scholarly article | Q13442814 |
P2093 | author name string | Eric J Perreault | |
Yasin Y Dhaher | |||
James M Finley | |||
P2860 | cites work | The role of joint biomechanics in determining stretch reflex latency at the normal human ankle. | Q53881404 |
Altered reflex sensitivity after repeated and prolonged passive muscle stretching. | Q54100383 | ||
Soleus long-latency stretch reflexes during walking in healthy and spastic humans | Q60696090 | ||
Impaired stretch reflex and joint torque modulation during spastic gait in multiple sclerosis patients | Q60696101 | ||
The suppression of the long-latency stretch reflex in the human tibialis anterior muscle by transcranial magnetic stimulation | Q61630539 | ||
Segmental reflexes and ankle joint stiffness during co-contraction of antagonistic ankle muscles in man | Q61630689 | ||
The regulation of presynaptic inhibition during co-contraction of antagonistic muscles in man | Q61630693 | ||
Changes in the stretch reflex of the human first dorsal interosseous muscle during different tasks | Q68136320 | ||
The acceleration response of a primary muscle-spindle ending to ramp stretch of the extrafusal muscle | Q68405860 | ||
The organization of heterogenic reflexes among muscles crossing the ankle joint in the decerebrate cat | Q69755000 | ||
Mechanical and electromyographic responses to stretch of the human anterior tibial muscle at different levels of contraction | Q69962986 | ||
Human H-reflexes are smaller in difficult beam walking than in normal treadmill walking | Q70237520 | ||
Response to sudden torques about ankle in man. II. Postmyotatic reactions | Q71129711 | ||
Task-dependent modulation of short- and long-latency electromyographic responses in upper limb muscles | Q71616128 | ||
Response to sudden torques about ankle in man: V effects of peripheral ischemia | Q71798860 | ||
Evidence of positive force feedback among hindlimb extensors in the intact standing cat | Q72037933 | ||
Nonlinear behavior of muscle reflexes at the human ankle joint | Q72150846 | ||
Changes in the short- and long-latency stretch reflex components of the triceps surae muscle during ischaemia in man | Q72333356 | ||
Contrasts between the reflex responses to tibialis anterior and triceps surae to sudden ankle rotation in normal human subjects | Q72673277 | ||
Group II spindle afferent fibers in humans: their possible role in the reflex control of stance | Q73354895 | ||
Gradual increment/decrement of isometric force modulates soleus stretch reflex response in humans | Q73676920 | ||
Medium-latency stretch reflexes of foot and leg muscles analysed by cooling the lower limb in standing humans | Q73901181 | ||
The influence of prior instruction to the subject on an apparently involuntary neuro-muscular response | Q74029943 | ||
Synaptic actions on motoneurones caused by impulses in Golgi tendon organ afferents | Q77075445 | ||
Discharges in human muscle spindle afferents during a key-pressing task | Q81994386 | ||
Discharges in human muscle receptor afferents during block grasping | Q82742256 | ||
Direct corticospinal pathways contribute to neuromuscular control of perturbed stance | Q83118359 | ||
Motor cortex reflexes associated with learned movement | Q28237688 | ||
Group II muscle afferents probably contribute to the medium latency soleus stretch reflex during walking in humans | Q28345178 | ||
Transcranial magnetic stimulation and stretch reflexes in the tibialis anterior muscle during human walking | Q28356987 | ||
The differential role of motor cortex in stretch reflex modulation induced by changes in environmental mechanics and verbal instruction | Q30481889 | ||
Voluntary modulation of human stretch reflexes | Q33290746 | ||
Influence of enhanced visual feedback on postural control and spinal reflex modulation during stance | Q33329107 | ||
Interactions between limb and environmental mechanics influence stretch reflex sensitivity in the human arm | Q33593581 | ||
Interactions with compliant loads alter stretch reflex gains but not intermuscular coordination | Q33607614 | ||
A rigorous model of reflex function indicates that position and force feedback are flexibly tuned to position and force tasks | Q33651528 | ||
