Effects of spinal cord injury on body composition and metabolic profile - part I.
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Effects of Use and Disuse on Non-paralyzed and Paralyzed Skeletal MusclesSkeletal muscle mitochondrial health and spinal cord injuryAdiposity and spinal cord injury.Effects of a fifty-six month electrical stimulation cycling program after tetraplegia: case report.Peripheral Arterial Disease and Spinal Cord Injury: A Retrospective Nationwide Cohort Study.A Direct Comparison of Three Clinically Relevant Treatments in a Rat Model of Cervical Spinal Cord Injury.Muscle activity and mood state during simulated plant factory work in individuals with cervical spinal cord injury.Heightened TWEAK-NF-κB signaling and inflammation-associated fibrosis in paralyzed muscles of men with chronic spinal cord injury.Neuromuscular electrical stimulation and testosterone did not influence heterotopic ossification size after spinal cord injury: A case seriesMitochondrial mass and activity as a function of body composition in individuals with spinal cord injury.Autonomic dysreflexia after spinal cord injury: Systemic pathophysiology and methods of management.MRI analysis and clinical significance of lower extremity muscle cross-sectional area after spinal cord injury.Effects Of treadmill training on hindlimb muscles of spinal cord-injured mice.Gait recovery following spinal cord injury in mice: Limited effect of treadmill training.Electrical stimulation and blood flow restriction increase wrist extensor cross-sectional area and flow meditated dilatation following spinal cord injury.Abundance in proteins expressed after functional electrical stimulation cycling or arm cycling ergometry training in persons with chronic spinal cord injury.Anthropometric prediction of skeletal muscle cross-sectional area in persons with spinal cord injury.Higher Dietary Intake of Vitamin D May Influence Total Cholesterol and Carbohydrate Profile Independent of Body Composition in Men with Chronic Spinal Cord Injury.Biomarkers of cardiometabolic health are associated with body composition characteristics but not physical activity in persons with spinal cord injury.A feasibility pilot using telehealth videoconference monitoring of home-based NMES resistance training in persons with spinal cord injury.Energy expenditure after spinal cord injury in people with motor-complete tetraplegia or motor-complete paraplegia.A clinically meaningful training effect in walking speed using functional electrical stimulation for motor-incomplete spinal cord injury.Effects of resistance-guided high intensity interval functional electrical stimulation cycling on an individual with paraplegia: A case report.Arm crank ergometry improves cardiovascular disease risk factors and community mobility independent of body composition in high motor complete spinal cord injury.Gut Microbiota Are Disease-Modifying Factors After Traumatic Spinal Cord Injury.Resting metabolic rate of Indian Junior Soccer players: Testing agreement between measured versus selected predictive equations.The influence of level of spinal cord injury on adipose tissue and its relationship to inflammatory adipokines and cardiometabolic profiles.Neurogenic obesity and systemic inflammation following spinal cord injury: a review.Paradigms of Lower Extremity Electrical Stimulation Training After Spinal Cord Injury.Exoskeleton Training May Improve Level of Physical Activity After Spinal Cord Injury: A Case Series.Plasma adiponectin levels are correlated with body composition, metabolic profiles, and mitochondrial markers in individuals with chronic spinal cord injury.The health benefits and constraints of exercise therapy for wheelchair users: A clinical commentary.Cardiovascular disease risk marker responses to breaking up prolonged sedentary time in individuals with paraplegia: the Spinal Cord Injury Move More (SCIMM) randomised crossover laboratory trial protocol.Robotic exoskeletons: The current pros and consAnthropometric cutoffs and associations with visceral adiposity and metabolic biomarkers after spinal cord injurySemi-automated segmentation of magnetic resonance images for thigh skeletal muscle and fat using threshold technique after spinal cord injury
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P2860
Effects of spinal cord injury on body composition and metabolic profile - part I.
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2014 nî lūn-bûn
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2014 թուականի Յուլիսին հրատարակուած գիտական յօդուած
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2014 թվականի հուլիսին հրատարակված գիտական հոդված
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2014年の論文
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2014年論文
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2014年論文
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2014年論文
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2014年論文
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2014年論文
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2014年论文
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name
Effects of spinal cord injury on body composition and metabolic profile - part I.
@ast
Effects of spinal cord injury on body composition and metabolic profile - part I.
@en
Effects of spinal cord injury on body composition and metabolic profile - part I.
@nl
type
label
Effects of spinal cord injury on body composition and metabolic profile - part I.
@ast
Effects of spinal cord injury on body composition and metabolic profile - part I.
@en
Effects of spinal cord injury on body composition and metabolic profile - part I.
@nl
prefLabel
Effects of spinal cord injury on body composition and metabolic profile - part I.
@ast
Effects of spinal cord injury on body composition and metabolic profile - part I.
@en
Effects of spinal cord injury on body composition and metabolic profile - part I.
@nl
P2093
P2860
P1476
Effects of spinal cord injury on body composition and metabolic profile - part I
@en
P2093
Camilo Castillo
David R Dolbow
David R Gater
James D Dolbow
Refka K Khalil
P2860
P304
P356
10.1179/2045772314Y.0000000245
P577
2014-07-07T00:00:00Z