Human cartilage fragments in a composite scaffold for single-stage cartilage repair: an in vitro study of the chondrocyte migration and the influence of TGF-β1 and G-CSF

Human cartilage fragments in a composite scaffold for single-stage cartilage repair: an in vitro study of the chondrocyte migration and the influence of TGF-β1 and G-CSF

Purpose Minced chondral fragments are becoming popular as a source of cells for cartilage repair, as a growing interest is developing towards one-stage procedures to treat cartilage lesions. The purpose of this study is to (A) compare cell outgrowth from cartilage fragments of adult and young donors...

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Published in:Knee surgery, sports traumatology, arthroscopy : official journal of the ESSKA Vol. 21; no. 8; pp. 1819 - 1833
Main Authors: Marmotti, A., Bonasia, D. E., Bruzzone, M., Rossi, R., Castoldi, F., Collo, G., Realmuto, C., Tarella, C., Peretti, G. M.
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-08-2013
Subjects:
Adult
Age Factors
beta Catenin - metabolism
Cartilage - cytology
Cell Culture Techniques
Cell Movement
Chondrocytes - cytology
Chondrocytes - transplantation
Experimental Study
Femur - surgery
Fluorescent Antibody Technique
Granulocyte Colony-Stimulating Factor - pharmacology
Humans
Hyaluronic Acid
Integrin alpha3 - metabolism
Medicine
Medicine & Public Health
Middle Aged
Orthopedics
Proliferating Cell Nuclear Antigen - metabolism
Receptors, Granulocyte Colony-Stimulating Factor - metabolism
SOX9 Transcription Factor - metabolism
Tetraspanin 24 - metabolism
Time Factors
Tissue Scaffolds
Transforming Growth Factor beta1 - pharmacology
Viscosupplements
In vitro human
1
Minced cartilage fragments
TGF
Cartilage repair
Platelet-rich plasma
Fibrin glue
Scaffold
Hyaluronic acid
G-CSF
G-CSF receptor
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Summary:Purpose Minced chondral fragments are becoming popular as a source of cells for cartilage repair, as a growing interest is developing towards one-stage procedures to treat cartilage lesions. The purpose of this study is to (A) compare cell outgrowth from cartilage fragments of adult and young donors using two different types of scaffolds and (B) evaluate the influence of transforming-growth-factor- β 1 (TGF- β 1) and granulocyte colony-stimulating factor (G-CSF) on chondrocyte behaviour. Methods In part (A) cartilage fragments from adult and young donors were either loaded onto an HA-derivative injectable paste scaffold or onto an HA-derivative membrane scaffold. Construct sections were then examined for cell counting after 1, 2 and 3 months. In part (B) only membrane scaffolds were prepared using cartilage fragments from young donors. Constructs were cultured either in standard growth medium or in the presence of specific growth factors, such as TGF- β 1 or G-CSF or TGF- β 1 + G-CSF. After 1 month, construct sections were examined for cell counting. Expression of chondrocyte markers (SOX9, CD151, CD49c) and proliferative markers ( β -catenin, PCNA) was assessed using immunofluorescence techniques, both in unstimulated construct sections and in cells from unstimulated and stimulated construct cultures. Results Part (A): histological analysis showed age-dependent and time-dependent chondrocyte migration. A significant difference ( p  < 0.05) was observed between young and older donors at the same time point. No difference was detected between the two types of scaffolds within the same group at the same time point. Part (B): after 1 month, the number of migrating cells/area significantly increased due to exposure to TGF- β 1 and/or G-CSF ( p  < 0.05). Immunofluorescence revealed that outgrowing cells from unstimulated scaffold sections were positive for SOX9, CD151, CD49c and G-CSF receptor. Immunofluorescence of cells from construct cultures showed an increase in β -catenin in all stimulated groups and an increased PCNA expression in G-CSF-exposed cultures ( p  < 0.05). Conclusion Outgrowing cells may represent a subset of chondrocytes undergoing a phenotypic shift towards a proliferative state. TGF- β 1, and to a greater extent G-CSF, may accelerate this outgrowth. The clinical relevance of this study may involve a potential future clinical application of scaffolds preloaded with growth factors as an additional coating for chondral fragments. Indeed, a controlled delivery of G-CSF, widely employed in various clinical settings, might improve the repair process driven by minced human cartilage fragments during one-stage cartilage repair.
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ISSN:0942-2056
1433-7347
DOI:10.1007/s00167-012-2244-7