TY - JOUR
T1 - Can bone tissue engineering contribute to therapy concepts after resection of musculoskeletal sarcoma?
AU - Holzapfel, Boris Michael
AU - Chhaya, Mohit Prashant
AU - Melchels, Ferry Petrus Wilhelmus
AU - Holzapfel, Nina Pauline
AU - Prodinger, Peter Michael
AU - Von Eisenhart-Rothe, Ruediger
AU - Van Griensven, Martijn
AU - Schantz, Jan Thorsten
AU - Rudert, Maximilian
AU - Hutmacher, Dietmar Werner
PY - 2013
Y1 - 2013
N2 - Resection of musculoskeletal sarcoma can result in large bone defects where regeneration is needed in a quantity far beyond the normal potential of self-healing. In many cases, these defects exhibit a limited intrinsic regenerative potential due to an adjuvant therapeutic regimen, seroma, or infection. Therefore, reconstruction of these defects is still one of the most demanding procedures in orthopaedic surgery. The constraints of common treatment strategies have triggered a need for new therapeutic concepts to design and engineer unparalleled structural and functioning bone grafts. To satisfy the need for long-term repair and good clinical outcome, a paradigm shift is needed from methods to replace tissues with inert medical devices to more biological approaches that focus on the repair and reconstruction of tissue structure and function. It is within this context that the field of bone tissue engineering can offer solutions to be implemented into surgical therapy concepts after resection of bone and soft tissue sarcoma. In this paper we will discuss the implementation of tissue engineering concepts into the clinical field of orthopaedic oncology.
AB - Resection of musculoskeletal sarcoma can result in large bone defects where regeneration is needed in a quantity far beyond the normal potential of self-healing. In many cases, these defects exhibit a limited intrinsic regenerative potential due to an adjuvant therapeutic regimen, seroma, or infection. Therefore, reconstruction of these defects is still one of the most demanding procedures in orthopaedic surgery. The constraints of common treatment strategies have triggered a need for new therapeutic concepts to design and engineer unparalleled structural and functioning bone grafts. To satisfy the need for long-term repair and good clinical outcome, a paradigm shift is needed from methods to replace tissues with inert medical devices to more biological approaches that focus on the repair and reconstruction of tissue structure and function. It is within this context that the field of bone tissue engineering can offer solutions to be implemented into surgical therapy concepts after resection of bone and soft tissue sarcoma. In this paper we will discuss the implementation of tissue engineering concepts into the clinical field of orthopaedic oncology.
UR - http://www.scopus.com/inward/record.url?scp=84873378629&partnerID=8YFLogxK
U2 - 10.1155/2013/153640
DO - 10.1155/2013/153640
M3 - Review article
AN - SCOPUS:84873378629
SN - 1357-714X
VL - 2013
JO - Sarcoma
JF - Sarcoma
M1 - 153640
ER -