review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | F B Horak | |
J V Jacobs | |||
P2860 | cites work | Mechanisms for selection of basic motor programs – roles for the striatum and pallidum | Q22337301 |
The neural representation of postural control in humans | Q24674114 | ||
The effect of a concurrent cognitive task on cortical potentials evoked by unpredictable balance perturbations | Q24794718 | ||
Common fronto-parietal activity in attention, memory, and consciousness: shared demands on integration? | Q30991916 | ||
Simple and complex vestibular responses induced by electrical cortical stimulation of the parietal cortex in humans. | Q35459632 | ||
Repetitive training of compensatory steps: a therapeutic approach for postural instability in Parkinson's disease | Q35478393 | ||
Role of basal ganglia-brainstem systems in the control of postural muscle tone and locomotion | Q35599293 | ||
Role of the cerebellum in the control and adaptation of gait in health and disease | Q35599326 | ||
Arithmetic and the brain | Q35744931 | ||
Change-in-support balance reactions in older persons: an emerging research area of clinical importance | Q36199092 | ||
A review of standing balance recovery from stroke. | Q36281560 | ||
Cortical oscillatory activity and the dynamics of auditory memory processing | Q36329178 | ||
The human stretch reflex and the motor cortex | Q36649293 | ||
Early stabilization of human posture after a sudden disturbance: influence of rate and amplitude of displacement | Q38583108 | ||
Cerebral potentials and leg muscle e.m.g. responses associated with stance perturbation | Q38590964 | ||
Sensorimotor gain control: a basic strategy of motor systems? | Q38717147 | ||
The ‘late’ electromyographic response to limb displacement in man. I. Evidence for supraspinal contribution | Q39542737 | ||
Postural orientation, equilibrium, and the spinal cord. | Q40916114 | ||
Influence of an acoustic preparatory signal on postural reflexes of the distal leg muscles in humans | Q43590848 | ||
??? | Q64785679 | ||
Mechanically evoked cerebral potentials to sudden ankle dorsiflexion in human subjects during standing | Q71330269 | ||
Slow negative cortical potential preceding the onset of postural adjustment | Q71415939 | ||
Organization of stabilizing reflex responses in tibialis anterior muscles following ankle flexion perturbations of standing man | Q71732477 | ||
Postural reflexes in Parkinson's disease during 'resist' and 'yield' tasks | Q71870755 | ||
Impaired scaling of long latency postural reflexes in patients with Parkinson's disease | Q72070520 | ||
Early activation of arm muscles follows external perturbation of upright stance | Q72153844 | ||
Cerebellar control of postural scaling and central set in stance | Q72865018 | ||
Motor and non-motor aspects of slow brain potentials | Q72905597 | ||
Thresholds for inducing protective stepping responses to external perturbations of human standing | Q73309736 | ||
Effect of stance width on multidirectional postural responses | Q73401345 | ||
Initiation of rapid reach-and-grasp balance reactions: is a pre-formed visuospatial map used in controlling the initial arm trajectory? | Q76383712 | ||
Attentional demands and postural recovery: the effects of aging | Q77371051 | ||
The influence of a concurrent cognitive task on the compensatory stepping response to a perturbation in balance-impaired and healthy elders | Q77542215 | ||
Vestibular projections in the human cortex | Q77543429 | ||
Step training improves the speed of voluntary step initiation in aging | Q78863524 | ||
Online mutability of step direction during rapid stepping reactions evoked by postural perturbation | Q79883579 | ||
Flexion-reflex of the limb, crossed extension-reflex, and reflex stepping and standing | Q80322396 | ||
Direction-specific postural instability in subjects with Parkinson's disease | Q81712575 | ||
Direct corticospinal pathways contribute to neuromuscular control of perturbed stance | Q83118359 | ||
Abnormal proprioceptive-motor integration contributes to hypometric postural responses of subjects with Parkinson's disease | Q83378451 | ||
Activity of pyramidal tract neurons in the cat during postural corrections | Q45138779 | ||
Relation between muscle response onset and body segmental movements during postural perturbations in humans | Q48142854 | ||
Vestibular cortex lesions affect the perception of verticality | Q48144463 | ||
Activity of different classes of neurons of the motor cortex during postural corrections. | Q48215397 | ||
Task constraints on foot movement and the incidence of compensatory stepping following perturbation of upright stance | Q48249494 | ||
Time-dependent influence of sensorimotor set on automatic responses in perturbed stance. | Q48255744 | ||
Fixed patterns of rapid postural responses among leg muscles during stance | Q48256795 | ||
People with stroke living in the community: Attention deficits, balance, ADL ability and falls | Q48257814 | ||
Enhanced lateral premotor activity during paradoxical gait in Parkinson's disease | Q48266955 | ||
Mechanically evoked cerebral potentials and long-latency muscle responses in the evaluation of afferent and efferent long-loop pathways in humans | Q48342614 | ||
Adapting reflexes controlling the human posture | Q48369376 | ||
