Pages that link to "Q72037869"

The following pages link to Fatigability, relaxation properties, and electromyographic responses of the human paralyzed soleus muscle (Q72037869):

Displaying 50 items.

• Mathematical models use varying parameter strategies to represent paralyzed muscle force properties: a sensitivity analysis. (Q24811374) (← links)
• Recovery of neuronal and network excitability after spinal cord injury and implications for spasticity (Q26825721) (← links)
• Recovery of control of posture and locomotion after a spinal cord injury: solutions staring us in the face (Q33347554) (← links)
• Low frequency depression of H-reflexes in humans with acute and chronic spinal-cord injury (Q33666449) (← links)
• Doublet electrical stimulation enhances torque production in people with spinal cord injury (Q33790777) (← links)
• High-versus low-frequency stimulation effects on fine motor control in chronic hemiplegia: a pilot study (Q34204250) (← links)
• Muscular, skeletal, and neural adaptations following spinal cord injury (Q34524823) (← links)
• Altered mRNA expression after long-term soleus electrical stimulation training in humans with paralysis (Q34683753) (← links)
• A minimal dose of electrically induced muscle activity regulates distinct gene signaling pathways in humans with spinal cord injury. (Q34758299) (← links)
• Mimicking muscle activity with electrical stimulation (Q34793317) (← links)
• Electrical stimulation modulates Wnt signaling and regulates genes for the motor endplate and calcium binding in muscle of rats with spinal cord transection (Q34893224) (← links)
• Low-frequency stimulation regulates metabolic gene expression in paralyzed muscle (Q35178575) (← links)
• Postfatigue potentiation of the paralyzed soleus muscle: evidence for adaptation with long-term electrical stimulation training. (Q35724224) (← links)
• Feedback-controlled stimulation enhances human paralyzed muscle performance (Q35724253) (← links)
• Dose estimation and surveillance of mechanical loading interventions for bone loss after spinal cord injury (Q35724264) (← links)
• Electrically induced muscle contractions influence bone density decline after spinal cord injury (Q35724288) (← links)
• Musculoskeletal adaptations in chronic spinal cord injury: effects of long-term soleus electrical stimulation training (Q35724303) (← links)
• The non-linear relationship between muscle voluntary activation level and voluntary force measured by the interpolated twitch technique (Q35727252) (← links)
• Predictive model of muscle fatigue after spinal cord injury in humans (Q35737531) (← links)
• Peripheral quantitative computed tomography: measurement sensitivity in persons with and without spinal cord injury. (Q35737534) (← links)
• Bone mineral density after spinal cord injury: a reliable method for knee measurement (Q35737541) (← links)
• Predicting human chronically paralyzed muscle force: a comparison of three mathematical models. (Q35742488) (← links)
• Soleus H-reflex recruitment is not altered in persons with chronic spinal cord injury. (Q35819945) (← links)
• Musculoskeletal plasticity after acute spinal cord injury: effects of long-term neuromuscular electrical stimulation training (Q35819950) (← links)
• Increased spinal reflex excitability is associated with enhanced central activation during voluntary lengthening contractions in human spinal cord injury (Q35871341) (← links)
• Exercise recommendations for individuals with spinal cord injury (Q35904841) (← links)
• Distinct Skeletal Muscle Gene Regulation from Active Contraction, Passive Vibration, and Whole Body Heat Stress in Humans. (Q36093644) (← links)
• A motor unit-based model of muscle fatigue (Q36390726) (← links)
• Within-train neuromuscular propagation varies with torque in paralyzed human muscle (Q36409630) (← links)
• Femoral loads during passive, active, and active-resistive stance after spinal cord injury: a mathematical model (Q36729366) (← links)
• Fatigue modulates synchronous but not asynchronous soleus activation during stimulation of paralyzed muscle (Q37075714) (← links)
• The effectiveness of progressively increasing stimulation frequency and intensity to maintain paralyzed muscle force during repetitive activation in persons with spinal cord injury. (Q37149815) (← links)
• Muscle and bone plasticity after spinal cord injury: review of adaptations to disuse and to electrical muscle stimulation (Q37195874) (← links)
• Doublet stimulation protocol to minimize musculoskeletal stress during paralyzed quadriceps muscle testing. (Q37348106) (← links)
• Single pellet grasping following cervical spinal cord injury in adult rat using an automated full-time training robot (Q37501899) (← links)
• Reducing muscle fatigue during transcutaneous neuromuscular electrical stimulation by spatially and sequentially distributing electrical stimulation sources. (Q37631685) (← links)
• Low force contractions induce fatigue consistent with muscle mRNA expression in people with spinal cord injury. (Q37664169) (← links)
• Neuromuscular electrical stimulation: implications of the electrically evoked sensory volley (Q37909112) (← links)
• Skeletal muscle fatigue. (Q38116829) (← links)
• Fatigability, oxygen uptake kinetics and muscle deoxygenation in incomplete spinal cord injury during treadmill walking (Q38651733) (← links)
• Effect of functional neuromuscular stimulation on postural related orthostatic stress in individuals with acute spinal cord injury. (Q39565147) (← links)
• Lower extremity skeletal muscle function in persons with incomplete spinal cord injury (Q40365803) (← links)
• Mathematical models of human paralyzed muscle after long-term training. (Q40849555) (← links)
• Intramuscular stimulation of tibialis anterior in human subjects: the effects of discharge variability on force production and fatigue. (Q41385816) (← links)
• In Vivo Assessment of Mitochondrial Dysfunction in Clinical Populations Using Near-Infrared Spectroscopy (Q41673379) (← links)
• Repeated maximal volitional effort contractions in human spinal cord injury: initial torque increases and reduced fatigue. (Q41722545) (← links)
• Spinal cord injury and contractile properties of the human tibialis anterior (Q41850833) (← links)
• Strategies to augment volitional and reflex function may improve locomotor capacity following incomplete spinal cord injury. (Q46688274) (← links)
• Low-Force Muscle Activity Regulates Energy Expenditure after Spinal Cord Injury (Q48890745) (← links)
• Nutritional Health Considerations for Persons with Spinal Cord Injury (Q50017971) (← links)