Carbon fibrous material for cartilage tissue treatment

• Autorzy: Markowski J. , Pilch J. , Ścierski W. , Benko A. , Menaszek E. , Błażewicz M.
• Konferencja: 24th Conference on Biomaterials in medicine and veterinary medicine : 9--12 October 2014, Rytro, Poland
• Języki publikacji: EN

Abstrakty

EN

The work presents in vitro and in vivo experiments related to the evaluation of the biological properties of the two groups of carbon fibrous (micro, nano) materials. We investigated the carbon materials in the form of a biomimetic scaffolds made from carbon nanotubes and a composite membrane made from carbon micro-fiber and biocompatible polymer to induce regeneration of missing cartilage tissues. Evaluation of biological properties of both materials clearly showed that carbon fibrous material is biocompatible with cartilage cells and stimulates regeneration of cartilage tissue.

Słowa kluczowe

EN

cartilage; chondrogenic materials; tissue engineering; carbon fibrous composite

• Wydawca: Polish Society for Biomaterials in Cracow
• Czasopismo: Engineering of Biomaterials
• Rocznik: 2014
• Tom: Vol. 17, no. 128-129
• Strony: 98--99
• Opis fizyczny: Bibliogr. 7 poz., zdj.

Twórcy

autor

Markowski J.

• E.N.T. Department, Medical University of Silesia, 20-24 Francuska Street, 40-027 Katowice, Poland

autor

Pilch J.

• E.N.T. Department, Medical University of Silesia, 20-24 Francuska Street, 40-027 Katowice, Poland

autor

Ścierski W.

• St. Joseph Hospital, 27 Okrzei Street, 43-190 Mikołów, Poland

autor

Benko A.

• AGH University of Science and Technology, Faculty of Materials Science and Ceramics, Department of Biomaterials, 30 Mickiewicza Ave., 30-059 Krakow, Poland

autor

Menaszek E.

• Jagiellonian University (UJ), Collegium Medicum, Department of Cytobiology, 9 Medyczna Street, 30-068 Cracow, Poland

autor

Błażewicz M.

• AGH University of Science and Technology, Faculty of Materials Science and Ceramics, Department of Biomaterials, 30 Mickiewicza Ave., 30-059 Krakow, Poland

Bibliografia

• [1] E.B. Hunziker, Articular cartilage repair: basic science and clinical progress. A review of the current status and prospects; Osteoarthritis and Cartilage, 10 (2002) 432-463.
• [2] M. Błażewicz, Węgiel jako biomateriał: badania nad biozgodnością włókien węglowych, Polska Akademia Nauk. Oddział w Krakowie: Ceramika, 2001.
• [3] M. Blazewicz, Carbon materials in the treatment of soft and hard tissue injuries; Eur Cell Mater, 2 (2001) 21-29.
• [4] M.S. Dresselhaus, A. Jorio, A.G. Souza, R. Saito, Defect characterization in graphene and carbon nanotubes using Raman spectroscopy; Philosophical Transactions of the Royal Society a-Mathematical Physical and Engineering Sciences, 368 (2010) 5355-5377.
• [5] R.J. Minns, M. Flynn, Intra-articular implant of filamentous carbon fibre in the experimental animal; J Bioeng, 2 (1978) 279-286.
• [6] P. Pongor, J. Betts, D.S. Muckle, G. Bentley, Woven carbon surface replacement in the knee: independent clinical review; Biomaterials, 13 (1992) 1070-1076.
• [7] M. Brittberg, E. Faxen, L. Peterson, Carbon fiber scaffolds in the treatment of early knee osteoarthritis. A prospective 4-year followup of 37 patients; Clin Orthop Relat Res, (1994) 155-164.

Uwagi

EN

This work has been supported by National Science Centre (NCN) grants Nos.: 2011/01/B/ST5/06424.