Embroidered polymer–collagen hybrid scaffold variants for ligament tissue engineering

Embroidery techniques and patterns used for scaffold production allow the adaption of biomechanical scaffold properties. The integration of collagen into embroidered polylactide-co-caprolactone [P(LA-CL)] and polydioxanone (PDS) scaffolds could stimulate neo-tissue formation by anterior cruciate lig...

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Bibliographic Details
Published in:Materials Science & Engineering C 2014-10, Vol.43, p.290-299
Main Authors: Hoyer, M., Drechsel, N., Meyer, M., Meier, C., Hinüber, C., Breier, A., Hahner, J., Heinrich, G., Rentsch, C., Garbe, L.-A., Ertel, W., Schulze-Tanzil, G., Lohan, A.
Format: Article
Language:English
Subjects:
Animals
Anterior Cruciate Ligament
Cattle
Collagen
Collagens
Embroidered scaffold
Foams
Hydrogels
Ligament tissue engineering
Ligaments
Microscopy, Electron, Scanning
Polydioxanone
Polylactide-co-caprolactone
Polymers
Scaffolds
Sewing
Sponges
Tissue Engineering
Tissue Scaffolds
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Summary:Embroidery techniques and patterns used for scaffold production allow the adaption of biomechanical scaffold properties. The integration of collagen into embroidered polylactide-co-caprolactone [P(LA-CL)] and polydioxanone (PDS) scaffolds could stimulate neo-tissue formation by anterior cruciate ligament (ACL) cells. Therefore, the aim of this study was to test embroidered P(LA-CL) and PDS scaffolds as hybrid scaffolds in combination with collagen hydrogel, sponge or foam for ligament tissue engineering. ACL cells were cultured on embroidered P(LA-CL) and PDS scaffolds without or with collagen supplementation. Cell adherence, vitality, morphology and ECM synthesis were analyzed. Irrespective of thread size, ACL cells seeded on P(LA-CL) scaffolds without collagen adhered and spread over the threads, whereas the cells formed clusters on PDS and larger areas remained cell-free. Using the collagen hydrogel, the scaffold colonization was limited by the gel instability. The collagen sponge layers integrated into the scaffolds were hardly penetrated by the cells. Collagen foams increased scaffold colonization in P(LA-CL) but did not facilitate direct cell-thread contacts in the PDS scaffolds. The results suggest embroidered P(LA-CL) scaffolds as a more promising basis for tissue engineering an ACL substitute than PDS due to superior cell attachment. Supplementation with a collagen foam presents a promising functionalization strategy. [Display omitted] •P(LA-CL) embroideries are more suitable for ligament tissue engineering than PDS.•Collagen hydrogel hybrid scaffolds promoted cell vitality and proper distribution.•Hybrid scaffolds with collagen sponge did not allow homogenous cell distribution.•Collagen foams are an interesting approach to functionalize embroideries.
ISSN:0928-4931
1873-0191
DOI:10.1016/j.msec.2014.07.010