services of cosmetologists and plastic surgeons. And 60% of all operations in the surgical departments of the Institute of Plastic Surgery and Cosmetology of the Ministry of Health and Social Development of the Russian Federation are aimed at correcting age-related changes in the face.

It is known that the age-related process of reducing turgor and skin elasticity is associated with a decrease in the number of young and mature fibroblasts. In young skin, due to the significant number of fibroblasts, collagen fibers and glycosaminoglycan gel are constantly updated. With age, the renewal of the intercellular substance of the dermis and collagen synthesis proceeds more slowly, damaged collagen fibers accumulate, and the number of glycosaminoglycans is steadily decreasing. As a result, the skin loses moisture, its dermal layer is thinned, which leads to a decrease in its firmness and elasticity - the skin ages.

All creams containing collagen, elastin and glycosaminoglycans give a temporary insignificant effect, since these substances rarely penetrate deeper than the epidermis and only partially smooth out wrinkles and folds.

Currently, various approaches are being developed to correct age-related changes in soft tissues of the face: surgical cosmetology - various facelift options, hardware cosmetology, photorejuvenation, mesotherapy. The latter is the most promising, since by microinjection the drug is delivered to the deeper layers of the dermis and a long-term effect on the target tissue is carried out.

Mesotherapy as a method of exposure has been known for over 150 years. But the ideas and principles of mesotherapy in its modern application were formulated by the founder of the method, Michel Pistor in 1952. The basis of the mesotherapy method is intradermal microinjections of various drugs to the level of the middle part of the dermis - mesoderm. Either chipping of the entire problem area or a separate anatomical site, or the introduction of the drug at certain points is carried out. Papular, tunneling techniques are used.

However, one often encounters a lack of the expected effect of administering the drug or using a multi-component cocktail. The duration of the effect after a course of injections with collagen, elastin, hyaluronic acid preparations reaches 2-3 months. So far, no drug has been found that meets all the requirements of aesthetic medicine. One of the attempts to solve this problem is the use of cell technology or organ preparations.

In the scientific literature, methods for correcting age-related skin changes with the help of organics are known. The most famous manufacturer of organic products in the pharmaceutical market is NPK Vit Organ. Other organ preparations NPK Vit Organ from the cellular contents (from stem to mature calf cells) are widely used abroad and in Russia to correct age-related changes. However, the negative point of using fetal organ preparations is the sensitization of the human body by a foreign animal protein, a number of scientists believe that such injections are harmful - due to the difference in the genocode of the animal and human.

The basic principle of skin rejuvenation with autologous fibroblasts is a simple, effective idea: to deliver effective younger cells to aging skin that are capable of performing a specialized function in the synthesis of collagen and glycosaminoglycans.

In the work of G. Keller et al., Patients aged 37-61 years old were injected with autologous fibroblasts isolated from the skin of patients with obtaining a persistent clinical effect. In animal experiments, the absence of oncogenic and tumorigenic properties of autologous fibroblasts was proved (Bulletin of Experimental Biological Medicine 2000, 130 (8), pp. 203-206). A.A. Zgursky and E.A. Krikheli used a culture of autologous skin fibroblasts to correct age-related changes in the skin of the face and neck area for patients aged 40-60 years ("The use of autogenous fibroblasts in cosmetology", published in the journal "Aesthetic Medicine", t.3 No. 4, p.336-342, 2004). When monitoring patients for 12 months, a persistent positive effect was noted, manifested in the disappearance of small wrinkles and a reduction in large wrinkles, as well as in an overall improvement in the condition of the skin.

The closest is a method of obtaining a drug for mesotherapy, including the allocation of autologous human fibroblasts for intradermal administration to their patient, patented by the American company "ISOLAGEN TECHNOLOGIES Inc." (US Patent No. 5660850, publ. 08/26/1997, "Use of autologous dermal fibroblasts for the repair of skin and soft tissue defects).

A preparation for mesotherapy is also known from this patent, including autologous human fibroblasts for intradermal administration to a patient.

