The present in vivo preliminary experiment is aimed at testing mechanical and biological behaviour of a new nano-structured composite multilayer biomimetic scaffold for the treatment of chondral and osteochondral defects. The three-dimensional biomimetic scaffold (Fin-Ceramica Faenza S.p.A., Faenza-Italy) was obtained by nucleating collagen fibrils with hydroxyapatite nanoparticles, in two configurations, bi- and tri-layered, to reproduce, respectively, chondral and osteochondral anatomy. Chondral defects (lateral condyle) and deep osteochondral defects (medial condyle) were made in the distal epiphysis of the third metacarpal bone of both forelimbs of two adult horses and treated respectively with the chondral and osteochondral grafts. Both animals were euthanised six months follow up. The images obtained at the second look arthroscopy evaluation, performed two months after surgery, demonstrated good filling of the chondral and osteo-chondral defects without any inflammatory reaction around and inside the lesions. At the histological analysis the growth of trabecular bone in the osteochondral lesion was evident. Only in one case, the whole thickness of the osteochondral lesion was filled by fibrocartilaginous tissue. The formation of a tidemark line was evident at the interface with the newly formed bone. Newly formed fibrocartilaginous tissue was present in the area of the chondral defect. Initial alignment of the collagen fibres was recognisable with polarised light in both groups. The results of the present pilot study showed that this novel osteochondral and chondral scaffold may act as a suitable matrix to facilitate orderly regeneration of bone and hyaline-like cartilage.

Kon, E., Mutini, A., Arcangeli, E., Delcogliano, M., Filardo, G., Nicoli Aldini, N., et al. (2010). Novel nanostructured scaffold for osteochondral regeneration: Pilot study in horses. JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE, 4(4), 300-308 [10.1002/term.243].

Novel nanostructured scaffold for osteochondral regeneration: Pilot study in horses

KON, ELIZAVETA;DELCOGLIANO, MARCO;FILARDO, GIUSEPPE;NICOLI ALDINI, NICOLO';ZAFFAGNINI, STEFANO;MARCACCI, MAURILIO
2010

Abstract

The present in vivo preliminary experiment is aimed at testing mechanical and biological behaviour of a new nano-structured composite multilayer biomimetic scaffold for the treatment of chondral and osteochondral defects. The three-dimensional biomimetic scaffold (Fin-Ceramica Faenza S.p.A., Faenza-Italy) was obtained by nucleating collagen fibrils with hydroxyapatite nanoparticles, in two configurations, bi- and tri-layered, to reproduce, respectively, chondral and osteochondral anatomy. Chondral defects (lateral condyle) and deep osteochondral defects (medial condyle) were made in the distal epiphysis of the third metacarpal bone of both forelimbs of two adult horses and treated respectively with the chondral and osteochondral grafts. Both animals were euthanised six months follow up. The images obtained at the second look arthroscopy evaluation, performed two months after surgery, demonstrated good filling of the chondral and osteo-chondral defects without any inflammatory reaction around and inside the lesions. At the histological analysis the growth of trabecular bone in the osteochondral lesion was evident. Only in one case, the whole thickness of the osteochondral lesion was filled by fibrocartilaginous tissue. The formation of a tidemark line was evident at the interface with the newly formed bone. Newly formed fibrocartilaginous tissue was present in the area of the chondral defect. Initial alignment of the collagen fibres was recognisable with polarised light in both groups. The results of the present pilot study showed that this novel osteochondral and chondral scaffold may act as a suitable matrix to facilitate orderly regeneration of bone and hyaline-like cartilage.
2010
Kon, E., Mutini, A., Arcangeli, E., Delcogliano, M., Filardo, G., Nicoli Aldini, N., et al. (2010). Novel nanostructured scaffold for osteochondral regeneration: Pilot study in horses. JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE, 4(4), 300-308 [10.1002/term.243].
Kon, E.; Mutini, A.; Arcangeli, E.; Delcogliano, M; Filardo, G.; Nicoli Aldini, N.; Pressato, D.; Quarto, R.; Zaffagnini, S.; Marcacci, M.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/520077
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