| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0301-0082(00)00007-1 |
| P698 | PubMed publication ID | 10840149 |
| P50 | author | Jens Bo Nielsen | Q25373290 |
| P2093 | author name string | Andersen JB | |
| Sinkjaer T | |||
| Petersen N | |||
| Christensen LO | |||
| P2860 | cites work | Impulses in the pyramidal tract | Q80330180 |
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| Backward and forward walking use different patterns of phase-dependent modulation of cutaneous reflexes in humans | Q71604359 | ||
| The maturation of cutaneous reflexes studied in the upper limb in man | Q71799458 | ||
| 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 | ||
| Cutaneous Reflexes During Human Gait: Electromyographic and Kinematic Responses to Electrical Stimulation | Q73486687 | ||
| Medium-latency stretch reflexes of foot and leg muscles analysed by cooling the lower limb in standing humans | Q73901181 | ||
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| Motor cortex reflexes associated with learned movement | Q28237688 | ||
| What functions do reflexes serve during human locomotion? | Q33641553 | ||
| What do reflex and voluntary mean? Modern views on an ancient debate. | Q33863177 | ||
| Corticospinal projections to lower limb motoneurons in man | Q34488822 | ||
| The significance of delayed long-loop responses to ankle displacement for the diagnosis of multiple sclerosis | Q38584303 | ||
| The transcortical nature of the late reflex responses in human small hand muscle to digital nerve stimulation | Q39233207 | ||
| The supraspinal control of mammalian locomotion | Q39580470 | ||
| Sorting of somatosensory afferent information in primate motor cortex | Q39627597 | ||
| Short-latency peripheral inputs to the motor cortex in conscious monkeys | Q39638683 | ||
| Responses of cortical neurons (areas 3a and 4) to ramp stretch of hindlimb muscles in the baboon | Q39776089 | ||
| Evidence for abnormal long-loop reflexes in rigid Parkinsonian patients | Q39961478 | ||
| Phase-dependent reversal of reflexly induced movements during human gait. | Q41096125 | ||
| Primary motor cortical responses to perturbations of prehension in the monkey | Q41105666 | ||
| Evidence that a long latency stretch reflex in humans is transcortical | Q41110877 | ||
| Different mechanisms underlie the long-latency stretch reflex response of active human muscle at different joints | Q41153887 | ||
| On the localization of the stretch reflex of intrinsic hand muscles in a patient with mirror movements | Q41208866 | ||
| Techniques and mechanisms of action of transcranial stimulation of the human motor cortex | Q41528996 | ||
| A review of recent applications of cross-correlation methodologies to human motor unit recording | Q41529038 | ||
| Evidence from the use of vibration that the human long-latency stretch reflex depends upon spindle secondary afferents | Q41547217 | ||
| Corticomotoneuronal cells contribute to long-latency stretch reflexes in the rhesus monkey | Q41596852 | ||
| A transcortical loop demonstrated by stimulation of low-threshold muscle afferents in the awake monkey | Q41623030 | ||
| Submodality distribution in sensorimotor cortex of the unanesthetized monkey | Q41633109 | ||
| Selective depression of medium-latency leg and foot muscle responses to stretch by an alpha 2-agonist in humans | Q41677418 | ||
| Stretch reflexes of triceps surae in patients with upper motor neuron syndromes | Q41864355 | ||
| Corticospinal projections to upper limb motoneurones in humans | Q42003340 | ||
| Evidence for a contribution of the motor cortex to the long-latency stretch reflex of the human thumb | Q42048736 | ||
| Spinal mechanisms of the functional stretch reflex | Q43635108 | ||
| The relations between long-latency reflexes in hand muscles, somatosensory evoked potentials and transcranial stimulation of motor tracts | Q44148924 | ||
| Mechanical and electromyographic responses to stretch of the human ankle extensors | Q44402300 | ||
| The effect of percutaneous motor cortex stimulation on H reflexes in muscles of the arm and leg in intact man. | Q44453906 | ||
| The effect of lesions of the sensorimotor cortex and the capsular pathways on servo responses from the human long thumb flexor | Q44477388 | ||
| Effects of electric and magnetic transcranial stimulation on long latency reflexes | Q44628529 | ||
| Gating and reversal of reflexes in ankle muscles during human walking. | Q45173706 | ||
| Tibialis anterior response to sudden ankle displacements in normal and parkinsonian subjects | Q45252738 | ||
| Different effect of height on latency of leg and foot short- and medium- latency EMG responses to perturbation of stance in humans | Q47334774 | ||
| Evidence for a quantitative association between EMG stretch responses and Parkinsonian rigidity | Q48103502 | ||
| Is presynaptic inhibition distributed to corticospinal fibres in man? | Q48122953 | ||
| Central regulation of motor cortex neuronal responses to forelimb nerve inputs during precision walking in the cat. | Q48146593 | ||
