#PAGE_PARAMS# #ADS_HEAD_SCRIPTS# #MICRODATA#

Cellulose materials in the wound healing


Authors: Tomáš Sopuch 1;  Radomíra Drahovzalová 1;  Josef Rýdl 1;  Ivo Bureš 2;  Miloslav Milichovský 3;  Jarmila Vytřasová 4;  Petra Moťková 4;  Václav Švorčík 5;  Jiří Podlaha 6,7;  Marie Horáková 7;  Ruta Masteiková 8;  Lenka Vinklárková 8;  Pavel Suchý 9
Authors‘ workplace: Holzbecher, spol. s r. o., barevna a bělidlo Zlíč 1;  Geriatrická klinika, Pardubická krajská nemocnice, a. s. 2;  Oddělení dřeva, celulózy a papíru, Univerzita Pardubice 3;  Katedra biologických a biochemických věd, Univerzita Pardubice 4;  Ústav inženýrství pevných látek, VŠCHT Praha 5;  Chirurgická klinika, LF MU a FN Brno 6;  Chirurgická a cévní ambulance, Brno-Šlapanice 7;  Ústav technologie léků, Veterinární a farmaceutická univerzita, Brno 8;  Ústav humánní farmakologie a toxikologie, Veterinární a farmaceutická univerzita, Brno 9
Published in: Hojení ran 7, č. 2: 14-20, 2013
Category:

Overview

Cellulosic materials or its derivates offers a lot of valuable properties for wound healing. The carboxylated celluloses are represented, esp. by carboxymethylated cellulose and oxidized cellulose. Hcel HT (carboxymethylated cellulose) is a novel type of cellulosic dressing with an acidic surface pH.

Key words:
wound healing, cellulosic materials, carboxymethylcellulose, oxidized cellulose


Sources

Bařinka, L. Surgical treatment of lymphedema of the extremities. Acta Facultatis medicae Universitatis Brunensis 85: 143–147, 1984.

Beele, H., Meuleneire, F., Nahuys, M., Percival, S. L. 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 7, 4: 262–270, 2010.

Burgeni, A. A., Hills, S., Simkevich, J. C. Surgical absorbent pad having ion exchange properties. US 3187747, 1965.

Cullen, B., Smith, R., McCulloch, E. et al. Mechanism of action of PROMOGRAM, a protease modulating matrix, for treatment of diabetic foot ulcers. Wound Rep Regen 10, 1: 16–25, 2002.

Dieckman, S. F., Jarrell, J. G., Voris, R. S. Carboxymethylcellulose in the free acid form. Ind Eng Chem 45: 2287–2290, 1953.

Dimitrijevich, S. D., Tatarko, M., Gracy, R. W. et al. In vivo degradation of oxidized, regenerated cellulose. Carbohydr Res 198, 2: 331–341, 1990.

Donohue, J. M. Process of making cellulose ethers. US 1415023, 1922.

Frantz, V. K., Clarke, H. T., Lattes, R. Hemostasis with absorbable gauze (oxidized cellulose). Ann Surg 120, 2: 181–198, 1944.

Frantz, V. K., Lattes, R. Oxidized cellulose – absorbable gauze (cellulosic acid). J Amer Med Ass 129: 798–801, 1945.

Gupta, B., Agarwal, R., Alam, M. S. Textile-based smart wound dressings. Ind J Fibre Textil Res 35: 174–187, 2010.

Kamel, S., Ali, N., Jahangir, K. et al. Pharmaceutical significance of cellulose: A review. Express Polym Lett 2, 11: 758–778, 2008.

Kolářová, K., Vosmanská, J., Rimpelová, S., Švorčík V. Effect of plasma treatment on cellulose fiber. Cellulose 20, 2: 953–962, 2013.

Masci, J. N., Ashton, W. H. Absorbable carboxymethyl cellulose products. CA 586635, 1959.

McBee, W. L., Koerner, K. R. Review of hemostatic agents used in dentistry. Dent Today 24, 3: 62–5, 2005.

Mikulíková, R., Švorčík, V., Náhlík, J., Sopuch, T., Havelka, P. Cytocompatibility of surface ground PE doped with calcium salt of 6-carboxycellulose. Cellulose 15, 3: 473–481, 2008.

Newell, T. P., Zeronian, S. H. (eds.). Cellulose chemistry and its applications. New York: Halsted Press, John Wiley, 1985.

