Physiatrists' opinions and practice patterns for bone health after SCI

Ashe, Maureen C.; Eng, Janice J.; Krassioukov, Andrei V.

doi:10.1038/sc.2008.104

Cited by 6 publications

(4 citation statements)

References 20 publications

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“…Despite self-reported bone health screening practices between 54% and 82% 22,23 among health care providers, a recent retrospective review of postfracture care across 4 Veterans Affairs Medical Centers in the United States revealed that less than 5% of individuals with SCI had a DXA scan in the year before or after fracture. 6 The lack of proper screening practices and awareness among health care providers suggests that current practices are likely failing to identify persons at high risk of fracture, thereby limiting the ability to prevent fracture occurrence.…”

Section: Discussionmentioning

confidence: 99%

Self-Report of One-Year Fracture Incidence and Osteoporosis Prevalence in a Community Cohort of Canadians with Spinal Cord Injury

Pelletier

Dumont

Leblond

et al. 2014

Topics in Spinal Cord Injury Rehabilitation

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Section: Discussionmentioning

confidence: 99%

Self-Report of One-Year Fracture Incidence and Osteoporosis Prevalence in a Community Cohort of Canadians with Spinal Cord Injury

Pelletier

Dumont

Leblond

et al. 2014

Topics in Spinal Cord Injury Rehabilitation

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“…At present, there is no consensus on a systematic approach to the management of sublesional bone loss and fracture after SCI. Spinal injuries physicians typically have a reactive response to fracture, rather than implementing proactive management [10]. Early identification of individuals at highest risk of fracture may allow targeted preventative treatment, which would ideally begin during their inpatient stay in their primary care or rehabilitation unit.…”

Section: Introductionmentioning

confidence: 99%

Predicting patient-specific rates of bone loss at fracture-prone sites after spinal cord injury

Coupaud¹,

McLean

Lloyd

et al. 2012

Disability and Rehabilitation

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3 Robertson Centre for Biostatistics, University of Glasgow, Glasgow G12 8QQ. AbstractPurpose: People with spinal cord injury (SCI) experience bone loss and have an elevated rate of fracture in the paralysed limbs. The literature suggests an exponential time course of bone loss after SCI, but true rates may vary between patients. We propose systematic evaluation of bone status in the early stages of SCI to identify fast bone losers. Method: A case series of six patients with complete SCI were scanned using peripheral Quantitative Computed Tomography within five weeks and at four, eight and twelve months post-injury. Bone mineral density (BMD) and content (BMC) were measured at fracture-prone sites in the tibia and femur. Patientspecific-predictions (PSP) of expected rates of bone loss were produced by individualising published model equations according to each patient's measured values at baseline. Wilcoxon Signed-Rank tests were used to identify changes between time-points; chi-squared tests for differences between measured and PSP values.Results: In the lower limbs, mean values decreased significantly between baseline and eight months postinjury, by 19-31% for trabecular BMD, 21-32% for total BMD, and 9-29% for BMC. Most subjects showed no significant differences between PSP and measured values, but individuals with significantly faster rates of bone loss than predicted should be investigated further.Conclusions: There was considerable intersubject variability in rates of bone loss after SCI. Patients showing fastest bone loss could benefit from continued follow-up and possibly treatment.

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“…Subsequently, individuals living with SCI report daytime symptoms such as fatigue, excessive day time sleepiness,11,12 difficulties with concentration, and impaired quality of life. Furthermore, fatigue and excessive daytime sleepiness, have been associated with pain,13 depression,14 side effects of medications, spasticity,15 discomforts related to posture16 and autonomic dysfunction17 in people living with SCI. Intrestingly, recent studies suggested that SCI does not in itself result in significantly impact of fatigue on health-related quality of life 18.…”

Section: Introductionmentioning

confidence: 99%

<p>Impact Of Spinal Cord Injury On Sleep: Current Perspectives</p>

Sankari¹,

Badr²,

Martin³

et al. 2019

NSS

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Sleep disorders are commonly encountered in people living with spinal cord injury (SCI). Primary sleep disorders such as sleep-disordered breathing (SDB), sleep-related movement disorders, circadian rhythm sleep-wake disorders, and insomnia disorder are common conditions after SCI but remain under-recognized, underdiagnosed and therefore remain untreated for a majority of patients. Sleep disturbances in people living with SCI are associated with significant impairments of daytime function and quality of life. Previous reviews have described findings related mainly to SDB but have not examined the relationship between other sleep disorders and SCI. This narrative review examines various sleep abnormalities and related functional and physical impairments in people living with SCI. It discusses new evidence pertaining to management, highlights existing limitations in the literature and recommends future directions for research.

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Physiatrists' opinions and practice patterns for bone health after SCI

Cited by 6 publications

References 20 publications

Self-Report of One-Year Fracture Incidence and Osteoporosis Prevalence in a Community Cohort of Canadians with Spinal Cord Injury

Self-Report of One-Year Fracture Incidence and Osteoporosis Prevalence in a Community Cohort of Canadians with Spinal Cord Injury

Predicting patient-specific rates of bone loss at fracture-prone sites after spinal cord injury

<p>Impact Of Spinal Cord Injury On Sleep: Current Perspectives</p>

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