Mechanical properties of rat soleus after long-term spinal cord transection. - Wikidata - awgldk - TriplyDB

Mechanical properties of rat soleus after long-term spinal cord transection.

Mechanical properties of rat soleus after long-term spinal cord transection.

http://www.wikidata.org/entity/Q46125330

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Facilitation of stepping with epidural stimulation in spinal rats: role of sensory input.Metallothionein deficiency leads to soleus muscle contractile dysfunction following acute spinal cord injury in mice.Distribution and localization of 5-HT(1A) receptors in the rat lumbar spinal cord after transection and deafferentation Effects of baclofen on motor units paralysed by chronic cervical spinal cord injury.Epidural stimulation induced modulation of spinal locomotor networks in adult spinal rats.Skeletal muscle changes after hemiparetic stroke and potential beneficial effects of exercise intervention strategies.A proteomics analysis of the effects of chronic hemiparetic stroke on troponin T expression in human vastus lateralis.Application of a rat hindlimb model: a prediction of force spaces reachable through stimulation of nerve fascicles.Postfatigue potentiation of the paralyzed soleus muscle: evidence for adaptation with long-term electrical stimulation training.Pathophysiology of spastic paresis. I: Paresis and soft tissue changes.PPARδ preserves a high resistance to fatigue in the mouse medial gastrocnemius after spinal cord transection Hindlimb muscle morphology and function in a new atrophy model combining spinal cord injury and cast immobilization.Early changes in muscle atrophy and muscle fiber type conversion after spinal cord transection and peripheral nerve transection in rats.Integrating multiple sensory systems to modulate neural networks controlling posture.Early adaptive changes in chronic paraplegic mice: a model to study rapid health degradation after spinal cord injury.The biomechanics of sitting-acquired pressure ulcers in patients with spinal cord injury or lesions.Flexing computational muscle: modeling and simulation of musculotendon dynamics.Muscle and bone plasticity after spinal cord injury: review of adaptations to disuse and to electrical muscle stimulation A technological platform to optimize combinatorial treatment design and discovery for chronic spinal cord injury.Reactions of the rat musculoskeletal system to compressive spinal cord injury (SCI) and whole body vibration (WBV) therapy.Muscle after spinal cord injury.Transversal stiffness and beta-actin and alpha-actinin-4 content of the M. soleus fibers in the conditions of a 3-day reloading after 14-day gravitational unloading.Neuromodulation of the neural circuits controlling the lower urinary tract.Adaptations in metabolic capacity of rat soleus after paralysis.Assessment of hindlimb locomotor strength in spinal cord transected rats through animal-robot contact force.Reliability of isolated isometric function measures in rat muscles composed of different fibre types.Epidural spinal cord stimulation plus quipazine administration enable stepping in complete spinal adult rats.Electromechanical stimulation ameliorates inactivity-induced adaptations in the medial gastrocnemius of adult rats.Plasticity of spinal cord reflexes after a complete transection in adult rats: relationship to stepping ability.Repair of spinal cord transection and its effects on muscle mass and myosin heavy chain isoform phenotype.Tail muscles become slow but fatigable in chronic sacral spinal rats with spasticity.Stress analyses coupled with damage laws to determine biomechanical risk factors for deep tissue injury during sitting.Rat alpha- and gamma-motoneuron soma size and succinate dehydrogenase activity are independent of neuromuscular activity level.Effect of 23-day muscle disuse on sarcoplasmic reticulum Ca2+ properties and contractility in human type I and type II skeletal muscle fibers.Nutritional Health Considerations for Persons with Spinal Cord Injury.Transplantation of porous tubes following spinal cord transection improves hindlimb function in the rat.Does elimination of afferent input modify the changes in rat motoneurone properties that occur following chronic spinal cord transection?Anti-apoptotic and anti-oxidative roles of quercetin after traumatic brain injury.Anthropometry, Body Composition, and Performance in Sport-Specific Field Test in Female Wheelchair Basketball Players.Effects of ursolic acid on sub-lesional muscle pathology in a contusion model of spinal cord injury

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Mechanical properties of rat soleus after long-term spinal cord transection.

http://www.wikidata.org/entity/Q46125330

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2002 nî lūn-bûn

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2002年の論文

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2002年学术文章

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2002年学术文章

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2002年学术文章

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2002年学术文章

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2002年学术文章

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2002年学术文章

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2002年學術文章

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2002年學術文章

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name

Mechanical properties of rat soleus after long-term spinal cord transection.

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Mechanical properties of rat soleus after long-term spinal cord transection.

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type

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Mechanical properties of rat soleus after long-term spinal cord transection.

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Mechanical properties of rat soleus after long-term spinal cord transection.

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Mechanical properties of rat soleus after long-term spinal cord transection.

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Mechanical properties of rat soleus after long-term spinal cord transection.

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JAPPLPHYSIOL.00053.2002

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Journal of Applied Physiology

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Mechanical properties of rat soleus after long-term spinal cord transection.

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Robert J Talmadge

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Roland R Roy

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V Reggie Edgerton

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Vincent J Caiozzo

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P2860

Physiological types and histochemical profiles in motor units of the cat gastrocnemius

Activation of MEF2 by muscle activity is mediated through a calcineurin-dependent pathway

Myosin heavy chain isoform expression following reduced neuromuscular activity: potential regulatory mechanisms.

Calcineurin signaling and muscle remodeling.

Electromyography of rat soleus, medial gastrocnemius, and tibialis anterior during hind limb suspension.

Mechanical properties of rat skeletal muscle after hind limb suspension.

Retraining the injured spinal cord.

Effect of spaceflight on skeletal muscle: mechanical properties and myosin isoform content of a slow muscle.

How the science and engineering of spaceflight contribute to understanding the plasticity of spinal cord injury.

Microgravity-induced transformations of myosin isoforms and contractile properties of skeletal muscle.

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1487-1497

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