The purpose of the study was to investigate the method of osteosynthesis using glues. Materials and methods. The simplest and most effective method in the treatment of traumatological patients is a plaster fixing bandage of different variations. This is a conservative type of treatment. Also, a very common method in the treatment of orthopedic and traumatological patients is the surgical method. Modern high-tech methods of osteosynthesis require a thorough preoperative examination of the patient, conducting a 3D tomographic examination for intra-articular fractures, clear planning of the course of surgical intervention, electro optical probing techniques during the operation, the availability of tool kits for installing retainers, the ability to choose a retainer intraoperative in the size range. An orthopedic-traumatologist and the entire operating team need appropriate training. All operational fixation methods must provide adequate stability to maintain axis length and rotation. Results and discussion. In the world practice, biological glues are used in such areas as abdominal surgery, neuro- and cardiac surgery, plastic and pediatric surgery, orthopedics and traumatology. Cyanocrylate glues have undergone extensive experimental clinical testing. Positive characteristics of cyanoacrylate glues are the ability to glue living tissues in a humid environment, polymerization rate, autosterility, bactericidal, absence of histotoxicity, hemostatic effect. Another glue in the review is sulfacrylate. It can be used in patients of any age, starting from newborns, regardless of the pathogenesis of the disease. Venaseal glue, used by many authors to treat fistulas of the gastrointestinal tract. Widely used fibrin glues, such as Evicel, are used to achieve hemostasis and sealing in surgery, for example, in vascular operations, kidney resection and neurosurgical interventions, in the surgical treatment of distal hypospadias in children. BioGlue glue is designed to seal surgical sutures, thereby preventing fluids (exudate, lymph, urine, gastric juice) and / or air from leaking through them. It is also used in liver surgery. At the moment, the use of bone cement is the most common auxiliary method for surgical interventions. But its side effects are very clear. Bone cement can cause the patient to die on the operating table or, in the postoperative period, in intensive care. This is due to an immediate or rapid allergic reaction. This situation is dangerous for humans. Biological glues are not so toxic and do not cause such allergic reactions Conclusion. The search for new materials and techniques for consolidating bone fragments is one of the most important problems of modern medical science, namely orthopedics and traumatology. Substances that are included in the biological glue must be bioinert, contain elements of strength (for holding fragments), looseness of the structure (for germination of capillaries between fragments), natural antibiotic (for antibiotic prevention), activators of hematopoiesis processes (for the fastest callus), organic and inorganic substances (for the building material of bone tissue). Therefore, the desire to improve treatment and improve its results, in particular in orthopedics and traumatology, is the key to the development of modern medicine

Keywords: biological glue, bone tissue, consolidation, orthopedics and traumatology

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1. Tarasenko OM. Assessment of the consequences of spinal cord injury using the International Classification of functioning in the practice of medical and social expertise. Ukrainian Neurosurg J. 2016; 4: 13-17.
2. Guyton and Hall Textbook of Medical Physiology (2nd Edition). Philadelphia, PA: 2018. 1136 p.
3. Muller ME, Algover M, Schneider R, Wilinegger X. A Guide to internal osteosynthesis. Methodology recommended by the AO Group. Switzerland; 1996. 752 p.
4. Igli GG, Buryanova OA, Klimovitsky VG. Traumatology and Orthopedics. Textbook for students. higher medical educational institutions. Vinnitsa; Nova knyha: 2018. 408 p.
5. Samartsev VA, Kadintsev IV, Voluzhenkov EG. Posleoperatsionnye oslozhneniya metalloosteosinteza konechnostey [Postoperative complications of limb metal osteosynthesis]. J Clin Med. 2018; 35(3): 5-8. https://doi.org/10.17816/pmj3535-8
6. So D, Dr. Yu C. Bone cement implantation Syndrome. Anesthesia Tutorial of the Week. Hong Kong; 2017 p. Available from: https://resources.wfsahq.org/atotw/bone-cement-implantation-syndrome/
7. Podoluzhny VI, Zaikov IN, Arinchev RS, Volodin VV, Solovenko SS. Istoriya kliniko-eksperimentalnogo primeneniya biologicheskikh i sinteticheskikh meditsinskikh kleev [History of clinical and experimental application of biological and synthetic medical glues]. Biotechnologies in Medicine. 2008; 3: 12-14.
8. Shchipitsyn SI, Shchirov VM, Tarasenko OM. Large scalped wound of the temporal-parietal-occipital region of the head in a child. Ukr Neurosurg J. 2007; 2: 64. https://doi.org/10.25305/unj.130688
9. Tarasenko OM. Khrebetno-spynnomozkova travma (klinichna epidemiolohiya, dovhostrokovi rezultaty likuvannya, medyko-sotsialna ekspertyza ta reabilitatsiya) [Spinal cord injury (Clinical epidemiology, long-term results, treatment, medical and social expertise and rehabilitation). Abstr. Dr. Sci. (Med.). K; 2017. 38 s. [Ukrainian]
10. Poltoratskaya OV. Medychnyyi kley Sulfakrylat [Medical glue Sulfacrylate]. Ukr Neurosurgical Journal. 2014; 1: 66-69. [Ukrainian]. https://doi.org/10.25305/unj.51538
11. Zirau U, Dr. Martell L, Lal W. Saphenion Science-7 years Venaseal – our experience of 2359 varicose veins. Berlin: Rostock; 2019. Available from: https://www.saphenion.de/
12. Kagantsov IM, Sizonov VV, Surov RV, Zadykyan RS, Svarich VG, Sannikov IA, et al. Pervyy opyt ispolzovaniya fibrinovogo kleya v khirurgicheskom lechenii gipospadii u detey [First experience of using fibrin glue in the surgical treatment of hypospadias in children]. J Exp Clin Urolog. 2021; 2: 118-123. [Russian]. https://doi.org/10.29188/2222-8543-2021-14-2-118-123
13. Abdulaev EM. Primenenie fibrinovogo kleya v profilaktike nesostoyatelnosti zheludochno-kishechnykh anastomozov [Application of fibrin glue in the Prevention of failure of gastrointestinal anastomoses]. Abstr. PhDr. (Med.). M: 2017. 22 p. [Russian]
14. Timoshenkova AV, Kuzmin MV, Katanov ES. Otsenka biliostaticheskikh svoystv sovremennykh topicheskikh gemostaticheskikh sredstv, primenyaemykh v khirurgii pecheni [Evaluation of biliostatic properties of modern topical hemostatic agents used in liver surgery]. Perm Med J. 2018; 1(35): 102-107. https://doi.org/10.17816/pmj351%25p
15. Cristea S, Groseanu F, Prundeanu A, Predescu V, Gavrila M, Gartonea D, et al. A new approach in the miniminvasive treatment of fracture. Eur J Orthop Surg Traumatol. 2012; 22(4): 283-287.