Electrically stimulated resistance training in SCI individuals increases muscle fatigue resistance but not femoral artery size or blood flow. - Wikidata - awgldk - TriplyDB

Electrically stimulated resistance training in SCI individuals increases muscle fatigue resistance but not femoral artery size or blood flow.

Electrically stimulated resistance training in SCI individuals increases muscle fatigue resistance but not femoral artery size or blood flow.

http://www.wikidata.org/entity/Q47369124

about

Strategies for Rapid Muscle Fatigue Reduction during FES Exercise in Individuals with Spinal Cord Injury: A Systematic Review Effects of Use and Disuse on Non-paralyzed and Paralyzed Skeletal Muscles A systematic review of exercise as a therapeutic intervention to improve arterial function in persons living with spinal cord injury.Electrical stimulation modulates Wnt signaling and regulates genes for the motor endplate and calcium binding in muscle of rats with spinal cord transection.Low-frequency fatigue in individuals with spinal cord injury.Neuromuscular Electrical Stimulation-Induced Resistance Training After SCI: A Review of the Dudley Protocol.Cardiovascular Health and Exercise Rehabilitation in Spinal Cord Injury.Skeletal muscle fatigue.Functional electrical stimulation: cardiorespiratory adaptations and applications for training in paraplegia.Electrical stimulation-evoked resistance exercise therapy improves arterial health after chronic spinal cord injury.Effects of once weekly NMES training on knee extensors fatigue and body composition in a person with spinal cord injury.Electrical stimulation and blood flow restriction increase wrist extensor cross-sectional area and flow meditated dilatation following spinal cord injury.A feasibility pilot using telehealth videoconference monitoring of home-based NMES resistance training in persons with spinal cord injury.Paradigms of Lower Extremity Electrical Stimulation Training After Spinal Cord Injury.Effects of electrical stimulation pattern on quadriceps force production and fatigue.Chronic effects of simultaneous electromyostimulation and vibration on leg blood flow in spinal cord injury.A 16-week randomized controlled trial evaluating the physical activity guidelines for adults with spinal cord injury.Endurance neuromuscular electrical stimulation training improves skeletal muscle oxidative capacity in individuals with motor-complete spinal cord injury.

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P2860

Electrically stimulated resistance training in SCI individuals increases muscle fatigue resistance but not femoral artery size or blood flow.

http://www.wikidata.org/entity/Q47369124

description

2006 nî lūn-bûn

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2006年の論文

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年學術文章

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2006年學術文章

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Electrically stimulated resist ...... ral artery size or blood flow.

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Electrically stimulated resist ...... ral artery size or blood flow.

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Electrically stimulated resist ...... ral artery size or blood flow.

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C Elder

http://www.w3.org/2001/XMLSchema#string

E T Mahoney

http://www.w3.org/2001/XMLSchema#string

G A Dudley

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K McCully

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L Stoner

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M J Sabatier

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P2860

Increasing blood flow before exercise in spinal cord-injured individuals does not alter muscle fatigue.

Exercise-induced muscle damage and potential mechanisms for the repeated bout effect.

Metabolic control of muscle blood flow during exercise in humans.

Body composition of spinal cord injured adults.

Differential effects of training on the control of skeletal muscle perfusion.

Phenotypic adaptations in human muscle fibers 6 and 24 wk after spinal cord injury.

Role of nitric oxide in exercise sympatholysis.

Changes in skeletal muscle size and glucose tolerance with electrically stimulated resistance training in subjects with chronic spinal cord injury.

A simple means of increasing muscle size after spinal cord injury: a pilot study.

Evaluation of a training program for persons with SCI paraplegia using the Parastep 1 ambulation system: part 5. Lower extremity blood flow and hyperemic responses to occlusion are augmented by ambulation training.

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10.1038/SJ.SC.3101834

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4

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44

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Christopher D Black

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