New textile dressings based on biodegradable polymers containing proteinases for wounds and burns treatment

Immobilization of various therapeutic agents on biodegradable carriers facilitates the active participation of therapeutic materials in the wound healing process. Selective accumulation of the drug in the lesion allows simultaneously solving several problems: increase the efficacy of the drug, reduce its consumption, and eliminate the undesirable effects of the drug on healthy organs and tissues.

The main purpose of this study: ·  the creation of high-performance wound coverings of a new generation for medical purpose, the creation and development of industrial technology for their production; · 

multidimensional studies of the obtained immobilized therapeutic agents on modified polysaccharide carriers. 

1. Belov A.A. Industrial technologies development for the production of new medical materials based on modified fiberforming polymers, containing biologically active protein substances. Degree dissertation for the Doctor of Technical Sciences, M., Russian University of Chemical Technology (RUCT), 2009. p. 385.

2. G.I. Wound. Bandage. The patient. Moscow: Medicine, 2002. p. 472.

3. Boateng J. S., Matthews K.H., Stevens H.N.E., Eccleston G.M. Wound Healing Dressings and Drug Delivery Systems:A Review. J. of Pharmaceutical Sciences. 2008, 97(8):2892-2923.

4. Biologically active dressings in the complex treatment of purulo-necrotic wounds. Guidelines. № 2000/156. Health Ministry of The Russian Federation. Moscow, 2000, p. 37.

5. Simona Strnad, Olivera Šauperl and Lidija Fras-Zemlji ch. 9 - Cellulose fibres functionalised by chitosan: characterization and application in Biopolymers Ed. by M. Elnasha. 2010, p. 181-200.

6. Legon’kova O.A., Vasil’ev V.G., Asanova L.Yu. Investigation of polymeric wound dressings’ operational properties. Wounds and Wound Infections. The Prof. B. M. Kostyuchenok Journal = Rany` i ranevy`e infekcii. Zhurnal im. prof. B. M. Kostyuchyonka. 2015, 2 (2): 32-39 (In Russ.)

7. Rogovin Z.A. Cellulose chemistry, Moscow: Chemistry. 1972, p. 125-244

8. Mashkovskiy M.D. Medicines, Moscow: New Wave. 2012, p. 1216

9. Miller G.L. Use of dinitrosalicylic acid reagent for determination of reducing sugar Anal. Chem., 1959, 31 (3): 426- 428.

10. Dosadina E.E., Savelieva E.E., Evdokimenko A.Y. and others Biomedical materials with prolonged action based on modified cellulose. Butlerov’s Communications = Butlerovskie soobshheniya. 2017, 50 (5): 109-117 (In Russ.).

11. Dosadina E.E., Savelyeva E.E., Belov A.A. The effect of immobilization, drying and storage on the activity of proteinases immobilized on modified cellulose and chitosan// Process Biochemistry. 2018, 64 (1):213–220 doi.org/10.1016/j. procbio.2017.10.002

12. Dosadina E. E., Kulmetyeva M.A., Belov A. A. The changing of enzymatic activity of hydrolases immobilized on natural polysaccharide matrix for purulent and burn wounds treatment during storing and exploitation. Biointerface research in applied chemistry. 2016, 6 (3): 1291-1298.

13. Belov A.A., Ignatyuk T.E., Ryltsev V.V., Filatov V.N.; A.S. № 1773067 USSR, MKI3 A 61 L15/38. Method for obtaining cellulose dressing materials containing immobilized trypsin / № 4774863/05; claimed 24.11.89; registered 01/07/1992.

14. Ryltsev V.V., Ignatyuk T.E., Filatov V.N., Stekolnikov L.I., Pronin V.I., Tolstykh P.I., Gostishchev V.K., Arutyunyan B.N., Velsher L.Z., Belov A.A.; A.S. № 1683323 USSR, MKI3 A 1. Method for obtaining a dressing that contains an enzyme / № 4721644/13; claimed 20.06.89; registered 08.06.91. Not subject to publication.

15. Grachev S.V., Kassin V.Y., Vorobyova V.M., Pavlova L.A., Belov A.A., Ryltsev V.V, Ignatyuk T.E., Filatov V.N.; № 2108077 RF, MKI3 C2. Method for obtaining dressing material. Applicant and patent holder is Moscow medical Academy named after I. M. Sechenov. № 93033732; claimed 30.06.93; publicated 04.10.98.

16. Promonenkov V.K., Burmaka V.V., Ryltsev V.V., Filatov V.N., Medusheva E.O., Belov A.A., Filatov N.V., Tolstykh P.I., Tolstykh M.P., Mel’nichenko V.I., Petushkov D.V. // № 2203684 RF, MKI3 C2. Method for obtaining dressing material / Applicants and patent holders are the State Unitary Enterprise Research Institute of Textile Materials, SRC of Laser Medicine, Trinity Pharmaceuticals Ltd. - № 2000128812; claimed 20.11.2000; publicated 10.05.2003.

17. Belov A.A., Filatov V.N., Belova E.N., Filatov N.V. / № 2 268 751 RF, MKI3 C2. Medical dressing containing a complex of proteolytic enzymes includes collagenolytic proteases from the crab hepatopancreas. Applicants and patent holders are authors - № 2003111997; claimed 25.04.03; publicated 27.01.06.

18. Belov A.A., Filatov V.N., Belova E.N. / № 2 323 748 RF, MKI3 C2. Medical dressing containing a complex of enzymes from the crab hepatopancreas and the method for its production // Applicants and patent holders are authors - № 2006105155; claimed 21.02.06; publicated 10.05.08.

19. Belov A.A., Filatov V.N., Belova E.N., Kazanskaya N.F. Changes in the proteolytic activity of trypsin immobilized on aldehyde-containing textile carriers during immobilization and storage, Herald MSU, part 2, Chemistry = Vestnik MGU, seriya 2. Ximiya. 2006, 47 (2): 87-90. (In Russ.).

20. Belov A.A., Belova L.A., Filatov V.N. and others Interaction of plasma proteinase inhibitors with proteolytic complex immobilized on dialdehyde cellulose of crab hepatopancreas. Herald MSU, part 2, Chemistry = Vestnik MGU, seriya 2. Ximiya. 2003, 44 (1): 16-19. (In Russ.).

21. Lutsevich O.E., Tolstykh P.I., Medusheva E.O. and others Modern biologically active wound coverings and occlusive dressings in the complex treatment of patients with lower limbs trophic ulcers of the of venous genesis. Surgeon = Xirurg. 2011, (1):13-18. (In Russ.).