| Synchronization of human leg motor units during co-contraction in man. | Q48226609 | ||
| Increased amplitude of cutaneous reflexes during human running as compared to standing | Q48267789 | ||
| Phasic gain control of reflexes from the dorsum of the paw during spinal locomotion | Q48272000 | ||
| Evidence suggesting that a transcortical reflex pathway contributes to cutaneous reflexes in the tibialis anterior muscle during walking in man. | Q48294179 | ||
| Neuronal activity in the postcentral cortex related to force regulation during a precision grip task | Q48298631 | ||
| Transcranial electric and magnetic stimulation of the leg area of the human motor cortex: single motor unit and surface EMG responses in the tibialis anterior muscle | Q48317539 | ||
| Changes in the discharge patterns of cat motor cortex neurones during unexpected perturbations of on-going locomotion | Q48326942 | ||
| Disynaptic inhibition of spinal motoneurones from the motor cortex in the monkey | Q48385389 | ||
| Evidence that a transcortical pathway contributes to stretch reflexes in the tibialis anterior muscle in man. | Q48399130 | ||
| Development of speed of repetitive movements in children is determined by structural changes in corticospinal efferents | Q48431728 | ||
| The effect of postcentral cortical lesions on motor responses to sudden upper limb displacements in monkeys | Q48436083 | ||
| Cortical modulation of transmission in spinal reflex pathways of man | Q48441256 | ||
| Cortical facilitation of cutaneous reflexes in leg muscles during human gait | Q48456416 | ||
| Medium- and long-latency responses to displacements of the ankle joint in patients with spinal and central lesions | Q48495006 | ||
| The responses of cat motor cortical units to electrical cutaneous stimulation during locomotion and during lifting, falling and landing | Q48553670 | ||
| The Ferrier lecture, 1968. Motor apparatus of the baboon's hand. | Q48561511 | ||
| Responses of cat motor cortex neurons to cortico-cortical and somatosensory inputs | Q48580183 | ||
| Experiments on functional role of peripheral input to motor cortex during voluntary movements in the monkey | Q48638411 | ||
| Evidence suggesting a transcortical pathway from cutaneous foot afferents to tibialis anterior motoneurones in man. | Q48695763 | ||
| Comparison of activation of corticospinal neurons and spinal motor neurons by magnetic and electrical transcranial stimulation in the lumbosacral cord of the anaesthetized monkey | Q48714164 | ||
| Excitation of the corticospinal tract by electromagnetic and electrical stimulation of the scalp in the macaque monkey | Q48959353 | ||
| Observations on single neurons recorded in the sigmoid gyri of awake, nonparalyzed cats | Q51121988 | ||
| Responses of the pyramidal tract to stimulation of the baboon's motor cortex. | Q51210195 | ||
| Functional coupling between the pyramidal tract and segmental motoneurons in cat and primate. | Q51214254 | ||
| RESPONSE PROPERTIES OF NEURONS IN THE PERICRUCIATE CORTEX OF THE CAT FOLLOWING ELECTRICAL STIMULATION OF THE APPENDAGES. | Q51270117 | ||
| Direct comparison of corticospinal volleys in human subjects to transcranial magnetic and electrical stimulation. | Q51655190 | ||
| Changes in the response to magnetic and electrical stimulation of the motor cortex following muscle stretch in man | Q51717543 | ||
| Locomotor-related neuronal discharges in cat motor cortex compared with peripheral receptive fields and evoked movements. | Q51848879 | ||
| Sensitivity of H-reflexes and stretch reflexes to presynaptic inhibition in humans. | Q52185278 | ||
| Task-related changes in the effect of magnetic brain stimulation on spinal neurones in man. | Q52222190 | ||
| Magnetic stimulation of motor cortex and nerve roots in children. Maturation of cortico-motoneuronal projections | Q52238001 | ||
| Modulation of synaptic effectiveness of Ia and descending fibers in cat spinal cord | Q52312040 | ||
| ‘Long-loop’ reflexes can be obtained in spinal monkeys | Q60687171 | ||
| Latency of effects evoked by electrical and magnetic brain stimulation in lower limb motoneurones in man | Q60690990 | ||
| Cerebral functional anatomy of voluntary contractions of ankle muscles in man | Q61630583 | ||
| Task-dependent changes in the responses to low-threshold cutaneous afferent volleys in the human lower limb | Q67964937 | ||
| Reflex responses in active muscles elicited by stimulation of low-threshold afferents from the human foot | Q68142381 | ||
| Phase-dependent reflex reversal in human leg muscles during walking | Q68827338 | ||
| Analysis of human long-latency reflexes by cooling the peripheral conduction pathway; which afferents are involved? | Q69463108 | ||
| Mechanical and electromyographic responses to stretch of the human anterior tibial muscle at different levels of contraction | Q69962986 | ||
| Maturation of cutaneous reflex responses recorded in the lower limb in man | Q70096647 | ||
| Responses in small hand muscles from magnetic stimulation of the human brain | Q70274475 | ||