External postural perturbations induce multiple anticipatory postural adjustments when subjects cannot pre-select their stepping foot | Q48376473 | ||
Stumbling reactions in man: influence of corticospinal input | Q48393794 | ||
Compensatory reactions to gait perturbations in man: short- and long-term effects of neuronal adaptation | Q48426356 | ||
The time course of attention shifts following perturbation of upright stance. | Q48486190 | ||
Medium- and long-latency responses to displacements of the ankle joint in patients with spinal and central lesions | Q48495006 | ||
Environmental constraints on foot trajectory reveal the capacity for modulation of anticipatory postural adjustments during rapid triggered stepping reactions | Q48502647 | ||
Can stabilizing features of rapid triggered stepping reactions be modulated to meet environmental constraints? | Q48535655 | ||
Cortical mechanism underlying externally cued gait initiation studied by contingent negative variation | Q48597802 | ||
Cerebral evoked potentials associated with the compensatory reactions following stance and gait perturbation | Q48623327 | ||
"Pusher syndrome" following cortical lesions that spare the thalamus. | Q48674180 | ||
Cortical responses associated with predictable and unpredictable compensatory balance reactions | Q48684441 | ||
Redirection of gaze and switching of attention during rapid stepping reactions evoked by unpredictable postural perturbation | Q48893041 | ||
Interlimb coordination of stance in children: divergent modulation of spinal reflex responses and cerebral evoked potentials in terms of age. | Q48918163 | ||
Posterior thalamic hemorrhage induces "pusher syndrome". | Q48958903 | ||
Cognitive demands of executing postural reactions: does aging impede attention switching? | Q49026338 | ||
Temporal properties of attention sharing consequent to disturbed balance | Q49072681 | ||
Responses of leg muscles in humans displaced while standing. Effects of types of perturbation and of postural set. | Q49115019 | ||
Role of cerebral cortex in human postural control: an EEG study | Q49132199 | ||
The polymodal sensory cortex is crucial for controlling lateral postural stability: evidence from stroke patients | Q49158999 | ||
Influence of postural anxiety on postural reactions to multi-directional surface rotations. | Q50995050 | ||
A limited set of muscle synergies for force control during a postural task. | Q51624410 | ||
Cortical activation following a balance disturbance. | Q51711577 | ||
Influence of plantar cutaneous afferents on early compensatory reactions to forward fall. | Q51741470 | ||
The risk factors of fall and their correlation with balance, depression, cognitive impairment and mobility skills in elderly nursing home residents. | Q51928596 | ||
Cognitive impairment decreases postural control during dual tasks in geriatric patients with a history of severe falls. | Q51944667 | ||
Adaptation of postural control to perturbations--a process that initiates long-term motor memory. | Q52014827 | ||
Prediction and set-dependent scaling of early postural responses in cerebellar patients. | Q52196383 | ||
Modification of postural responses and step initiation: evidence for goal-directed postural interactions. | Q52212537 | ||
Influence of expectation and arousal on center-of-pressure responses to transient postural perturbations. | Q52228360 | ||
Falls and fractures in patients with Alzheimer-type dementia. | Q52600942 | ||
Influence of instruction, prediction, and afferent sensory information on the postural organization of step initiation. | Q52888451 | ||
Attributes of quiet stance in the chronic spinal cat. | Q52917628 | ||
Stance perturbation-evoked potentials in old people with poor gait and balance. | Q54779581 | ||
A closed-loop stepper motor waist-pull system for inducing protective stepping in humans | Q56958761 | ||
Postural inflexibility in parkinsonian subjects | Q61714361 | ||
Effects of dopamine on postural control in parkinsonian subjects: scaling, set, and tone. | Q67243865 | ||
Influence of stimulus parameters on human postural responses | Q68470371 | ||
Central programming of postural movements: adaptation to altered support-surface configurations | Q69572894 | ||
Influence of central set on human postural responses | Q69788497 | ||
P433 | issue | 10 | |
P304 | page(s) | 1339-1348 | |
P577 | publication date | 2007-03-29 | |
P1433 | published in | Journal of Neural Transmission | Q15750921 |
P1476 | title | Cortical control of postural responses | |
P478 | volume | 114 |
Q35544066 | A history of low back pain associates with altered electromyographic activation patterns in response to perturbations of standing balance |
Q46003315 | A motor cortical contribution to the anticipatory postural adjustments that precede reaching in the cat. |
Q55514088 | A startling acoustic stimulus facilitates voluntary lower extremity movements and automatic postural responses in people with chronic stroke. |
Q45985343 | Activity of pyramidal tract neurons in the cat during standing and walking on an inclined plane. |
Q37601757 | Acute corticospinal and spinal modulation after whole body vibration |
Q34332198 | Age and muscle-dependent variations in corticospinal excitability during standing tasks |
Q55034743 | Age-Related Differences in Cortical and Subcortical Activities during Observation and Motor Imagery of Dynamic Postural Tasks: An fMRI Study. |