Work began in 1995. By 1999, multicenter, double-blind, placebo-controlled clinical trials were conducted that proved the effectiveness and safety of the method. Efficiency was proved by a significant decrease in skin relief (measured by laser profilometry), thickening of the dermal layer, an increase in the number of fibroblasts and collagen density in it, as well as a subjective assessment of patients. According to histological indicators, the effect remains noticeable 3 years after treatment, in others - up to 7 years. In the known method, autologous fibroblasts obtained from the skin of donors are immediately intradermally administered to the patient immediately after their preparation.

However, the disadvantage of introducing autologous fibroblasts is the low proliferative potential, especially in a culture isolated from the skin of elderly donors, from this point of view, in order to achieve an optimal anti-aging effect, it is necessary to use "young" cells that have a greater proliferative potential compared to cultures obtained from adults donors. In addition, with the introduction of autologous fibroblasts from donors, expression of histocompatibility antigens is possible.

The best results of cell therapy are achieved using cultures of embryonic fibroblasts, but the use of embryonic cells in Russia is prohibited by the law on "cloning" and is not used for ethical reasons.

The problem solved by the invention is to improve the quality of the resulting preparation and enhance the anti-aging effect.

The technical result that can be obtained by implementing the claimed method is to improve the quality indicators of the preparations obtained, such as the persistence of the clinical effect with mesotherapy, accelerating the manifestation of the effect of skin elasticity.

The technical result that can be obtained in the manufacture of the drug is to increase its proliferative potential and decrease the expression of histocompatibility antigens, increase the volumetric capillary blood flow of the skin, accelerate the manifestation of the effect of skin elasticity and reduce the course of mesotherapy when using the claimed drugs.

An additional technical result that can be achieved is an increase in the shelf life of the drug before a mesotherapy session.

To solve the problem with achieving the specified technical result according to the first embodiment, in the known method for producing a preparation for mesotherapy, comprising isolating a human fibroblast culture for intradermal administration to a patient, according to the invention, allogeneic fibroblasts are isolated from the umbilical cord of a newborn after normal delivery.

Additional embodiments of the method are possible, in which it is advisable that:

- the allocation of allogeneic fibroblasts was made from the umbilical cord of a newborn after normal birth at 39-40 weeks of gestation;

- when allocating allogeneic fibroblasts from the umbilical cord of a newborn, the veins were cannulated on both sides and washed first with Hanks solution and then with 0.1% type 1 collagenase solution prepared in serum free DMEM and incubated at 37 ° C for 30 minutes, then they carry out mechanical action on the umbilical cord tissue, the separated cells are collected by washing them with Hanks solution, the suspension of cells obtained after mechanical action and washing is centrifuged at 1000 rpm for 5 minutes to obtain a cell pellet th resuspended in DMEM growth medium containing 10% fetal bovine serum, 100 units / ml penicillin, 100 units / ml streptomycin, 2 mM glutamine, 1 mM sodium pyruvate, 10 ng / ml basal bFGF fibroblast growth factor, resuspended the cell pellet in the DMEM growth medium is transferred to culture dishes and cultured until a monolayer is formed, changing the DMEM growth medium 2 times a week, and when the monolayer is reached, the cells are reseeded in a ratio of 1: 3;

- before a mesotherapy session, the monolayer was suspended in a suspension by treatment with a mixture of Versen's solution and 0.25% trypsin solution in a 1: 1 ratio for 20 min at 37 ° C, which was then washed three times with physiological saline with a pH of 7.2, then the suspension was precipitated by centrifugation for 5 min at 1000 rpm, the cell pellet was resuspended in sterile biological solution NCTF-135, obtaining allogeneic human fibroblasts for intradermal administration to the patient in the amount of 1-5 million cells in 5 ml.

To solve the problem with achieving the specified technical result according to the second embodiment, in the known method for producing a preparation for mesotherapy, comprising isolating a human fibroblast culture for intradermal administration to a patient, according to the invention, allogeneic fibroblasts are isolated from the umbilical cord of a newborn after normal delivery, and autologous fibroblasts of the patient are isolated that are mixed with allogeneic fibroblasts from the umbilical cord of a newborn.

