DEVELOPMENT OF METHODICAL APPROACHES TO THE CREATION OF THE PHARMACOLOGICALLY ACTIVE BANDAGE
DOI:
https://doi.org/10.22159/ajpcr.2017.v10i8.19037Keywords:
Pharmacologically active bandage, Methods of immobilization, Plaster, Medical pad, Thick oak bark extractAbstract
The results of modern research on the creation of pharmacologically active bandage were generalized. The main components of the development of pharmacologically active dressing (choice of active ingredients, carrier substrate, the method of immobilization, etc.) were determined. Methodological approaches to the creation of pharmacologically active bandage were developed. The practical significance of the developed methodological approaches demonstrated by research and development of dressings with thick oak bark extract.
Downloads
References
Legeza VI, Remizov DV, Rumor SI. Therapeutic properties of modern dressings (review of literature). Medico biol Socio Psychol Probl Saf Emerg 2010;2:31-9.
Shapovalov SG. Modern wound coverings in combustiology. News Sci Technol 2007;1:182-2.
Yudanova TN, Reshetov IV. Modern wound coatings: Production and properties (review). Chem Pharm J 2006;40(2):24-31.
Hersh AL, Chambers HF, Maselli JH, Gonzales R. National trends in ambulatory visits and antibiotic prescribing for skin and soft-tissue infections. Arch Intern Med 2008;168(14):1585-91.
Dhawan S. High molecular weight polyethylene oxide - Based drug delivery systems. Part 1: Hydrogels and hydrophilic matrix systems. Pharm Technol 2005;29(5):72-80.
Pielesz A, Paluch J. Therapeutically active dressings - Biomaterials in a study of collagen glycation. Polim Med 2012;42(2):115-20.
Kim JO, Choi JY, Park JK, Kim JH, Jin SG, Chang SW, et al. Development of clindamycin-loaded wound dressing with polyvinyl alcohol and sodium alginate. Biol Pharm Bull 2008;31(12):2277-82.
Gupta SS, Singh O, Bhagel PS, Moses S, Shukla S, Mathur RK. Honey dressing versus silver sulfadiazene dressing for wound healing in burn patients: A retrospective study. J Cutan Aesthet Surg 2011;4(3):183-7.
Leaper D, McBain AJ, Kramer A, Assadian O, Sanchez JL, Lumio J, et al. Healthcare associated infection: Novel strategies and antimicrobial implants to prevent surgical site infection. Ann R Coll Surg Engl 2010;92(6):453-8.
Robson MC, Steed DL, Franz MG. Wound healing: Biologic features and approaches to maximize healing trajectories. Curr Probl Surg 2001;38(2):72-140.
Khokhlenkova NV, Yarnyh TG, Kupriyanova OM. Studying the range of dressing in Ukrainian pharmaceutical market. Pharm J 2009;4(9):61-3.
Vermeulen H, Ubbink D, Goossens A, de Vos R, Legemate D. Dressings and topical agents for surgical wounds healing by secondary intention. Cochrane Database Syst Rev 2004;2:CD003554.
Rathinamoorthy R, Sasikala L. Polysaccharide fibres in wound management. Int J Pharm Pharm Sci 2011;3(3):38-44.
Greenhalgh D. Models of wound healing. J Burn Care Rehabil 2005;26(4):293-305.
Green B. Making an informed decision: How to choose the correct wound dressing. Wound Heal South Afr 2013;6(1):12-20.
Han JY, Choi-Kwon S. Adaptation of evidence-based surgical wound care algorithm. J Korean Acad Nurs 2011;41(6):768-79.
Ather SH, Chan D, Harding K. The biology of wound healing. Wound Manage 2007;13(13):53-4.
Bhattacharya S, Tripathi HN, Gupta V, Nigam B, Khanna A. Collagen sheet dressings for cutaneous lesions of toxic epidermal necrolysis. Indian J Plast Surg 2011;44(3):474-7.