Podlaha, J., Horáková, M., Vytřasová, J., Moťková, P., Masteiková, R., Vinklárková, L., Sopuch, T. Hcel HT – nový typ celulózového krytí na ošetřování ran. Abstrakt z: Mezinárodní spolupráce při léčbě ran a kožních defektů. 24.–25.1.2013. Hojení ran 7, 1: 26, 2013.

Queen, D. Technology update: Understanding Hydrofiber® Technology. Wounds Intern 1, 5: 2010.

Sannino, A., Demitri, C., Madaghiele, M. Biodegradable cellulose-based hydrogels: Design and Applications. Materials 2, 2: 353–373, 2009.

Silcock, D .W., Delbono, M. Hydrocolloid materials for use in wound healing. US 2007/0020318 A1.

Sopuch, T., Bureš, I., Milichovský, M., Švorčík, V. Celulózové materiály v ošetřování ran. Abstrakt z: Mezinárodní spolupráce při léčbě ran a kožních defektů. 24.–25.1.2013. Hojení ran 7, 1: 24, 2013.

Stephens, C. H., Whitmore, P. M., Morris, H. R., Smith, T. Assessing the risks of alkaline damage during deacidification treatmentsof oxidized paper. J Am Inst Conserv 48, 3: 235–249, 2009.

Stilwell, R. L., Marks, M. G., Saferstein, I., Wiseman, D. M. Oxidized cellulose: Chemistry, processing and medical applications. In: Domb, A. J., Kost, J., Wiseman, D. M. (eds.). Handbook of Biodegradable Polymers. Amsterdam: Harwood Academic Publishers, 1997.

Stryja, J. Porovnání efektivity léčby nehojících se ran krytím Aquacel a Traumacel Biodress: Závěrečná zpráva řešitele projektu. Hojení ran 4, 3: 55–60, 2010.

Sweeney, I. R., Miraftab, M., Collyer, G. A critical review of modern and emerging absorbent dressings used to treat exuding wounds. Int Wound J 9, 6: 601–612, 2012.

Touati, G., Barry, M., Cauet, H. et al. Antibacterial effect of modified cellulose: in vitro and clinical study potential applications in the prevention of surgical site infection. Abstrakta z: Mezinárodní spolupráce při léčbě ran a kožních defektů. 24.–25.1.2013. Hojení ran 7, 1: 25–26, 2013.

Walker, M., Parsons, D. Hydrofiber® Technology: its role in exudate management. Wounds UK 6, 2: 31–38, 2010.

Winter, G. D. Formation of the scab and the rate of epithelisation of superficial wounds in the skin of the young domestic pig. Nature 193: 293–294, 1962.

Woodings, C. Regenerated cellulose fibres. Boca Raton: CRC Press, 2001.

Wu, Y., He, J., Cheng, W. et al. Oxidized regenerated cellulose-based hemostat with microscopically structure. Carbohydr Polym 88, 3: 1023–1032, 2012.

Yackel, E. C., Kenyon, W. O. The oxidation of cellulose by nitrogen dioxide. J Am Chem Soc 64, 1: 121–127, 1941.

Internetové zdroje

http://www.actcel.com/

http://www.ashland.com/Ashland/Static/Documents/AAFI/PRO-250-10H_Aqualon_CMC.pdf

http://www.borimed.com/

http://www.ethicon360.com/products/surgicel-family-absorbable-hemostats (Ethicon a)

http://www.ethicon360.com/products/gynecare-interceed-absorbable-adhesion-barrier (Ethicon b)

http://www.fziomed.com/core-science/

http://www.hemcon.com/Products/mdocproducts.aspx

http://www.henkel.com/about-henkel/company-history-11789.htm

http://www.holzbecher.net/

http://www.jnj.com/connect/news/all/20081201_170000

http://www.reliamedproducts.com/sellsheets/reliamed_silveralginate.pdf

http://www.seprafilm.com

http://www.smith-nephew.com/key-products/advanced-wound-management/durafiber/

http://www.systagenix.com/our-products/lets-promote/promogran-35 (Systagenix a)

http://www.systagenix.com/media/originals/20120402-125145-0028.pdf (Systagenix b)

http://www.traumacel.cz/

http://www.whatman.com/CationExchangeCelluloses.aspx

Labels
Surgery Nurse Home nurse
Topics Journals
Login
Forgotten password

Enter the email address that you registered with. We will send you instructions on how to set a new password.

Login

Don‘t have an account?  Create new account

#ADS_BOTTOM_SCRIPTS#