Literature DB >> 25408434

Intermittent PTH administration and mechanical loading are anabolic for periprosthetic cancellous bone.

Matthew J Grosso1, Hayden-William Courtland, Xu Yang, James P Sutherland, Kirsten Stoner, Joseph Nguyen, Anna Fahlgren, F Patrick Ross, Marjolein C H van der Meulen, Mathias P Bostrom.   

Abstract

The purpose of this study was to determine the individual and combined effects on periprosthetic cancellous bone of intermittent parathyroid hormone administration (iPTH) and mechanical loading at the cellular, molecular, and tissue levels. Porous titanium implants were inserted bilaterally on the cancellous bone of adult rabbits beneath a loading device attached to the distal lateral femur. The left femur received a sham loading device. The right femur was loaded daily, and half of the rabbits received daily PTH. Periprosthetic bone was evaluated up to 28 days for gene expression, histology, and µCT analysis. Loading and iPTH increased bone mass by a combination of two mechanisms: (1) Altering cell populations in a pro-osteoblastic/anti-adipocytic direction, and (2) controlling bone turnover by modulating the RANKL-OPG ratio. At the tissue level, BV/TV increased with both loading (+53%, p < 0.05) and iPTH (+54%, p < 0.05). Combined treatment showed only small additional effects at the cellular and molecular levels that corresponded to a small additive effect on bone volume (+13% compared to iPTH alone, p > 0.05). This study suggests that iPTH and loading are potential therapies for enhancing periprosthetic bone formation. The elucidation of the cellular and molecular response may help further enhance the combined therapy and related targeted treatment strategies.
© 2014 Orthopaedic Research Society. Published by Wiley Periodicals, Inc.

Entities:  

Keywords:  implants; intermittent PTH; mechanical loading; periprosthetic bone mass

Mesh:

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Year:  2014        PMID: 25408434      PMCID: PMC4776647          DOI: 10.1002/jor.22748

Source DB:  PubMed          Journal:  J Orthop Res        ISSN: 0736-0266            Impact factor:   3.494


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