Hill KE, Malic S, McKee R, Rennison T, Harding KG, Williams DW, et al. An in vitro model of chronic wound biofilms to test wound dressings and assess antimicrobial susceptibilities. J Antimicrob Chemother 2010;65(6):1195-206.
Liakos I, Rizzello L, Bayer IS, Pompa PP, Cingolani R, Athanassiou A. Controlled antiseptic release by alginate polymer films and beads. Carbohydr Polym 2013;92(1):176-83.
Murakami K, Aoki H, Nakamura S, Nakamura S, Takikawa M, Hanzawa M, et al. Hydrogel blends of chitin/chitosan, fucoidan and alginate as healing-impaired wound dressings. Biomaterials 2010;31(1):83-90.
Hall KK, Gattás-Asfura KM, Stabler CL. Microencapsulation of islets within alginate/poly(ethylene glycol) gels cross-linked via Staudinger ligation. Acta Biomater 2011;7(2):614-24.
Bi Q, Zhang Q, Ma J, Xu M, Zhang SJ, Qiu BS, et al. Effect of combination therapy with alginate dressing and mouse epidermal growth factor on epidermal stem cells in patients with refractory wounds. Chin Med J (Engl) 2012;125(2):257-61.
Peppas NA, Bures P, Leobandung W, Ichikawa H. Hydrogels in pharmaceutical formulations. Eur J Pharm Biopharm 2000;50(1):27-46.
Thomas JG, Slone W, Linton S, Okel T, Corum L, Percival SL. In vitro antimicrobial efficacy of a silver alginate dressing on burn wound isolates. J Wound Care 2011;20(3):124, 126-8.
Goh CH, Heng PW, Huang EP, Li BK, Chan LW. Interactions of antimicrobial compounds with cross-linking agents of alginate dressings. J Antimicrob Chemother 2008;62(1):105-8. 27. Oltarzhevskaya ND, Korovin MA. Textiles for medicine: New therapeutic composite materials. Text Ind 2010;5:58-62.
Buzov BA, Makarova NA, Mishakov VY. The main indicators of the quality of textile antimicrobial materials for medical purposes.Tech Text 2003;8:10-8.
Pielesz A, Katarzyna B, Klimczak M. Physico-chemical properties of commercial active alginate dressings. Polim Med 2008;38(4):3-17.
Tuncer C, Demirci S, Eroglu M. Poly(ethylene oxide) and its blends with sodium alginate. Ð olymer 2005;46:10750-7.
Pongjanyakul T, Puttipipatkhachorn S. Sodium alginate-magnesium aluminum silicate composite gels: Characterization of flow behavior, microviscosity, and drug diffusivity. AAPS PharmSciTech 2007;8(3):E72.
Kalász H, Antal I. Drug excipients. Curr Med Chem 2006;13(21):2535-63.
Beele H, Meuleneire F, Nahuys M, Percival SL. A prospective randomised open label study to evaluate the potential of a new silver alginate/carboxymethylcellulose antimicrobial wound dressing to promote wound healing. Int Wound J 2010;7(4):262-70.
Chiu CT, Lee JS, Chu CS, Chang YP, Wang YJ. Development of two alginate-based wound dressings. J Mater Sci Mater Med 2008;19(6):2503-13.
Zevedo EP. Chitosan hydrogels for drug delivery and tissue engineering applications. Int J Pharm Pharm Sci 2015;l:8-14.
Priyaah K, Arun G, Swati S. Synthesis of wound-healing keratin hydrogels using chicken feathers proteins and its properties. Int J Pharm Pharm Sci 2017;l:171-8.
Khokhlenkova NV, Kupriyanova OM. Development of Healing Antiseptic Wipes with a Thick Oak Bark Extract and Sodium Alginate. Proceedings of Staff NMAPE; 2011. p. 565-9.
Khokhlenkova NV, Yarnyh TG, Kupriyanova OM. Development of antiseptic hemostatic patch wth thick oak bark extract. J Pharm 2012;2(70):14-6.
Published
How to Cite
Issue
Section
The publication is licensed under CC By and is open access. Copyright is with author and allowed to retain publishing rights without restrictions.