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Biomaterials As Bone Replacements, Part 2: Synthetic grafts and Xenografts

Year 2011, Volume: 13 Issue: 3, 46 - 52, 01.12.2011

Abstract

Bone grafts are used in an increasing frequency in orthopedic surgery, neurosurgery and plasticsurgery to increase bone union and to fill bone defects and to obtain structural stiffness in bonedeficiencies. The grafts used today are of human, animal and synthetic origin. In this review,we are presenting the bone grafts of animal and synthetic origin with an emphasis on their areasof usage

References

  • Paderni S, Terzi S, Amendola L. Major bone defect treatment with an osteoconductive bone substitute. Musculoskelet Surg. 93:89-96, 2009.
  • Develioglu H, Unver Saraydin S, Kartal U. The bone-healing effect of a xenograft in a rat calvarial defect model. Dent Mater J. 4:396-400, 2009.
  • Hamadouche M, Sedel L. Ceramics in orthopaedics. J Bone Joint Surg Br 8:1095-9, 2000.
  • Navarro M, Michiardi A, Castaño O, Planell JA. Biomaterials in orthopaedics. J R Soc Interface. 5:1137-58, 2008.
  • Korkusuz P, Korkusuz F. Hard tissue-biomaterial interactions. In: Yaszemski, Trantolo DJ, Lewandrowski KU, Hasirci V, Altobelli DE, Wise DL. (ed). Biomaterials in Orthopedics. Newyork. Basel, Marcel Dekker, Inc. p.1-40, 2004.
  • Chow LC. Next generation calcium phosphate-based biomaterials. Dent Mater J. 28:1-10, 2009.
  • Shors E, Holmes R. Bone formation in porous hydroxyapatite obtained from human biopsies. Bioceramics 6:375-79, 1993.
  • Nakase T, Fujii M, Myoui A, Tamai N, Hayaishi Y, Ueda T, Hamada M, Kawai H, Yoshikawa H. Use of hydroxyapatite ceramics for treatment of nonunited osseous defect after open fracture of lower limbs. Arch Orthop Trauma Surg. 129:1539- 47, 2009.
  • Bucholz RW. Nonallograft osteoconductive bone graft substitutes. Clin Orthop 395:44-52, 2002.
  • Plominski J, Watral Z, Kwiatkowski K. Dynamic testing of bone grafts. Acta Bioeng Biomech. 10:27-31, 2008.
  • LeGeros RZ. Properties of osteoconductive biomaterials: calcium phosphates.Clin Orthop. 395:81-98, 2002.
  • Fini M, Giavaresi G, Aldini NN, Torricelli P, Botter R, Beruto D, Giardino R. A bone substitute composed of polymethylmethacrylate and alpha-tricalcium phosphate: results in terms of osteoblast function and bone tissue formation. Biomaterials. 23:4523-31, 2002.
  • Gitelis S, Piasecki P, Turner T, Haggard W, Charters J, Urban R. Use of a calcium sulfate-based bone graft substitute for benign bone lesions. Orthopedics. 24:162-6, 2001.
  • Kelly CM, Wilkins RM, Gitelis S, Hartjen C, Watson JT, Kim PT. The use of a surgical grade calcium sulfate as a bone graft substitute: results of a multicenter trial.Clin Orthop 382:42-50, 2001.
  • Blaha D Calcium sulfate bone-void filler. Orthopedics 21:1017-19, 1998.
  • McKee M, Schemitsch E, Wild L, et al. Bone substitute with tobramycin heals non-infected nonunions. Orthop Today 20:1- 2, 2000.
  • Van den Vreken NM, Pieters IY, Declercq HA, Cornelissen MJ, Verbeeck RM. Characterization of calcium phosphate cements modified by addition of amorphous calcium phosphate. Acta Biomater. 6:617-25, 2010.
  • Bauer TW, Smith ST. Bioactive materials in orthopaedic surgery: overview and regulatory considerations. Clin Orthop 395:11-22, 2002.
  • Goodman SB, Bauer TW, Carter D, Casteleyn PP, Goldstein SA, Kyle RF, Larsson S, Stankewich CJ, Swiontkowski MF, Tencer AF, Yetkinler DN, Poser RD. Norian SRS cement augmentation in hip fracture treatment. Laboratory and initial clinical results. Clin Orthop. 348:42-50, 1998.
  • Granito RN, Ribeiro DA, Rennó AC, Ravagnani C, Bossini PS, Peitl-Filho O, Zanotto ED, Parizotto NA, Oishi J. Effects of biosilicate and bioglass 45S5 on tibial bone consolidation on rats: a biomechanical and a histological study. J Mater Sci Mater Med. 20:2521-6, 2009.
  • Larsson S, Bauer TW. Use of injectable calcium phosphate cement for fracture fixation: a review. Clin Orthop 395:23-32, 2002.
  • Araujo JV, Cunha-Reis C, Rada T, Alves da Silva M, Gomes M, Yang Y, Ashammakhi N, Reis RL, El Haj AJ, Neves NM. Dynamic culture of osteogenic cells in biomimetically coated poly(caprolactone) nanofibre mesh constructs. Tissue Eng Part A. 16:557-63, 2010.
  • Jupiter J, Winter S, Sigman S. Repair of five distal radius fractures with an investigational cancellous bone cement: A preliminary report. J Orthop Trauma 11:110-16, 1997.
  • Kopylov P, Runnqvist K, Jonsson K, Aspenberg P. Norian SRS versus external fixation in redisplaced distal radial fractures. A randomized study in 40 patients. Acta Orthop Scand. 70:1- 5, 1999.

Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal ve Sentetik Greftler

Year 2011, Volume: 13 Issue: 3, 46 - 52, 01.12.2011

Abstract

Kemik greftleri Ortopedi, Beyin cerrahisi, Plastik cerrahi gibi branşlarda kaynamanınarttırılması, doku boşluklarının doldurulması, kemik eksikliklerinde yapısal güç sağlanmasıamacı ile giderek artan sıklıkta kullanılmaktadır. Günümüzde kullanılan greftler insan kaynaklı,hayvan kaynaklı ve sentetik greftler olarak çeşitlenmektedir. Okuyacağınız bu derlemedehayvansal ve sentetik kaynaklı kemik greftlerini ve bunların başlıca kullanım alanlarını sunmayaçalıştık

References

  • Paderni S, Terzi S, Amendola L. Major bone defect treatment with an osteoconductive bone substitute. Musculoskelet Surg. 93:89-96, 2009.
  • Develioglu H, Unver Saraydin S, Kartal U. The bone-healing effect of a xenograft in a rat calvarial defect model. Dent Mater J. 4:396-400, 2009.
  • Hamadouche M, Sedel L. Ceramics in orthopaedics. J Bone Joint Surg Br 8:1095-9, 2000.
  • Navarro M, Michiardi A, Castaño O, Planell JA. Biomaterials in orthopaedics. J R Soc Interface. 5:1137-58, 2008.
  • Korkusuz P, Korkusuz F. Hard tissue-biomaterial interactions. In: Yaszemski, Trantolo DJ, Lewandrowski KU, Hasirci V, Altobelli DE, Wise DL. (ed). Biomaterials in Orthopedics. Newyork. Basel, Marcel Dekker, Inc. p.1-40, 2004.
  • Chow LC. Next generation calcium phosphate-based biomaterials. Dent Mater J. 28:1-10, 2009.
  • Shors E, Holmes R. Bone formation in porous hydroxyapatite obtained from human biopsies. Bioceramics 6:375-79, 1993.
  • Nakase T, Fujii M, Myoui A, Tamai N, Hayaishi Y, Ueda T, Hamada M, Kawai H, Yoshikawa H. Use of hydroxyapatite ceramics for treatment of nonunited osseous defect after open fracture of lower limbs. Arch Orthop Trauma Surg. 129:1539- 47, 2009.
  • Bucholz RW. Nonallograft osteoconductive bone graft substitutes. Clin Orthop 395:44-52, 2002.
  • Plominski J, Watral Z, Kwiatkowski K. Dynamic testing of bone grafts. Acta Bioeng Biomech. 10:27-31, 2008.
  • LeGeros RZ. Properties of osteoconductive biomaterials: calcium phosphates.Clin Orthop. 395:81-98, 2002.
  • Fini M, Giavaresi G, Aldini NN, Torricelli P, Botter R, Beruto D, Giardino R. A bone substitute composed of polymethylmethacrylate and alpha-tricalcium phosphate: results in terms of osteoblast function and bone tissue formation. Biomaterials. 23:4523-31, 2002.
  • Gitelis S, Piasecki P, Turner T, Haggard W, Charters J, Urban R. Use of a calcium sulfate-based bone graft substitute for benign bone lesions. Orthopedics. 24:162-6, 2001.
  • Kelly CM, Wilkins RM, Gitelis S, Hartjen C, Watson JT, Kim PT. The use of a surgical grade calcium sulfate as a bone graft substitute: results of a multicenter trial.Clin Orthop 382:42-50, 2001.
  • Blaha D Calcium sulfate bone-void filler. Orthopedics 21:1017-19, 1998.
  • McKee M, Schemitsch E, Wild L, et al. Bone substitute with tobramycin heals non-infected nonunions. Orthop Today 20:1- 2, 2000.
  • Van den Vreken NM, Pieters IY, Declercq HA, Cornelissen MJ, Verbeeck RM. Characterization of calcium phosphate cements modified by addition of amorphous calcium phosphate. Acta Biomater. 6:617-25, 2010.
  • Bauer TW, Smith ST. Bioactive materials in orthopaedic surgery: overview and regulatory considerations. Clin Orthop 395:11-22, 2002.
  • Goodman SB, Bauer TW, Carter D, Casteleyn PP, Goldstein SA, Kyle RF, Larsson S, Stankewich CJ, Swiontkowski MF, Tencer AF, Yetkinler DN, Poser RD. Norian SRS cement augmentation in hip fracture treatment. Laboratory and initial clinical results. Clin Orthop. 348:42-50, 1998.
  • Granito RN, Ribeiro DA, Rennó AC, Ravagnani C, Bossini PS, Peitl-Filho O, Zanotto ED, Parizotto NA, Oishi J. Effects of biosilicate and bioglass 45S5 on tibial bone consolidation on rats: a biomechanical and a histological study. J Mater Sci Mater Med. 20:2521-6, 2009.
  • Larsson S, Bauer TW. Use of injectable calcium phosphate cement for fracture fixation: a review. Clin Orthop 395:23-32, 2002.
  • Araujo JV, Cunha-Reis C, Rada T, Alves da Silva M, Gomes M, Yang Y, Ashammakhi N, Reis RL, El Haj AJ, Neves NM. Dynamic culture of osteogenic cells in biomimetically coated poly(caprolactone) nanofibre mesh constructs. Tissue Eng Part A. 16:557-63, 2010.
  • Jupiter J, Winter S, Sigman S. Repair of five distal radius fractures with an investigational cancellous bone cement: A preliminary report. J Orthop Trauma 11:110-16, 1997.
  • Kopylov P, Runnqvist K, Jonsson K, Aspenberg P. Norian SRS versus external fixation in redisplaced distal radial fractures. A randomized study in 40 patients. Acta Orthop Scand. 70:1- 5, 1999.
There are 24 citations in total.