Additional embodiments of the method according to the second embodiment are possible, in which it is advisable that:

- when allocating allogeneic fibroblasts from the umbilical cord of a newborn, the veins were cannulated on both sides and washed first with Hanks solution and then with 0.1% type 1 collagenase solution prepared in serum free DMEM and incubated at 37 ° C for 30 minutes, then they carry out mechanical action on the umbilical cord tissue, the separated cells are collected by washing them with Hanks solution, the suspension of cells obtained after mechanical action and washing is centrifuged at 1000 rpm for 5 minutes to obtain a cell pellet th resuspended in DMEM growth medium containing 10% fetal bovine serum, 100 units / ml penicillin, 100 units / ml streptomycin, 2 mM glutamine, 1 mM sodium pyruvate, 10 ng / ml basal bFGF fibroblast growth factor, resuspended the cell pellet in the DMEM growth medium is transferred to culture dishes and cultured until a monolayer is formed, changing the DMEM growth medium 2 times a week, and when the monolayer is reached, the cells are reseeded in a ratio of 1: 3;

- before a mesotherapy session, the monolayer was suspended in a suspension by treatment with a mixture of Versen's solution and 0.25% trypsin solution in a 1: 1 ratio for 20 min at 37 ° C, which was then washed three times with physiological saline with a pH of 7.2, then the suspension was precipitated by centrifugation for 5 min at 1000 rpm, the cell pellet was resuspended in sterile biological solution NCTF-135, obtaining allogeneic human umbilical cord fibroblasts in the amount of 1-5 million cells in 2.5 ml - the first semi-finished product;

- when autologous fibroblasts were isolated from the patient himself, his skin fragment was used, which was washed with Versen's solution with the addition of antibiotics 100 units / ml penicillin, 100 units / ml streptomycin, 100 units / ml amphotericin for 1 hour at room temperature with shaking on a shaker , then the skin fragment is crushed to obtain a homogenate, to which a 0.1% type 1 collagenase solution prepared on serum free DMEM is added and incubated therein at 37 ° C for 2 hours to obtain a suspension that is centrifuged at 1000 rpm for 5 minutes, obtaining a cell pellet that is resuspended in DMEM growth medium containing 10% fetal bovine serum, 100 units / ml penicillin, 100 units / ml streptomycin, 2 mM glutamine, 1 mM sodium pyruvate , 10 ng / ml of basal fibroblast growth factor bFGF, the resuspended cell pellet in DMEM growth medium is transferred to culture dishes and cultured until a monolayer is formed, changing the medium 2 times a week, when the monolayer is reached, the cells are reseeded in a 1: 3 ratio;

- before the mesotherapy session, the monolayer of cells of the patient was transferred into suspension by treatment with a mixture of Versen's solution and 0.25% trypsin solution in a 1: 1 ratio for 20 min at 37 ° C, which is then washed three times with physiological saline with a pH of 7.2, then the suspension is precipitated by centrifugation for 5 min at 1000 rpm, the cell pellet is resuspended in sterile biological solution NCTF-135, obtaining autologous human fibroblasts in the amount of 1-5 million cells in 2.5 ml - the second semi-finished product;

- allogeneic fibroblasts from the umbilical cord of the newborn - the first semi-finished product and autologous fibroblasts of the patient himself - the second semi-finished product was mixed with each other in the ratio 1: 1, getting the finished drug in the amount of 1-5 million cells in 5 ml.

Accordingly, the known preparation for mesotherapy obtained in the first embodiment of the method, comprising a culture of human fibroblasts for intradermal administration to a patient, according to the invention, allogeneic fibroblasts obtained from the umbilical cord of a newborn are used in it as a culture of human fibroblasts.

Accordingly, the preparation for mesotherapy obtained according to the second embodiment of the method, comprising a culture of human fibroblasts for intradermal administration to a patient, according to the invention, a mixture of allogeneic fibroblasts obtained from the umbilical cord of a newborn and autologous fibroblasts obtained from the skin of the patient itself is used as a culture of human fibroblasts.

These advantages, as well as features of the present invention are illustrated by the best option for its implementation with reference to the accompanying drawings.

Figure 1 depicts a graph of changes in skin elasticity averaged for various patients before and 14 days after a mesotherapy session with allogeneic umbilical cord fibroblasts.

Figure 2 - the same as figure 1, after a mesotherapy session with a mixture of allogeneic fibroblasts from the umbilical cord and autologous fibroblasts of the patient.

Figure 3 is a photograph of the patient's face before (left) and after (right) mesotherapy with allogeneic umbilical cord fibroblasts.

