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2012 | 84 | 3 | 167-171

Article title

The Role of Tissue Engineering in the Treatment of Burn Wounds

Content

Title variants

Languages of publication

EN

Abstracts

EN

Keywords

Publisher

Year

Volume

84

Issue

3

Pages

167-171

Physical description

Dates

published
1 - 2 - 2012
online
28 - 5 - 2012

Contributors

  • Centre For Burn Treatment in Siemianowice Śąskie, dfdf
author
author
  • Centre For Burn Treatment in Siemianowice Śąskie, dfdf

References

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  • Andreassi A, Bilenchi R, Biagioli M et al.: Clasisification and pathophysiology of skin grafts. Clin Dermatol 2005; 23: 332-337.[Crossref]
  • Supp DM, Boyce ST: Engeenered skin substitutes: practices and potentials. Clin Dermatol 2005; 23: 403-12.[PubMed][Crossref]
  • Stoilova YD, Haidushkal MA, Traikov IZ et al.: Immunological and microbiological investigations of patients with burn injuries. Folia Med (Plovdiv) 2007; 49: 49-58.
  • Atiyeh BS, Costagliola M: Cultured epithelial autograft (CEA) in burn treatment: three decades later. Burns 2007; 33: 405-13.[PubMed][Crossref][WoS]
  • Bhat SV: Biomaterials. Boston: Kluwer Academic Publishers, Narosa Publishing House; 2002, s.1-13.
  • Ikada Y. Biological Materials. W: Barbucci R (red.) Integrated Biomaterials Science. New York: Kluwer Academic/ Plenum Publishers; 2002, s. 1-22.
  • Park JB, Bronzino JD: Biomaterials. Principles and Aplications. New York: CRC Press, 2003.
  • Horch RE, Kopp J, Kneser U et al.: Tissue ingeenering of cultured skin substitutes. J Cell Mol Med 2005; 9: 592-608.[PubMed][Crossref]
  • Claek RA, Gosh K, Tonnesen MG: Tissue engeenering for cutaneous wounds. J Invest Dermatol 2007; 127: 1018-29.[WoS]
  • MacNeil S: Progress and opportunities for tissue-engeenered skin. Nature 2007; 445: 874-80.[Crossref][PubMed][WoS]
  • Pharm C, Greenwood J, Cleland H et al.: Bioengeenered skin substitutes for the management of burns: a systematic microvascular endothelial cells in autologous multicellular skin substitutes. Angiogenesis 2007; 7: 295-305.
  • Shakespear PG: The role of skin substitutes in the treatment of burn injuries. Clin Dermatol 2005; 23: 413-18.[Crossref]
  • Muren O, Dahlstedt L, Brosjo E et al.: Gross osteolytic tibia tunel widening with the use of Gore-Tex anterior cruciate ligemant prosthesis: a radiological, arthrometric and clinical evaluation of 17 patients 13-15 years after surgery. Acta Orthop 2005; 76: 270-74.
  • Durselen L, Claes L, Ignatius A et al.: Comparative animal study of three ligament prostheses for the replacement of the anterior cruciate and medial collateral ligament. Biomaterials 1996; 17: 977-82.[Crossref][PubMed]
  • Roolker W, Patt TW, van Dijk CN et al.: The Gore-Tex prosthetic ligament as a salvage procedure in deficient knees. Knee Surg Sports Traumatol Arthrosc 2000; 8: 20-25.[Crossref]
  • Bellows CF, Alder A, Helton SW: Abdominal wall reconstruction using biological tissue grafts: present status and future opportunities. Expert Rev Med Devices 2006; 3: 657-75.[Crossref][PubMed]
  • Yanas IV: Natural materials. W: Ratner BD (red.) Biomaterials science: an introduction to materials in medicine. Wyd 2, San Diego: Elsevier; 2004, s. 127-37.
  • Mendelson K, Schoen FJ: Heart valve tissue engineering: concepts, approaches, progress, and challenges. Ann Biomed Eng 2006; 34: 1799-1819.[PubMed][Crossref]
  • Stevens A, Lowe JS: Histologia człowieka. Wydawnictwo Lekarskie PZWL, Warszawa 2000.
  • Mayes PA: Węglowodany o znaczeniu fizjologicznym. W: Murray RK (red). Biochemia Harpera. Wydawnictwo Lekarskie PZWL, Warszawa 2004; s. 190-201.
  • da Costa FD A, Dohmen PM, Lopes SV et al.: Comparison of cryopreserved homografts and decellularized porcine heterografts implanted in sheep. Artif Organs 2004; 28: 366-70.[Crossref]
  • Borschel GH, Huang YC, Calve S et al.: Tissue engineering of recellularized small-diameter vascular grafts. Tissue Eng 2005; 11: 778-86.[Crossref]
