In vitro heterogeneity of osteogenic cell populations at various equine skeletal sites


Autoria(s): McDuffee, LA; Anderson, GI; Wright, GM; Ryan, DA
Contribuinte(s)

Dr Eva Nagy

Heather Broughton

Data(s)

01/01/2006

Resumo

Bone cell cultures were evaluated to determine if osteogenic cell populations at different skeletal sites in the horse are heterogeneous. Osteogenic cells were isolated from cortical and cancellous bone in vitro by an explant culture method. Subcultured cells were induced to differentiate into bone-forming osteoblasts. The osteoblast phenotype was confirmed by immunohistochemical testing for osteocalcin and substantiated by positive staining of cells for alkaline phosphatase and the matrix materials collagen and glycosaminoglycans. Bone nodules were stained by the von Kossa method and counted. The numbers of nodules produced from osteogenic cells harvested from different skeletal sites were compared with the use of a mixed linear model. On average, cortical bone sites yielded significantly greater numbers of nodules than did cancellous bone sites. Between cortical bone sites, there was no significant difference in nodule numbers. Among cancellous sites, the radial cancellous bone yielded significantly more nodules than did the tibial cancellous bone. Among appendicular skeletal sites, tibial metaphyseal bone yielded significantly fewer nodules than did all other long bone sites. This study detected evidence of heterogeneity of equine osteogenic cell populations at various skeletal sites. Further characterization of the dissimilarities is warranted to determine the potential role heterogeneity plays in differential rates of fracture healing between skeletal sites.

Identificador

http://espace.library.uq.edu.au/view/UQ:80199

Idioma(s)

eng

Publicador

Canadian Vet Med Assoc

Palavras-Chave #In Vitro #Heterogenelty #Osteogenic #Cell #Populations #Equine #Skeletal #Sites #Veterinary Sciences #Mineralized Bone Nodules #Age-related-changes #Rat Calvaria Cells #Donor Age #Osteoblast Proliferation #Formed Invitro #Growth-factor #Differentiation #Osteoprogenitors #Decreases #C1 #300500 Veterinary Sciences #630107 Minor livestock (e.g. horses, goats, deer)
Tipo

Journal Article