Figure 4 is a photograph of the patient’s face before (left) and after (right) mesotherapy with a mixture of allogeneic fibroblasts obtained from the umbilical cord of a newborn and autologous fibroblasts obtained from the skin of the patient himself.

A method of obtaining a drug for mesotherapy is implemented as follows.

First, a donor (the patient himself) is tested before taking biological material - the skin.

Blood samples of donors are examined for the presence of markers of the following infectious agents:

hepatitis B and C viruses,

human immunodeficiency virus (HIV) types 1 and 2,

herpes simplex virus types 1, 2 and 6,

Epstein-Barr virus,

cytomegalovirus and Toxoplasma gondi,

syphilis.

When sampling the umbilical cord to obtain allogeneic fibroblasts, in addition to the above analyzes of blood samples, donors (mothers) study the scraping of the cervical canal for the presence of markers of ureoplasma, chlamydia and mycoplasma.

The detection of infections such as HIV, syphilis, as well as acute forms of hepatitis B and C, was an absolute contraindication for the cultivation of biological material and the introduction of the obtained cells - autologous fibroblasts to the recipient.

If other infectious agents are detected in the donor or in the presence of antibodies to them, the doctor makes a decision on the cultivation of biological material and the possibility of introducing a cell preparation to the recipient. In our study, the identification of any infectious agents or antibodies to them was an absolute contraindication for the cultivation of biological material.

Obtaining and culturing allogeneic umbilical cord fibroblasts is as follows.

Samples of the human umbilical cord are collected after normal delivery at 38–40 weeks of gestation to obtain allogeneic fibroblasts after normal delivery. After ligation and cutting, the umbilical cord is placed in a sterile container containing Hanks solution with penicillin 100 mg / ml, streptomycin 100 mg / ml and amphotericin 100 mg / ml and transferred to ice in a laboratory. The umbilical cord is freed from blood residues and washed thoroughly in Versen's solution with the addition of antibiotics 100 units / ml penicillin, 100 units / ml streptomycin, 100 units / ml amphotericin) for 1 hour at room temperature on a shaker. Veins cannulated on both sides and washed first with Hanks solution and then with 0.1% type 1 collagenase solution prepared on serum free DMEM (Dulbecco's modified Eagle medium) and incubated at 37 ° C for 30 minutes, then carried out mechanical impact on the umbilical cord tissue, the separated cells are collected, washing them with Hanks solution. The cell suspension obtained after mechanical action and washing is centrifuged at 1000 rpm for 5 minutes to obtain a precipitate that is resuspended in growth medium: DMEM (Dulbecco's modified Eagle medium) containing 10% fetal cattle serum, 100 units / ml penicillin, 100 units / ml streptomycin, 2 mM glutamine, 1 mM sodium pyruvate, 10 ng / ml basal fibroblast growth factor bFGF (FGF - Fibroblast Growth Factore) (bFGF - Basic Fibroblast Growth Factore /). The resuspended cell pellet in the growth medium is transferred to culture dishes and cultured until a monolayer is formed, changing the growth medium 2 times a week. Upon reaching the monolayer, the cells are subcultured in a ratio of 1: 3.

Before a mesotherapy session, the cell monolayer is treated with a mixture of Versen's solution and 0.25% trypsin solution (1: 1) for 20 min at 37 ° C, obtaining a cell suspension, which is then washed three times with physiological saline with a pH of 7.2. Cells are then pelleted by centrifugation for 5 minutes at 1000 rpm. The cell pellet is resuspended in sterile biological solution NCTF-135 in the amount of 1-5 million cells in 5 ml, obtaining the first version of the finished product for mesotherapy.

NCTF-135 'instant beauty cocktail' 2865 B (Drug Laboratories FILORGA). Ingredients: vitamins (16), nucleic acids (5), minerals (4), amino acids (23), coenzymes (coenzymes), antioxidants, namely vitamins: C, A, K, B2, B5, B7, B9, B12, E, B1, B3, PP, Bb, B8, H, B10, amino acids: aminobutyric, asparaginic, glutamic, alanine, arginine, asparagine, syrin, cystine, glutamine, glycol, hydroxyproline, histidine, isoleucine, leucine, lysine, methionine, ornithine, phenylalanine, proline, taurine, trionin, tryptophan, tyrosine, valine, coenzymes: coenzyme A, NAD, NADP, cocarboxylase, FAD, ATP, antioxidants: ascorbic acid, glutathione, nucleic acid you are deoxyguanosine, deoxyadenosine, deoxycystidine, thymidine, methylcytosine, minerals: calcium, magnesium, potassium, sodium.

