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Trauma-Induced Nanohydroxyapatite Deposition in Skeletal Muscle is Sufficient to Drive Heterotopic Ossification

Authors :
Jonathan G. Schoenecker
Sami Tannouri
Jouni Uitto
Thomas H. Arnold
Stephanie N. Moore-Lotridge
Herbert S. Schwartz
Qiaoli Li
Gregory D. Hawley
Joseph T. Martin
Breanne H.Y. Gibson
Richard J. Gumina
Masanori Saito
Justin M M Cates
Source :
Calcified Tissue International
Publication Year :
2018
Publisher :
Springer US, 2018.

Abstract

Heterotopic ossification (HO), or the pathologic formation of bone within soft tissues, is a significant complication following severe injuries as it impairs joint motion and function leading to loss of the ability to perform activities of daily living and pain. While soft tissue injury is a prerequisite of developing HO, the exact molecular pathology leading to trauma-induced HO remains unknown. Through prior investigations aimed at identifying the causative factors of HO, it has been suggested that additional predisposing factors that favor ossification within the injured soft tissues environment are required. Considering that chondrocytes and osteoblasts initiate physiologic bone formation by depositing nanohydroxyapatite crystal into their extracellular environment, we investigated the hypothesis that deposition of nanohydroxyapatite within damaged skeletal muscle is likewise sufficient to predispose skeletal muscle to HO. Using a murine model genetically predisposed to nanohydroxyapatite deposition (ABCC6-deficient mice), we observed that following a focal muscle injury, nanohydroxyapatite was robustly deposited in a gene-dependent manner, yet resolved via macrophage-mediated regression over 28 days post injury. However, if macrophage-mediated regression was inhibited, we observed persistent nanohydroxyapatite that was sufficient to drive the formation of HO in 4/5 mice examined. Together, these results revealed a new paradigm by suggesting the persistent nanohydroxyapatite, referred to clinically as dystrophic calcification, and HO may be stages of a pathologic continuum, and not discrete events. As such, if confirmed clinically, these findings support the use of early therapeutic interventions aimed at preventing nanohydroxyapatite as a strategy to evade HO formation. Electronic supplementary material The online version of this article (10.1007/s00223-018-0502-5) contains supplementary material, which is available to authorized users.

Details

Language :
English
ISSN :
14320827 and 0171967X
Volume :
104
Issue :
4
Database :
OpenAIRE
Journal :
Calcified Tissue International
Accession number :
edsair.doi.dedup.....84c448009c9d6aa470adfffcac9be06b