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Adiposity and Bone Loss in Spinal Cord Injury

$572,249R01FY2013ARNIH

Spaulding Rehabilitation Hospital, Boston MA

Investigators

Linked publications, trials & patents

Abstract

DESCRIPTION (provided by applicant): Excessive bone loss occurs following spinal cord injury (SCI) leading to osteoporosis and an increased risk of low-impact fracture in up to 50% of all individuals with neurologically complete SCI. These fractures can be catastrophic as they limit mobility, worsen disability, and predispose to medical complications While the underlying cause of this bone loss remains to be clarified, it is distinct in severity and pattern from other known causes of osteoporosis including disuse and postmenopausal osteoporosis. In contrast, the metaphyses of the distal femur and proximal tibia (i.e., above and below the knee) are the most commonly fractured sites following SCI. Currently, little is known about the cause of, the natural history, or the specific factors that contribute to the severity of bone loss following SCI. Based on preliminary studies, we hypothesize that visceral fat is involved in the pathogenesis of SCI-induced bone loss and may be a mediator of osteoporosis severity and fracture risk in this population. We propose to investigate the relationship between visceral fat, circulating levels of fat derived hormones, and longitudinal change in bone mineral density in chronic SCI. Participants with SCI whose health behaviors (smoking, alcohol use) and comorbid illnesses are known due to enrollment in a longitudinal health study at VA Boston will be studied. This study will be the first large longitudinal study of bone loss in chronic SCI, and is both significant and innovative because it will be the first to use SCI as a clinical model to characterize adipose mediated bone loss occurring in isolation from mechanical loading. Defining the rate of bone loss at the distal femur and proximal tibia and assessing relationships with visceral fat will have important implications for the management and prevention of osteoporosis in SCI. If confirmed, these findings will lay the groundwork for novel clinical programs that target excess body weight and to promote mechanical stimulation of bone to improve bone mass and prevent osteoporotic fractures.

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