Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability. - Test2 - elhamkhani - TriplyDB

Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability.

Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability.

http://www.wikidata.org/entity/Q30479284

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Long-latency reflexes account for limb biomechanics through several supraspinal pathways.Trunk muscle reflex amplitudes increased in patients with subacute, recurrent LBP treated with a 10-week stabilization exercise program The ipsilateral motor cortex does not contribute to long-latency stretch reflex amplitude at the wrist.Priors engaged in long-latency responses to mechanical perturbations suggest a rapid update in state estimation.Cortical and spinal mechanisms of task failure of sustained submaximal fatiguing contractions.Task-dependent coordination of rapid bimanual motor responses.Complex impairment of IA muscle proprioceptors following traumatic or neurotoxic injury Goal-dependent modulation of the long-latency stretch response at the shoulder, elbow, and wrist Rapid feedback corrections during a bimanual postural task Cerebellar damage diminishes long-latency responses to multijoint perturbations.Common muscle synergies for balance and walking Long-latency reflexes of elbow and shoulder muscles suggest reciprocal excitation of flexors, reciprocal excitation of extensors, and reciprocal inhibition between flexors and extensors Implicit learning and generalization of stretch response modulation in humans Long-latency muscle activity reflects continuous, delayed sensorimotor feedback of task-level and not joint-level error.Primary motor cortex underlies multi-joint integration for fast feedback control.The influence of insoles with a peroneal pressure point on the electromyographic activity of tibialis anterior and peroneus longus during gait.Primary motor cortex of the parkinsonian monkey: altered neuronal responses to muscle stretch.Control of dynamic foot-ground interactions in male and female soccer athletes: females exhibit reduced dexterity and higher limb stiffness during landing Optimal feedback control and the long-latency stretch response.Motor control abnormalities in Parkinson's disease.Predictions not commands: active inference in the motor system Sensory systems in the control of movement.Suboptimal Muscle Synergy Activation Patterns Generalize their Motor Function across Postures.Primary motor cortex and fast feedback responses to mechanical perturbations: a primer on what we know now and some suggestions on what we should find out next.Sensory control of normal movement and of movement aided by neural prostheses.Towards physics of neural processes and behavior.Estimation of human ankle impedance during the stance phase of walking.Optimality and stability of intentional and unintentional actions: II. Motor equivalence and structure of variance.Unintentional changes in the apparent stiffness of the multi-joint limb.Unintentional movements induced by sequential transient perturbations in a multi-joint positional task.A novel path to chronic proprioceptive disability with oxaliplatin: Distortion of sensory encoding.Coordinating long-latency stretch responses across the shoulder, elbow, and wrist during goal-directed reaching.Force encoding in muscle spindles during stretch of passive muscle.Distributed task-specific processing of somatosensory feedback for voluntary motor control.Intentional and unintentional multi-joint movements: their nature and structure of variance.Age-related neuromuscular function and dynamic balance control during slow and fast balance perturbations.Multisensory components of rapid motor responses to fingertip loading.Mechanical perturbations can elicit triggered reactions in the absence of a startle response.The level of performance stabilization influences motor adaptation on an isometric force control task.Compensating for intersegmental dynamics across the shoulder, elbow, and wrist joints during feedforward and feedback control.

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P2860

Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability.

http://www.wikidata.org/entity/Q30479284

description

2010 nî lūn-bûn

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2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

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2010 թվականի հոտեմբերին հրատարակված գիտական հոդված

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2010年の論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年论文

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Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability.

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Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability.

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Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability.

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Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability.

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J.CLINPH.2010.02.166

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Clinical Neurophysiology

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Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability.

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Eric J Perreault

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Jonathan Shemmell

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Matthew A Krutky

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P2860

Use of self-selected postures to regulate multi-joint stiffness during unconstrained tasks

Motor cortex reflexes associated with learned movement

Group II muscle afferents probably contribute to the medium latency soleus stretch reflex during walking in humans

Cortical control of postural responses.

The differential role of motor cortex in stretch reflex modulation induced by changes in environmental mechanics and verbal instruction

The effect of task instruction on the excitability of spinal and supraspinal reflex pathways projecting to the biceps muscle

Voluntary modulation of human stretch reflexes.

Interactions between limb and environmental mechanics influence stretch reflex sensitivity in the human arm

Interactions with compliant loads alter stretch reflex gains but not intermuscular coordination.

Patterned ballistic movements triggered by a startle in healthy humans.

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1680-1689

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scholarly article

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10.1016/J.CLINPH.2010.02.166

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10

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121

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2010-10-01T00:00:00Z

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43533429

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20434396

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2932821

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