Tissue engineering of bone tissue. Principles and clinical applications

被引:0
作者
Schmidt-Rohlfing, B. [1 ]
Tzioupis, C. [2 ]
Menzel, C. L. [2 ,3 ]
Pape, H. C. [1 ,2 ]
机构
[1] Univ Klinikum RWTH Aachen, Klin Orthopad & Unfallchirurg, D-52074 Aachen, Germany
[2] Univ Pittsburgh, McGowan Inst Tissue Engn, Pittsburgh, PA 15260 USA
[3] Charite Univ Med Berlin, Berlin, Germany
来源
UNFALLCHIRURG | 2009年 / 112卷 / 09期
关键词
Tissue engineering; Bone tissue; Fracture healing; Non-union; Scaffold; Growth factor; STEM-CELLS; OSTEOBLASTS; REPAIR; MATRIX; HYDROXYAPATITE; SCAFFOLDS; DEFECTS; CULTURE; DESIGN;
D O I
10.1007/s00113-009-1695-x
中图分类号
R4 [临床医学];
学科分类号
1002 ; 100602 ;
摘要
Complex fractures are still a major clinical challenge. The treatment options of large bony defects either with autografts or allografts are limited in terms of material availability and tissue in-growth. Tissue engineering might offer a solution to this problem. In an interdisciplinary approach artificial bony tissue can be generated which mimics normal bone in terms of function and morphology. So far tissue engineering of bone is mainly confined to laboratory investigations whereas clinical applications are still in the beginning. This manuscript presents the most important scaffolds as well as growth factors and cell systems. Furthermore, it focuses on clinical studies for the treatment of large bony defects using tissue engineered cell-matrix constructs.
引用
收藏
页码:785 / 794
页数:10
相关论文
共 31 条
[11]   Tissue bionics: examples in biomimetic tissue engineering [J].
Green, David W. .
BIOMEDICAL MATERIALS, 2008, 3 (03)
[12]  
Harwood Paul J, 2005, Expert Opin Drug Saf, V4, P75, DOI 10.1517/14740338.4.1.75
[13]   Percutaneous autologous bone-marrow grafting for nonunions - Influence of the number and concentration of progenitor cells [J].
Hernigou, P ;
Poignard, A ;
Beaujean, F ;
Rouard, H .
JOURNAL OF BONE AND JOINT SURGERY-AMERICAN VOLUME, 2005, 87A (07) :1430-1437
[14]   Scaffolds in tissue engineering bone and cartilage [J].
Hutmacher, DW .
BIOMATERIALS, 2000, 21 (24) :2529-2543
[15]   Extracellular matrix formation and mineralization on a phosphate-free porous bioactive glass scaffold using primary human osteoblast (HOB) cells [J].
Jones, Julian R. ;
Tsigkou, Olga ;
Coates, Emily E. ;
Stevens, Molly M. ;
Polak, Julia M. ;
Hench, Larry L. .
BIOMATERIALS, 2007, 28 (09) :1653-1663
[16]   Translational research: From benchside to bedside [J].
Keramaris, N. C. ;
Kanakaris, N. C. ;
Tzioupis, C. ;
Kontakis, G. ;
Giannoudis, P. V. .
INJURY-INTERNATIONAL JOURNAL OF THE CARE OF THE INJURED, 2008, 39 (06) :643-650
[17]   Stimulation of osteoblast responses to biomimetic nanocomposites of gelatin-hydroxyapatite for tissue engineering scaffolds [J].
Kim, HW ;
Kim, HE ;
Salih, V .
BIOMATERIALS, 2005, 26 (25) :5221-5230
[18]   Transplantation of marrow-derived mesenchymal stem cells and platelet-rich plasma during distraction osteogenesis - a preliminary result of three cases [J].
Kitoh, H ;
Kitakoji, T ;
Tsuchiya, H ;
Mitsuyama, H ;
Nakamura, H ;
Katoh, M ;
Ishiguro, N .
BONE, 2004, 35 (04) :892-898
[19]   The effect of regional gene therapy with bone morphogenetic protein-2-producing bone-marrow cells on the repair of segmental femoral defects in rats [J].
Lieberman, JR ;
Daluiski, A ;
Stevenson, S ;
Wu, L ;
McAllister, P ;
Lee, YP ;
Kabo, JM ;
Finerman, GAM ;
Berk, AJ ;
Witte, ON .
JOURNAL OF BONE AND JOINT SURGERY-AMERICAN VOLUME, 1999, 81A (07) :905-917
[20]   Stem cells associated with macroporous bioceramics for long bone repair: 6-to 7-year outcome of a pilot clinical study [J].
Marcacci, Maurilio ;
Kon, Elizaveta ;
Moukhachev, Vladimir ;
Lavroukov, Andrei ;
Kutepov, Sergej ;
Quarto, Rodolfo ;
Mastrogiacomo, Maddalena ;
Cancedda, Ranieri .
TISSUE ENGINEERING, 2007, 13 (05) :947-955
1234