The finished product is stored up to 72 hours after its preparation at a temperature of + 4 ° C to + 10 ° C.

Obtaining autologous fibroblasts from biological material of the patient himself is as follows.

Using a disposable surgical blade, a piece of skin 3 × 3 mm is taken from the inner surface of the forearm or from the buttock. Another option for collecting primary material for the isolation of autologous fibroblasts is with a disposable small diameter biopsy needle. The skin fragment is washed with Versen's solution with the addition of antibiotics (100 units / ml penicillin, 100 units / ml streptomycin 100 units / ml, 100 units / ml amphotericin) for 1 hour at room temperature with shaking on a shaker. Then the skin fragment is ground with scissors. A 0.1% type 1 collagenase solution prepared in DMEM was added to the homogenate and incubated for 2 hours. Then centrifuged at 1000 rpm for 5 minutes. The cell pellet is resuspended in a growth medium: DMEM containing 10% fetal bovine serum, 100 units / ml penicillin, 100 units / ml streptomycin, 2 mM glutamine, 1 mM sodium pyruvate, 10 ng / ml basal bFGF fibroblast growth factor . The cell suspension in the growth medium is transferred to culture dishes. Cultivation is carried out until a monolayer is formed, changing the growth medium 2 times a week. Upon reaching the monolayer, the cells are subcultured in a ratio of 1: 3.

Before a mesotherapy session, the cell monolayer is treated with a mixture of Versen's solution and 0.25% trypsin solution (1: 1) for 20 min at 37 ° C, obtaining a cell suspension, which is then washed three times with physiological saline with a pH of 7.2. Cells are then pelleted by centrifugation for 5 minutes at 1000 rpm. The pellet is resuspended in sterile biological solution NCTF-135 in an amount of 1-5 million cells in 2.5 ml, obtaining a second semi-finished product.

To obtain the preparation according to the second variant, the first semi-finished product obtained from the umbilical cord and the second semi-finished product obtained from the skin of the patient proper are mixed with each other in a ratio of 1: 1, obtaining the second version of the finished preparation for mesotherapy.

Thus, when mixing cultures of cells obtained from the umbilical cord and from the skin of the patient proper, in a ratio of, for example, 1: 1, a mesotherapy preparation (cocktail) is obtained, including autologous human fibroblasts for intradermal administration to their patient, in which, as autologous human fibroblasts a mixture of autologous fibroblasts obtained from the umbilical cord of the newborn and from the skin of the patient itself was used.

As studies have shown, the resulting preparations can be stored, in contrast to known analogues, for 72 hours at a temperature of + 4 ° C to + 10 ° C.

Due to the use of allogeneic umbilical fibroblasts in these preparations, it is possible to increase their proliferative potential and reduce the expression of histocompatibility antigens, increase the volumetric capillary blood flow of the skin, and accelerate the manifestations of the effect of skin elasticity. Due to the use of autologous fibroblasts obtained from the skin of the patient in the second preparation, it is possible to further reduce the expression of histocompatibility antigens. Since the use of cultures of embryonic fibroblasts is prohibited, the most optimal for obtaining a rejuvenating effect are allogeneic fibroblasts obtained from the umbilical cord. They belong to the "young" cells, are not oncogenous, have a limited life span and low expression of histocompatibility antigens.

The resulting preparations passed the following tests.

Virological studies for the presence of markers of hepatitis B and C viruses, human immunodeficiency virus (HIV) types 1 and 2, herpes simplex virus types 1,2 and 6, Epstein-Barr virus, cytomegalovirus, Toxoplasma Gondi.

Bacteriological examination for the presence of aerobic and anaerobic microflora, as well as microscopic fungi.

A certificate of conformity is issued for each drug, indicating the results of the culture examination, the volume of the drug, cell concentration, and the shelf life of the drug. At the preclinical stage, cell preparations were tested for acute toxicity and pyrogenicity in animals.

