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Article type: Research Article
Authors: Nebelung, Sven; | Gavenis, Karsten | Rath, Björn | Tingart, Marcus | Ladenburger, Andreas | Stoffel, Marcus | Zhou, Bei | Mueller-Rath, Ralf
Affiliations: Department of Orthopaedics and Trauma Surgery, Aachen University Hospital, Aachen, Germany | Department of Orthopaedics, Würzburg University Hospital, Würzburg, Germany | Institute of General Mechanics, RWTH Aachen, Germany | Orthopaedic Clinics Neuss, Neuss, Germany
Note: [] Address for correspondence: Sven Nebelung, Department of Orthopaedics and Trauma Surgery, Aachen University Hospital, Pauwelsstrasse 30, 52074 Aachen, Germany. Tel.: +49 241 80 85585; Fax: +49 241 80 82453; E-mail: [email protected].
Abstract: Purpose: This study investigated the potential of cyclic compressive loading in the generation of in vitro engineered cartilaginous tissue with the aim of contributing to a better understanding of mechanical preconditioning and its possible role in further optimizing existing matrix-associated cartilage replacement procedures. Methods: Human chondrocytes were harvested from 12 osteoarthritic knee joints and seeded into a type I collagen (col-I) hydrogel at low density (2×105 cells/ml gel). The cell-seeded hydrogel was condensed and cultivated under continuous cyclic compressive loading (frequency: 0.3 Hz; strain: 10%) for 14 days under standardized conditions. After retrieval, specimens were subject to staining, histomorphometric evaluation, gene expression analysis and biomechanical testing. Results: Cellular morphology was altered by both stimulation and control conditions as was staining for collagen II (col-II). Gene expression measurements revealed a significant increase for col-II under either cultivation condition. No significant differences in col-I, aggrecan and MMP-13 gene expression profiles were found. The col-II/col-I mRNA ratio significantly increased under stimulation, whereas the biomechanical properties deteriorated under either cultivation method. Conclusions: Although the effects observed are small, mechanical preconditioning has demonstrated its potential to modulate biological properties of collagen hydrogels seeded with human chondrocytes.
Keywords: Human chondrocytes, cell-seeded scaffold, bioreactor cultivation, collagen hydrogel, dynamic loading
DOI: 10.3233/BIR-2012-0597
Journal: Biorheology, vol. 48, no. 5-6, pp. 247-261, 2011
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