| Grouped spindle and electromyographic responses to abrupt wrist extension movements in man | Q70552235 | ||
| Late muscular responses to arm perturbations persist during supraspinal dysfunctions in monkeys | Q70681366 | ||
| Observations on the control of stepping and hopping movements in man | Q70706583 | ||
| Differential projection of the sural nerve to early and late recruited human tibialis anterior motor units: change of recruitment gain | Q70717110 | ||
| Functional properties of monkey motor cortex neurones receiving afferent input from the hand and fingers | Q70879182 | ||
| Relation between shapes of post-synaptic potentials and changes in firing probability of cat motoneurones | Q71044811 | ||
| Stretch reflexes of the proximal arm in a patient with mirror movements: absence of bilateral long-latency components | Q71117877 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 251-272 | |
| P577 | publication date | 2000-10-01 | |
| P1433 | published in | Progress in Neurobiology | Q15716615 |
| P1476 | title | Evidence for transcortical reflex pathways in the lower limb of man. | |
| P478 | volume | 62 |
| Q94464095 | A Review of Robot-Assisted Lower-Limb Stroke Therapy: Unexplored Paths and Future Directions in Gait Rehabilitation |
| Q48504075 | Axial reflexes are present in older subjects and may contribute to balance responses |
| Q28345175 | Changes in intracortical excitability induced by stimulation of wrist afferents in man |
| Q48406921 | Changes in spinal but not cortical excitability following combined electrical stimulation of the tibial nerve and voluntary plantar-flexion. |
| Q48351804 | Contribution of sensory feedback to plantar flexor muscle activation during push-off in adults with cerebral palsy. |
| Q36672556 | Contributions of feed-forward and feedback strategies at the human ankle during control of unstable loads |
| Q48293275 | Cortical and spinal adaptations induced by balance training: correlation between stance stability and corticospinal activation. |
| Q45751751 | Cortical involvement in anticipatory postural reactions in man. |
| Q34478772 | Dynamic sensorimotor interactions in locomotion |
| Q44301287 | Facilitation of both stretch reflex and corticospinal pathways of the tibialis anterior muscle during standing in humans |
| Q52343759 | Feedforward neural control of toe walking in humans. |
| Q44307021 | Functional coupling of motor units is modulated during walking in human subjects. |
| Q42639613 | Gait acts as a gate for reflexes from the foot. |
| Q35609112 | Interlimb communication following unexpected changes in treadmill velocity during human walking |
| Q46071977 | Interlimb communication to the knee flexors during walking in humans |
| Q48377596 | Modulation of cutaneous reflexes in arm muscles during walking: further evidence of similar control mechanisms for rhythmic human arm and leg movements |
| Q36202543 | Modulation of motor cortex excitability by sustained peripheral stimulation: the interaction between the motor cortex and the cerebellum |
| Q91911672 | Modulation of soleus stretch reflexes during walking in people with chronic incomplete spinal cord injury |
| Q48535782 | Motor adaptation following split-belt treadmill walking. |
| Q46402409 | Motor cortical modulation of cutaneous reflex responses in the hindlimb of the intact cat. |
| Q79429312 | Muscle activation following sudden ankle inversion during standing and walking |
| Q87844536 | Muscle spindle thixotropy affects force perception through afferent-induced facilitation of the motor pathways as revealed by the Kohnstamm effect |
| Q52055948 | Neural control: novel evaluation of stretch reflex sensitivity. |
| Q47707480 | Neuromuscular and biomechanical coupling in human cycling: adaptations to changes in crank length |
| Q36714292 | On the effect of walking surface stiffness on inter-limb coordination in human walking: toward bilaterally informed robotic gait rehabilitation |
| Q79121273 | On the reflex coactivation of ankle flexor and extensor muscles induced by a sudden drop of support surface during walking in humans |
| Q26862978 | Operant conditioning of spinal reflexes: from basic science to clinical therapy |
| Q46503290 | Peripheral sensory activation of cortical circuits in the leg motor cortex of man. |
| Q61630505 | Positive force feedback in human walking |
| Q43726309 | Predictive control of ankle stiffness at heel contact is a key element of locomotor adaptation during split-belt treadmill walking in humans |
| Q48328745 | Reflex and non-reflex torque responses to stretch of the human knee extensors |
| Q51405573 | Soleus Hoffmann reflex amplitudes are specifically modulated by cutaneous inputs from the arms and opposite leg during walking but not standing. |
| Q34249888 | State-dependent modulation of sensory feedback. |
| Q98565469 | Transcutaneous spinal direct current stimulation increases corticospinal transmission and enhances voluntary motor output in humans |
| Q47884070 | Variable impact of tizanidine on the medium latency reflex of upper and lower limbs. |
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