All operations for the preparation of cell preparations for mesoteralia are carried out in sterile culture box conditions.

The finished suspension is administered using multiple intradermal injections (mesotherapy technique). A mesotherapy session is carried out in the treatment room in the position of the patient lying or sitting without prior anesthesia. The drug is administered using syringes from 5.0 to 20.0 ml in volume with special needles for intradermal injection (27-30G). The drug is injected into the skin to a depth of 2-4 mm in small doses. The volume of the injected solution in one injection should be 0.02-0.05 ml. When administering the drug, it is advisable to use the micropapule technique or tracer technique, since only when using these techniques it is possible to create the necessary depot of the drug in the tissues.

Using the micropapule technique, the finished suspension is injected intradermally with separate injections to form papules. Injections are carried out over the entire surface of the face, neck and decollete at a distance of 10-15 mm from each other. The syringe and needle are tangential to the skin, with the needle cut upward. Pressure on the piston is carried out by the thumb of the working hand. The drug is introduced into the papillary dermis to a depth of 2-4 mm.

When using tracing technique, a controlled intradermal linear injection is used both under wrinkles and in the area of problem areas. A 13 mm long needle is inserted tangentially to the skin, cut up. The drug is injected at the exit of the needle (retrograde) to a depth of 2 mm.

The number of cells in the finished suspension is 1-2-5 million cells in 5 ml of sterile biological solution NCTF-135.

The course of mesotherapy using cellular material is designed for 3 procedures with an administration interval of 1 month. The effect of the drug administration begins to appear after 1-2 weeks and gradually increases, achieving a stable clinical effect after 1 month from the first injection. In patients with pronounced involutional changes and the absence of a persistent clinical effect from the 1st injection for 1 month, it is recommended to increase the dose during the second injection to 5.0 × 10 ⁶ cells in 5 ml of solution.

The results of the use of drugs were evaluated in 98 patients with involutional changes in the skin of the face.

To objectify the assessment of such parameters as turgor and elasticity, microcirculation, density and uniformity of the facial skin before and after mesotherapy with autologous fibroblasts, modern instrumental research methods were used:

- elastometry, Elastometr ^R EM 25 of the company "Courage + Khazaka electronic GmbH" (Germany),

- laser Doppler flowmetry, single-channel laser Doppler flowmeter of the company "Transonic System Inc" (USA).

Changes in the skin elasticity of patients after mesotherapy using autologous fibroblasts are presented in Figs. 1 and 2, where Fig. 1 shows a graph of changes in skin elasticity averaged for different patients before and 14 days after a mesotherapy session with autologous (allogeneic) umbilical fibroblasts, and figure 2 - after a mesotherapy session with a mixture of autologous fibroblasts from the umbilical cord and the patient himself. As can be seen from figures 1 and 2, the indicators of skin elasticity for both drugs are almost the same. The skin elasticity 14 days after the administration of drugs increased by 18-27% at different points in the face, the effect of increasing elasticity persisted for 3-8-12 months after the course of cell therapy. Further studies of persistence are not yet complete, as studies of these new drugs were carried out during 2005 alone.

Indicators of volumetric capillary blood flow of the skin were evaluated using laser Doppler flowmetry within 14 days and 3 months after mesolifting using drugs and are presented in the table.

Measuring points / volumetric capillary blood flow of the skin (ml / min · 100 g) Before mesolifting Mesolifting after 14 days
↑ Mesolifting after 6 months
↑ one 7.5 ± 3.3 8.2 ± 3.1 8 ± 3.3 2 1,0,5 ± 4,6 11 ± 0.9 11.6 ± 0.9 3 7.6 ± 2.1 8 ± 2.4 8.8 ± 2.1 four 7.2 ± 2.6 7.9 ± 2.1 11.6 ± 1.3 5 6.5 ± 2.7 7 ± 1.3 5.9 ± 1.8 6 6.6 ± 0.6 7.2 ± 2.3 8.0 ± 0.8 7 6.3 ± 0.8 7.9 ± 2.1 7.3 ± 1.9 8 6.6 ± 1.9 8.4 ± 2.1 7.4 ± 0.9

During the control examination of patients 14 days after the mesotherapy session using cellular material, an increase in the volumetric capillary blood flow of the facial skin was observed at all points of the study (p <0.1). At the control examination after 6 months, an increase in the volumetric capillary blood flow at all points remained (p = 0.1). P - student criterion of the reliability of the results. In this case, the meaning is p <0.1: with a probability of more than 90%, the differences are significant or the probability of unreliability of the differences is less than 10%.

