Improved healing of critical-size femoral defect in osteoporosis rat models using 3D elastin/polycaprolactone/nHA scaffold in combination with mesenchymal stem cells.

Animals Biocompatible Materials Cell Differentiation Cell Survival Durapatite / chemistry Elastin / chemistry Female Materials Testing Mesenchymal Stem Cells Microscopy, Electron, Scanning Nanostructures Osteogenesis Osteoporosis / therapy Polyesters / chemistry Rats Rats, Wistar Tissue Engineering Tissue Scaffolds

Journal

Journal of materials science. Materials in medicine

ISSN: 1573-4838

Titre abrégé: J Mater Sci Mater Med

Pays: United States

ID NLM: 9013087

Informations de publication

Date de publication:
08 Mar 2021

Historique:

received: 20 06 2020

accepted: 15 02 2021

entrez: 8 3 2021

pubmed: 9 3 2021

medline: 6 11 2021

Statut: epublish

Résumé

Osteoporosis is a common bone disease that results in elevated risk of fracture, and delayed bone healing and impaired bone regeneration are implicated by this disease. In this study, Elastin/Polycaprolactone/nHA nanofibrous scaffold in combination with mesenchymal stem cells were used to regenerate bone defects. Cytotoxicity, cytocompatibility and cellular morphology were evaluated in vitro and observations revealed that an appropriate environment for cellular attachment, growth, migration, and proliferation is provided by this scaffold. At 3 months following ovariectomy (OVX), the rats were used as animal models with an induced critical size defect in the femur to evaluate the therapeutic potential of osteogenic differentiation of bone marrow mesenchymal stem cells (BM-MSCs) seeded on 3 dimension (3D) scaffolds. In this experimental study, 24 female Wistar rats were equally divided into three groups: Control, scaffold (non-seeded BM-MSC), and scaffold + cell (seeded BM-MSC) groups. 30 days after surgery, the right femur was removed, and underwent a stereological analysis and RNA extraction in order to examine the expression of Bmp-2 and Vegf genes. The results showed a significant increase in stereological parameters and expression of Bmp-2 and Vegf in scaffold and scaffold + cell groups compared to the control rats. The present study suggests that the use of the 3D Elastin/Polycaprolactone (PCL)/Nano hydroxyapatite (nHA) scaffold in combination with MSCs may improve the fracture regeneration and accelerates bone healing at the osteotomy site in rats.

Identifiants

DOI: 10.1007/s10856-021-06495-w PMID: 33683483 PMC: PMC7940275

pubmed: 33683483

doi: 10.1007/s10856-021-06495-w

pii: 10.1007/s10856-021-06495-w

pmc: PMC7940275

doi:

Substances chimiques

Biocompatible Materials 0

Polyesters 0

polycaprolactone 24980-41-4

Elastin 9007-58-3

Durapatite 91D9GV0Z28

Types de publication

Journal Article

Langues

eng

Sous-ensembles de citation

Pagination

Références

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Improved healing of critical-size femoral defect in osteoporosis rat models using 3D elastin/polycaprolactone/nHA scaffold in combination with mesenchymal stem cells.

Journal

Informations de publication

Résumé

Identifiants

Substances chimiques

Types de publication

Langues

Sous-ensembles de citation

Pagination

Références

Auteurs

Fatemeh Hejazi (F)

Vahid Ebrahimi (V)

Mehrdad Asgary (M)

Abbas Piryaei (A)

Mohammad Javad Fridoni (MJ)

Ali Asghar Kermani (AA)

Fatemeh Zare (F)

Mohammad-Amin Abdollahifar (MA)

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Classifications MeSH