[Closing of nasal septum perforation using adipose stromal vascular fraction: an experimental study]. / Zakrytie perforatsii peregorodki nosa s primeneniem stromal'no-vaskulyarnoi zhirovoi fraktsii: eksperimental'noe issledovanie.

Nasal septal perforation (NSP) is a complex problem in otorhinolaryngology, which leads to impaired nasal breathing and dryness in the nose. This reduces the patient's quality of life and leads to psychological discomfort. The treatment of nasal septum perforation is selected taking into account the clinical manifestations, perforation parameters and general condition of the patient. Currently, a large number of different surgical methods have been described in order to closing the defect of nasal septum. To date, there is no universally accepted method for closing NSP, which stimulates the search and development of new treatment options. OBJECTIVE: Under experimental conditions, to study a new method for closing nasal septum perforation using a collagen scaffold together with adipose stromal vascular fraction containing multipotent mesenchymal stromal cells. MATERIAL AND METHODS: The experiment was carried out on a model of nasal septum perforation in 24 male rabbits divided into four groups, depending on the construct, implanted into the defect zone: the 1st group was the control group - without the introduction of implantation material; the 2nd group - collagen scaffold without adipose stromal vascular fraction; the 3rd group - collagen scaffold with xenogenic adipose stromal vascular fraction; the 4th group - collagen scaffold with allogeneic adipose stromal vascular fraction with further dynamic evaluation of endoscopic control on day 14, after 1 month, 3 months, and 6 months. At month 6, the animals were removed from the experiment, followed by morphological examination in color with hematoxylin and eosin, as well as safranin and methyl green. RESULTS: As a result of the experiment using adipose stromal vascular fraction of allogeneic and xenogenic origin, closing of perforation of the nasal septum of a rabbit for 3 months of dynamic endoscopic control, as well as according to morphological research, was demonstrated. CONCLUSION: Our study showed that the use of adipose stromal vascular fraction containing not only endothelial cells and pericytes, but also multipotent mesenchymal stromal cells in combination with a collagen scaffold closes the perforation of the nasal septum in a rabbit, without increasing the risk of violations of habitual vital activity.

[Experimental evidence for regenerative treatment of chronic tympanic membrane perforation]. / Eksperimental'noe obosnovanie metoda tkanevoi inzhenerii dlya zakrytiya stoikikh perforatsii barabannoi pereponki.

OBJECTIVE: The aim of our study was an experimental evaluation of tissue engineering approach to chronic tympanic membrane perforation closure. MATERIALS AND METHODS: Chronic tympanic membrane perforation models were created both sides in 12 chinchillas. Right sided perforations were divided into two equal groups (A and B) according to treatment; left sided perforations were used as a control group. Group A perforations were treated with collagen scaffold and fibroblast growth factor, group B perforations were treated with collagen scaffold only. During follow-up, we provided otovideoendoscopy for closure rates assessement every 2 weeks. In case of perforation closure, a morphological investigation of the regenerate was performed. RESULTS: Group A perforations were totally closed 2 weeks after treatment in all animals. In group B, complete closure of perforation was achieved after the third treatment procedure in one case. There were no spontaneous perforation closure in the control group. According to morphological investigation, the restoration of trilaminar structure was observed only in tissue engineering group tympanic membranes.

[The Possibilities of Cell Technologies in the Treatment of Cicatricial Lesions of the Vocal Folds].

The article is a brief review of publications devoted to the problem of persistent dysphonia. The main cause of voice disorders is the scarring of the vocal folds resulting from trauma, surgical manipulation, inflammatory process. Treatment of cicatricial lesions of the vocal folds remains a challenge, as far as existing methods do not ensure the recovery of the ultrastructure of the vocal folds. The authors present modern data on the structure of the vocal folds at the cellular level. Considered pathologic processes occur in different stages of scarring. Applied technologies of phonosurgery and conservative treatment, their effectiveness and shortcomings are covered. Analysis of experimental research conducted in the world demonstrates the promise of using the methods of tissue engineering to treat scarring of the vocal folds and to restore the microstructure of the latter. Identified current issues remain unresolved, which leads to the need for further experimental and clinical studies in the treatment of this pathology.