| scholarly article | Q13442814 |
| P50 | author | Lehana Thabane | Q28320748 |
| P2093 | author name string | C D Moore | |
| A Papaioannou | |||
| J D Adachi | |||
| L M Giangregorio | |||
| B C Craven | |||
| A C Laing | |||
| A W Frank-Wilson | |||
| S A Kontulainen | |||
| P2860 | cites work | Relationship of spasticity to soft tissue body composition and the metabolic profile in persons with chronic motor complete spinal cord injury | Q33784068 |
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| The role of skeletal muscle insulin resistance in the pathogenesis of the metabolic syndrome | Q35901803 | ||
| Site-specific variance in radius and tibia bone strength as determined by muscle size and body mass | Q36094542 | ||
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| Locomotor training and muscle function after incomplete spinal cord injury: case series | Q36962659 | ||
| Skeletal muscle adiposity is associated with serum lipid and lipoprotein levels in Afro-Caribbean men | Q37107016 | ||
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| Waist circumference is the best index for obesity-related cardiovascular disease risk in individuals with spinal cord injury. | Q37523963 | ||
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| Standardizing evaluation of pQCT image quality in the presence of subject movement: qualitative versus quantitative assessment | Q37629383 | ||
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| Relevance of vitamin D in muscle health | Q37948690 | ||
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| Lower extremity skeletal muscle function in persons with incomplete spinal cord injury | Q40365803 | ||
| What you see may not be what you get: a brief, nontechnical introduction to overfitting in regression-type models | Q40505322 | ||
| Community-dwelling female fallers have lower muscle density in their lower legs than non-fallers: evidence from the Saskatoon Canadian Multicentre Osteoporosis Study (CaMos) cohort | Q41622492 | ||
| Waist circumference, waist-hip ratio and body mass index and their correlation with cardiovascular disease risk factors in Australian adults. | Q44671124 | ||
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| Low-grade systemic inflammation and leptin levels were improved by arm cranking exercise in adults with chronic spinal cord injury. | Q45058073 | ||
| Incidence and prevalence of spinal cord injury in Canada: a national perspective. | Q45913323 | ||
| Functional electrical stimulation cycling improves body composition, metabolic and neural factors in persons with spinal cord injury | Q46623978 | ||
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| Does physical activity in adolescence have site-specific and sex-specific benefits on young adult bone size, content, and estimated strength? | Q47219578 | ||
| Spasticity may defend skeletal muscle size and composition after incomplete spinal cord injury | Q47279520 | ||
| A single threshold value of waist girth identifies normal-weight and overweight subjects with excess visceral adipose tissue | Q47322846 | ||
| Can body weight supported treadmill training increase bone mass and reverse muscle atrophy in individuals with chronic incomplete spinal cord injury? | Q47334046 | ||
| Effects of resistance training on adiposity and metabolism after spinal cord injury. | Q48854097 | ||
| Assessment of measures for abdominal adiposity in persons with spinal cord injury. | Q48886340 | ||
| Measurement of body fat in individuals with tetraplegia: a comparison of eight clinical methods. | Q51650674 | ||
| Skeletal muscle atrophy and increased intramuscular fat after incomplete spinal cord injury. | Q51788607 | ||
| Body composition assessment in athletes with spinal cord injury: comparison of field methods with dual-energy X-ray absorptiometry. | Q51839383 | ||
| Combining propensity score matching and group-based trajectory analysis in an observational study. | Q51906678 | ||
| Waist circumference and obesity-associated risk factors among whites in the third National Health and Nutrition Examination Survey: clinical action thresholds. | Q52031816 | ||
| Bone-muscle strength indices for the human lower leg. | Q52970762 | ||
| Thigh muscle attenuation measured by computed tomography was associated with the risk of low bone density in community-dwelling elderly population. | Q53146383 | ||
| Visceral adipose tissue and the ratio of visceral to subcutaneous adipose tissue are greater in adults with than in those without spinal cord injury, despite matching waist circumferences. | Q53430567 | ||
| Muscle X-ray attenuation is not decreased during experimental bed rest. | Q54667407 | ||
| Intrathecal baclofen for severe spinal spasticity | Q69504207 | ||
| Factors influencing body composition in persons with spinal cord injury: a cross-sectional study | Q73789828 | ||
| Influence of complete spinal cord injury on skeletal muscle cross-sectional area within the first 6 months of injury | Q78250847 | ||
| Assessment of anthropometric, systemic, and lifestyle factors influencing bone status in the legs of spinal cord injured individuals | Q80075827 | ||
| Analytical and clinical validation of the 25 OH vitamin D assay for the LIAISON automated analyzer | Q80568407 | ||
| Relationships between calf muscle density and muscle strength, mobility and bone status in the stroke survivors with subacute and chronic lower limb hemiparesis | Q82659200 | ||
| Lower-extremity muscle cross-sectional area after incomplete spinal cord injury | Q83860812 | ||
| Is the emergency department an appropriate substitute for primary care for persons with traumatic spinal cord injury? | Q85419478 | ||
| P433 | issue | 1 | |
| P304 | page(s) | 32-41 | |
| P577 | publication date | 2015-03-01 | |
| P1433 | published in | The Journal of Musculoskeletal and Neuronal Interactions | Q15762443 |
| P1476 | title | Lower-extremity muscle atrophy and fat infiltration after chronic spinal cord injury | |
| P478 | volume | 15 |
| Q89031532 | Activity-Based Physical Rehabilitation with Adjuvant Testosterone to Promote Neuromuscular Recovery after Spinal Cord Injury |
| Q31167841 | Ambulatory function in motor incomplete spinal cord injury: a magnetic resonance imaging study of spinal cord edema and lower extremity muscle morphometry |
| Q55453436 | Associations between lean mass and leptin in men with chronic spinal cord injury: Results from the FRASCI-muscle study. |
| Q36987754 | Biochemical biomarkers are not dependent on physical exercise in patients with spinal cord injury |
| Q39280828 | Changes in Gene Expression and Metabolism in the Testes of the Rat following Spinal Cord Injury. |
| Q90320955 | Dietary manipulation and testosterone replacement therapy may explain changes in body composition after spinal cord injury: A retrospective case report |
| Q50054837 | Does Neuromuscular Electrical Stimulation Therapy Increase Voluntary Muscle Strength After Spinal Cord Injury? A Systematic Review. |
| Q58695917 | Effects of ursolic acid on sub-lesional muscle pathology in a contusion model of spinal cord injury |
| Q47314943 | Energy expenditure after spinal cord injury in people with motor-complete tetraplegia or motor-complete paraplegia |
| Q88051744 | Epidural stimulation with locomotor training improves body composition in individuals with cervical or upper thoracic motor complete spinal cord injury: A series of case studies |
| Q58774451 | Krogh's principle for musculoskeletal physiology and pathology |
| Q38793103 | Measuring muscle and bone in individuals with neurologic impairment; lessons learned about participant selection and pQCT scan acquisition and analysis. |
| Q36572367 | Muscle Density and Bone Quality of the Distal Lower Extremity Among Individuals with Chronic Spinal Cord Injury |
| Q55260695 | Retained differentiation capacity of human skeletal muscle satellite cells from spinal cord-injured individuals. |
| Q94464327 | Spinal Cord Injury as a Model of Bone-Muscle Interactions: Therapeutic Implications From in vitro and in vivo Studies |
| Q89338855 | Structural changes in the thigh muscles following trans-femoral amputation |
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