The degree and speed of the onset of the clinical effect depended on the initial state of the patient's skin. A weak and short-term clinical effect was observed in patients whose skin tone was significantly reduced and marked deformation of the face oval was observed. In this case, the dose of the finished suspension should be increased to 5.0 × 10 ⁶ in 5 ml of physiological saline upon repeated injection after 1 month. The results obtained by subjective and objective assessment methods coincided.

Example 1. Patient A. 64 years old (figure 3) with pronounced age-related changes in the skin of the face. A course of mesotherapy with allogeneic umbilical cord fibroblasts at a dose of 3.0 million cells in 5.0 ml of physiological saline solution was prepared.

After the course of mesotherapy, an increase in skin elasticity by 15-21% and an improvement in microcirculation were noted, small wrinkles in the area of the corner of the eye disappeared, nasolabial folds were smoothed out, an increase in the effect was noted after 6 and 12 months of the study.

Example 2. Patient B. 36 years old (figure 4) with age-related skin changes of 2 degrees, vitiligo. A course of mesotherapy was carried out with a mixture of allogeneic fibroblasts from the umbilical cord of the newborn and autologous fibroblasts and the patient herself at a dose of 1.0 million cells in 5.0 ml of physiological saline, after 1 and 3 months an increase in skin elasticity by 28-34%, improvement in microcirculation, pigmentation disappeared , complexion improved, small wrinkles in the paraorbital region and forehead, bags under the eyes disappeared.

Thus, the proposed methods for the preparation of drugs and the preparations for mesotherapy obtained by these methods allow the correction of age-related changes in the skin of the face using only allogeneic fibroblasts or using autologous or allogeneic fibroblasts, authorize the start of skin self-regulation processes. According to objective instrumental studies, the structure of the skin improves, its elasticity is restored, microcirculation increases, which subjectively leads to improved color and strengthened facial contours.

The most successful claimed methods for producing drugs for mesotherapy and these drugs are industrially applicable in surgical cosmetology.

Claims (5)