Details

Primary Language Turkish
Journal Section Collection
Authors

Erkam Kömürcü This is me

Mustafa Erkan İnanmaz This is me

Cengiz Işık This is me

Burak Akan This is me

Kamil Çağrı Köse This is me

Publication Date December 1, 2011
Published in Issue Year 2011 Volume: 13 Issue: 3

Cite

APA Kömürcü, E., İnanmaz, M. E., Işık, C., Akan, B., et al. (2011). Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal ve Sentetik Greftler. Duzce Medical Journal, 13(3), 46-52.
AMA Kömürcü E, İnanmaz ME, Işık C, Akan B, Köse KÇ. Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal ve Sentetik Greftler. Duzce Med J. December 2011;13(3):46-52.
Chicago Kömürcü, Erkam, Mustafa Erkan İnanmaz, Cengiz Işık, Burak Akan, and Kamil Çağrı Köse. “Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal Ve Sentetik Greftler”. Duzce Medical Journal 13, no. 3 (December 2011): 46-52.
EndNote Kömürcü E, İnanmaz ME, Işık C, Akan B, Köse KÇ (December 1, 2011) Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal ve Sentetik Greftler. Duzce Medical Journal 13 3 46–52.
IEEE E. Kömürcü, M. E. İnanmaz, C. Işık, B. Akan, and K. Ç. Köse, “Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal ve Sentetik Greftler”, Duzce Med J, vol. 13, no. 3, pp. 46–52, 2011.
ISNAD Kömürcü, Erkam et al. “Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal Ve Sentetik Greftler”. Duzce Medical Journal 13/3 (December 2011), 46-52.
JAMA Kömürcü E, İnanmaz ME, Işık C, Akan B, Köse KÇ. Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal ve Sentetik Greftler. Duzce Med J. 2011;13:46–52.
MLA Kömürcü, Erkam et al. “Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal Ve Sentetik Greftler”. Duzce Medical Journal, vol. 13, no. 3, 2011, pp. 46-52.
Vancouver Kömürcü E, İnanmaz ME, Işık C, Akan B, Köse KÇ. Kemik Yerine Geçen Biyomateryaller 2. Kısım: Hayvansal ve Sentetik Greftler. Duzce Med J. 2011;13(3):46-52.