Intrinsic and reflex contributions to human ankle stiffness: variation with activation level and position | Q33931129 | ||
Responses of Golgi tendon organs to active contractions of the soleus muscle of the cat | Q34243967 | ||
Identification of intrinsic and reflex contributions to human ankle stiffness dynamics | Q34426180 | ||
MUSCLE SPINDLES AND THEIR MOTOR CONTROL. | Q35442599 | ||
Influence of environmental stability on the regulation of end-point impedance during the maintenance of arm posture | Q36600762 | ||
Contributions of feed-forward and feedback strategies at the human ankle during control of unstable loads | Q36672556 | ||
Human neuronal control of automatic functional movements: interaction between central programs and afferent input | Q36741611 | ||
Primary motor cortex underlies multi-joint integration for fast feedback control. | Q37152989 | ||
A feedback model explains the differential scaling of human postural responses to perturbation acceleration and velocity | Q37221819 | ||
Stretch reflexes of triceps surae in normal man. | Q39267445 | ||
Regulatory actions of human stretch reflex | Q41061557 | ||
Stretch reflex dynamics in spastic elbow flexor muscles | Q41349356 | ||
Evidence for lb inhibition in human subjects | Q41441573 | ||
Response to sudden torques about ankle in man: myotatic reflex | Q41504932 | ||
Corticomotoneuronal cells contribute to long-latency stretch reflexes in the rhesus monkey | Q41596852 | ||
Selective depression of medium-latency leg and foot muscle responses to stretch by an alpha 2-agonist in humans | Q41677418 | ||
Postural instability enhances motor responses to transcranial magnetic stimulation in humans. | Q44275875 | ||
Mechanical and electromyographic responses to stretch of the human ankle extensors | Q44402300 | ||
Muscular control of landing from unexpected falls in man | Q44780246 | ||
The monosynaptic Ia afferent pathway can largely explain the stretch duration effect of the long latency M2 response. | Q47203820 | ||
Different effect of height on latency of leg and foot short- and medium- latency EMG responses to perturbation of stance in humans | Q47334774 | ||
Adapting reflexes controlling the human posture | Q48369376 | ||
Evidence that a transcortical pathway contributes to stretch reflexes in the tibialis anterior muscle in man. | Q48399130 | ||
A task dependent change in the medium latency component of the soleus stretch reflex | Q48535628 | ||
The mechanical effectiveness of short latency reflexes in human triceps surae muscles revealed by ischaemia and vibration | Q49036267 | ||
Long latency reflexes to imposed displacements of the human wrist: dependence on duration of movement | Q49066219 | ||
The influence of perturbation duration and velocity on the long-latency response to stretch in the biceps muscle. | Q49140898 | ||
Central control of reciprocal inhibition during fictive dorsiflexion in man. | Q51616487 | ||
Task-dependent changes in the response of human wrist joints to mechanical disturbance | Q51696783 | ||
Movement reduces the dynamic response of muscle spindle afferents and motoneuron synaptic potentials in rat. | Q51728156 | ||
Dependence of dynamic response of spindle receptors on muscle length and velocity. | Q52736634 | ||
P433 | issue | 3 | |
P304 | page(s) | e00051 | |
P577 | publication date | 2013-08-22 | |
P1433 | published in | Physiological Reports | Q15716763 |
P1476 | title | Acceleration dependence and task-specific modulation of short- and medium-latency reflexes in the ankle extensors | |
P478 | volume | 1 |
Q90354639 | Agonist-Antagonist Coactivation Enhances Corticomotor Excitability of Ankle Muscles |
Q39204670 | Estimation of human ankle impedance during the stance phase of walking |
Q37396082 | Evidence of impaired neuromuscular responses in the support leg to a destabilizing swing phase perturbation in hemiparetic gait |
Q47919629 | Mechanisms contributing to reduced knee stiffness during movement. |
Q37344703 | Summary of Human Ankle Mechanical Impedance During Walking. |
Q37452528 | Unilateral Eccentric Contraction of the Plantarflexors Leads to Bilateral Alterations in Leg Dexterity |