1. A method of obtaining a drug for mesotherapy, including the isolation of a culture of human fibroblasts for intradermal administration to a patient, characterized in that the allocation of allogeneic fibroblasts is made from the umbilical cord of a newborn after normal birth, for which, when allogeneic fibroblasts are isolated, they are produced from the umbilical cord of a newborn vein, cannulated from both sides and washed first with Hanks solution, and then with a 0.1% type 1 collagenase solution prepared in DMEM, and incubated at 37 ° C for 30 min, then carried out they reveal the mechanical effect on the umbilical cord tissue, the separated cells are collected by washing them with Hanks' solution, the suspension of cells obtained after mechanical action and washing is centrifuged at 1000 rpm for 5 min, obtaining a cell pellet that is resuspended in DMEM growth medium containing 10% fetal cattle serum, 100 units / ml penicillin, 100 units / ml streptomycin, 2 mM glutamine, 1 mM sodium pyruvate, 10 ng / ml basal fibroblast growth factor bFGF, resuspended cell pellet in DMEM growth medium they are sown in culture dishes and cultivated until a monolayer is formed, changing DMEM growth medium 2 times a week, and when the monolayer is reached, the cells are subcultured in the ratio 1: 3, and before the mesotherapy session the monolayer is transferred into suspension by treatment with a mixture of Versen and 0.25% trypsin solution in a ratio of 1: 1 for 20 min at 37 ° C, which is then washed three times with physiological saline with a pH of 7.2, then the suspension is precipitated by centrifugation for 5 min at 1000 rpm, the cell pellet is resuspended in a sterile biological ohm solution of NCTF - 135, receiving allogeneic human umbilical cord fibroblasts for intradermal administration to the patient in the amount of 1-5 million cells in 5 ml. 2. The method according to claim 1, characterized in that the allocation of allogeneic fibroblasts is made from the umbilical cord of a newborn after normal delivery at 39-40 weeks of gestation. 3. A method of obtaining a preparation for mesotherapy, including the isolation of a culture of human fibroblasts for intradermal administration to a patient, characterized in that the allocation of allogeneic fibroblasts is made from the umbilical cord of the newborn after normal delivery, the autologous fibroblasts of the patient are isolated, which are mixed with allogeneic fibroblasts from the umbilical cord of the newborn while the allocation of allogeneic fibroblasts from the umbilical cord of a newborn, the veins are cannulated on both sides and the solution is washed first Ohms Hanks, and then with a 0.1% type 1 collagenase solution prepared on DMEM medium and incubated at 37 ° C for 30 minutes, then the umbilical cord tissue is mechanically exposed, the separated cells are collected, washing them with Hanks solution obtained after mechanical action and washing, the cell suspension is centrifuged at 1000 rpm for 5 min to obtain a cell pellet that is resuspended in DMEM growth medium containing 10% fetal cattle serum, 100 units / ml penicillin, 100 units / ml streptomycin, 2 mM gluten per 1 mM sodium pyruvate, 10 ng / ml of basal fibroblast growth factor bFGF, the resuspended cell pellet in DMEM growth medium is transferred to culture plates and cultured until a monolayer is formed, changing DMEM growth medium 2 times a week, and when the monolayer is reached, the cells are re-plated 1: 3 ratio, and before conducting a mesotherapy session, the monolayer is suspended in a suspension by treatment with a mixture of Versen's solution and 0.25% trypsin solution in a 1: 1 ratio for 20 minutes at 37 ° C, which is then washed three times with physiological saline with H, 7.2, then the suspension is precipitated by centrifugation for 5 min at 1000 rpm, the cell pellet is resuspended in sterile biological solution NCTF - 135, obtaining allogeneic human umbilical cord fibroblasts in the amount of 1-5 million cells in 2.5 ml - the first semi-finished product , when autologous fibroblasts are isolated from the patient himself, his skin fragment is used, which is washed with Versen's solution with the addition of antibiotics 100 units / ml penicillin, 100 units / ml streptomycin, 100 units / ml amphotericin for 1 h at room temperature with shaking on the cord Kere, then the skin fragment is crushed to obtain a homogenate, to which a 0.1% type 1 collagenase solution prepared on DMEM medium is added, and incubated therein at 37 ° C for 2 hours to obtain a suspension, which is centrifuged at 1000 rpm / min for 5 min, obtaining a cell pellet that is resuspended in DMEM growth medium containing 10% fetal bovine serum, 100 units / ml penicillin, 100 units / ml streptomycin, 2 mM glutamine, 1 mM sodium pyruvate, 10 ng / ml basal fibroblast growth factor bFGF, resuspended pellet in growth DMEM medium is transferred into culture dishes and cultured until a monolayer is formed, changing the medium 2 times a week, when the monolayer is reached, the cells are reseeded in the ratio 1: 3, and before the mesotherapy session the monolayer is transferred into suspension by treatment with a Versen solution and 0.25% - trypsin solution in the ratio 1: 1 for 20 min at 37 ° С, which is then washed three times with physiological saline with a pH of 7.2, then the suspension is precipitated by centrifugation for 5 min at 1000 rpm, the cell pellet is resuspended in a sterile biological com solution NCTF - 135, receiving autologous human fibroblasts in the amount of 1-5 million cells in 2.5 ml - the second semi-finished product, then allogeneic fibroblasts from the umbilical cord of the newborn - the first semi-finished product, and the autologous fibroblasts of the patient themselves - the second semi-finished product is mixed together in a ratio of 1 : 1, getting the finished drug in the amount of 1-5 million cells in 5 ml. 4. A preparation for mesotherapy, including a culture of human fibroblasts for intradermal administration to their patient, characterized in that allogeneic fibroblasts obtained from the umbilical cord of a newborn in the amount of 1-5 million cells in 5 ml are used as a culture of human fibroblasts. 5. The drug for mesotherapy, including a culture of human fibroblasts for intradermal administration to their patient, characterized in that as a culture of human fibroblasts a mixture of allogeneic fibroblasts obtained from the umbilical cord of a newborn and autologous fibroblasts from the patient’s skin in a ratio of 1: 1 in an amount of 1 -5 million cells in 5 ml.

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