Journalartikel

A METAPHYSEAL FRACTURE RAT MODEL FOR MECHANISTIC STUDIES OF OSTEOPOROTIC BONE HEALING


AutorenlisteWong, R. M. Y.; Thormann, U.; Choy, M. H., V; Chim, Y. N.; Li, M. C. M.; Wang, J. Y.; Leung, K. S.; Cheng, J. C. Y.; Alt, V; Chow, S. K. H.; Cheung, W. H.

Jahr der Veröffentlichung2019

Seiten420-430

ZeitschriftEuropean Cells & Materials Journal

Bandnummer37

ISSN1473-2262

Open Access StatusBronze

DOI Linkhttps://doi.org/10.22203/eCM.v037a25

VerlagForum Multimedia Publishing, LLC


Abstract

Most osteoporotic fractures occur at metaphyseal regions of long bones. The present study proposed a clinically relevant animal model that satisfied: i) induction of osteoporosis, ii) unilateral complete osteotomy at metaphysis, iii) internal fixation. 6 months old female Sprague-Dawley rats (n = 64) were randomly divided into the ovariectomised-metaphyseal osteotomy (OVX, n = 32) and metaphyseal osteotomy (SHAM, n = 32) groups. The metaphyseal-osteotomy model was created with a plate-fixation of the osteotomy and assessed by X-ray, micro-computed tomography, histomorphometry and mechanical testing at weeks 1, 3 and 6. X-ray results showed complete healing of metaphyseal osteotomy at week 6. Histology showed 3 stages of metaphyseal healing. Stage 1 was characterised by fibrous tissue, consisting of disorganised orientation of collagen fibres, and infiltration of immune cells. At stage 2, a transitional zone consisting of maturing fibrous tissue and differentiating mesenchymal cells with early trabecular bone formation and disorganised woven bone were observed. During stage 3, cortical bone ends unified and woven bone underwent transformation to lamellar bone. OVX group healing was significantly delayed when compared to SHAM samples.

The study demonstrated that healing of osteoporotic osteotomy at the metaphyseal region was delayed in terms of radiography, histomorphometry and mechanical strength. These quantitative evaluations, along with histological features, may provide key references for future studies. The animal model may provide additional clinical relevance as most osteoporotic fracture in humans occurs at metaphyseal regions.




Zitierstile

Harvard-ZitierstilWong, R., Thormann, U., Choy, M., Chim, Y., Li, M., Wang, J., et al. (2019) A METAPHYSEAL FRACTURE RAT MODEL FOR MECHANISTIC STUDIES OF OSTEOPOROTIC BONE HEALING, European Cells & Materials Journal, 37, pp. 420-430. https://doi.org/10.22203/eCM.v037a25

APA-ZitierstilWong, R., Thormann, U., Choy, M., Chim, Y., Li, M., Wang, J., Leung, K., Cheng, J., Alt, V., Chow, S., & Cheung, W. (2019). A METAPHYSEAL FRACTURE RAT MODEL FOR MECHANISTIC STUDIES OF OSTEOPOROTIC BONE HEALING. European Cells & Materials Journal. 37, 420-430. https://doi.org/10.22203/eCM.v037a25



Schlagwörter

endochondral ossificationHIGH-FREQUENCY VIBRATIONintramembranous ossificationLOW-MAGNITUDEmetaphyseal fractureOsteoporotic fracture healing

Zuletzt aktualisiert 2025-10-06 um 11:02