  • Badylak SF, Record R, Lindberg K: Small intestinal submucosa: a substrate for in vitro cell growth. J Biomater Sci Polym Ed 1998; 9: 863-78.[Crossref]
  • Bhrany AD, Beckstead BL, Lang TC et al.: Development of an esophagus acellular matrix tissue scaffold. Tissue Eng 2006; 12: 319-30.[PubMed][Crossref]
  • Bolland F, Korossis S, Wilshaw SP et al.: Development and characterisation of a full-thickness acellular porcine bladder matrix for tissue engineering. Biomaterials 2007; 28: 1061-70.[Crossref][PubMed][WoS]
  • Hopper RA, Woodhouse K, Semple JL: Acellularization of human placenta with preservation of the basement membrane: a potential matrix for tissue engineering. Ann Plast Surg 2003; 51: 598-602.[PubMed][Crossref]
  • Mirsadraee S, Wilcox HE, Korossis SA et al.: Development and characterization of an acellular human pericardial matrix for tissue engineering. Tissue Eng 2006; 12: 763-73.[Crossref][PubMed]
  • Curtil A, Pegg DE, Wilson A: Freeze drying of cardiac valves in preparation for cellular repopulation. Cryobiology 1997; 34: 13-22.[Crossref][PubMed]
  • Kasimir MT, Rieder E, Seebacher G et al.: Comparison of different decellularization procedures of porcine heart valves. Int J Artif Organs 2003; 26: 421-27.
  • Buinewicz B, Rosen B: Acellular cadaveric dermis (AlloDerm): a new alternative for abdominal hernia repair. Ann Plast Surg 2004; 52: 188-94.[WoS][PubMed][Crossref]
  • Chen RN, Ho HO, Tsai YT et al.: Process development of an acellular dermal matrix (ADM) for biomedical applications. Biomaterials 2004; 25: 2679-86.[PubMed][Crossref]
  • Graus RW, Hazekamp MG, Vliet van S et al.: Decellulrization of rat aortic valve allografts reduces leaflet destruction and extracellular matrix remodeling. J Thorac Cardiovasc Surg 2003; 126: 2003-10.
  • Schmidt Ch, Baier J.M: Acellular vascular tissues: natural biomaterials for tissue engineering. Biomaterials 2000; 21: 2215-31.[PubMed][Crossref]
  • Walter RJ, Matsuda T, Reyes HM et al.: Characterisation of acellular dermal matrices (ADMs) prepared by two different methods. Burns 1998; 24: 104-13.[Crossref]
  • Takami Y, Matsuda T, Yoshitake M et al.: Dispase/detergent treated dermal matrix as a dermal substitute, Burns 1996; 22: 182-90.[Crossref]
  • Pelletier M, Perreault C, Landry D et al.: Ontogeny of human epidermal Langerhans cells. Transplantation 1984; 38: 544-46.[PubMed][Crossref]
  • Ghosh MM, Boyce S, Layton C et al.: A comparison of methodologies for preparation of human epidermal - dermal composites. Ann Plast Surg 1997; 39: 390-404.[PubMed][Crossref]
  • Wu Q, Yao M, Pan Y et al.: Experimental study on the inflammatory.and immune response of xenogenic acellular dermal matrix transplantation combined with split-thiknes skin autografts. Chin J Plast Surg Burns 2002; 18: 266-68.
  • Iida T, Takami Y, Yamaguchi R et al.: Development of a tissue-engineered human oral mucosa equivalent based on an acellular allogeneic dermal matrix: A preliminary report of clinical application to burn wounds. Scand J Plast Reconstr Surg Hand Surg 2005; 39: 138-46.[PubMed][Crossref]
  • Seland H, Gustafson CJ, Johnson H et al.: Transplantation of acellular dermis and keratinocytes cultured on porous biodegradable microcarriers into full-thickness skin injuries on athymic rats. Burns 2011; 37: 99-108.[WoS][PubMed][Crossref]
  • Callcut RA, Sshurr MJ, Sloan M et al.: Clinical experience with Alloderm: a one-staged composite dermal/epidermal replacement utilizing processed cadevar dermis and thing autograft. Burns 2006; 32: 583-88.[Crossref]
  • Wainwright DJ: Use of an acellular allograft dermal matrix (AlloDerm) in the management of full-thickness burns. Burns 1995; 21: 243-48.[PubMed][Crossref]

Document Type

Publication order reference

Identifiers

YADDA identifier

bwmeta1.element.-psjd-doi-10_2478_v10035-012-0027-y
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