Q42070782 | Age-Related Differences in Reorganization of Functional Connectivity for a Dual Task with Increasing Postural Destabilization |
Q33586514 | Age-Related Interference between the Selection of Input-Output Modality Mappings and Postural Control-a Pilot Study |
Q48932321 | Age-related effects of increasing postural challenge on eye movement onset latencies to visual targets. |
Q37611758 | Aging causes a reorganization of cortical and spinal control of posture. |
Q34622110 | Aging increases flexibility of postural reactive responses based on constraints imposed by a manual task |
Q34886099 | Altered postural responses persist following physical therapy of general versus specific trunk exercises in people with low back pain |
Q64268742 | Analysis of Brain Lesion Impact on Balance and Gait Following Stroke |
Q36787337 | Associations between mobility, cognition and callosal integrity in people with parkinsonism |
Q30541794 | Asymmetric pedunculopontine network connectivity in parkinsonian patients with freezing of gait |
Q50609701 | Attentional demands of perturbation evoked compensatory stepping responses: examining cognitive-motor interference to large magnitude forward perturbations. |
Q36517691 | Automated postural responses are modified in a functional manner by instruction |
Q92997817 | Balance and Gait Improvements of Postoperative Rehabilitation in Patients with Parkinson's Disease Treated with Subthalamic Nucleus Deep Brain Stimulation (STN-DBS) |
Q34081209 | Behavioral data and neural correlates for postural prioritization and flexible resource allocation in concurrent postural and motor tasks |
Q57491499 | Beyond Dopamine: GABA, Glutamate, and the Axial Symptoms of Parkinson Disease |
Q50281382 | Body sway adaptation to addition but not withdrawal of stabilizing visual information is delayed by a concurrent cognitive task. |
Q90582560 | Brain Stiffness Relates to Dynamic Balance Reactions in Children With Cerebral Palsy |
Q34231449 | Brain activity during ankle proprioceptive stimulation predicts balance performance in young and older adults. |
Q88001923 | Can Recovery Foot Placement Affect Older Adults' Slip-Fall Severity? |
Q30584569 | Cerebellar networks in individuals at ultra high-risk of psychosis: impact on postural sway and symptom severity |
Q89453532 | Cerebral Contribution to the Execution, But Not Recalibration, of Motor Commands in a Novel Walking Environment |
Q30847968 | Cerebral Dynamics during the Observation of Point-Light Displays Depicting Postural Adjustments |
Q43171682 | Cerebral Hemodynamic Responses During Dynamic Posturography: Analysis with a Multichannel Near-Infrared Spectroscopy System |
Q30489294 | Changes in the activity of the cerebral cortex relate to postural response modification when warned of a perturbation |
Q50245493 | Characterization and Early Detection of Balance Deficits in Fragile X Premutation Carriers With and Without Fragile X-Associated Tremor/Ataxia Syndrome (FXTAS). |
Q36730510 | Characterization of Compensatory Stepping in People With Multiple Sclerosis. |
Q37954424 | Cognition in action: imaging brain/body dynamics in mobile humans |
Q90685116 | Cognitive load reduces the effects of optic flow on gait and electrocortical dynamics during treadmill walking |
Q36017470 | Compensatory stepping in Parkinson's disease is still a problem after deep brain stimulation randomized to STN or GPi. |
Q91835435 | Complexity based measures of postural stability provide novel evidence of functional decline in fragile X premutation carriers |
Q30417234 | Consensus paper: roles of the cerebellum in motor control--the diversity of ideas on cerebellar involvement in movement |
Q34381948 | Contribution of primary motor cortex to compensatory balance reactions |
Q30428314 | Contribution of supraspinal systems to generation of automatic postural responses |
Q56968308 | Contribution of the Lateral Prefrontal Cortex to Cognitive-Postural Multitasking |
Q46028012 | Contributors to excess antagonist activity during movement in children with secondary dystonia due to cerebral palsy. |
Q48702023 | Corpus callosum tissue loss and development of motor and global cognitive impairment: the LADIS study |
Q47158129 | Cortical Contribution to Linear, Non-linear and Frequency Components of Motor Variability Control during Standing. |
Q40971502 | Cortical Correlates of Human Balance Control. |
Q40622658 | Cortical activity differs between position- and force-control knee extension tasks |
Q59807338 | Critical Role of Somatosensation in Postural Control Following Spaceflight: Vestibularly Deficient Astronauts Are Not Able to Maintain Upright Stance During Compromised Somatosensation |
Q90275429 | Dissociation of muscle and cortical response scaling to balance perturbation acceleration |
Q35820878 | Do cognitive measures and brain circuitry predict outcomes of exercise in Parkinson Disease: a randomized clinical trial |
Q37309790 | Do quiet standing centre of pressure measures within specific frequencies differ based on ability to recover balance in individuals with stroke? |
Q64062524 | Does severity of motor impairment affect reactive adaptation and fall-risk in chronic stroke survivors? |
Q48447006 | Effect of Wii-based balance training on corticomotor excitability post stroke. |
Q88263528 | Effect of standing posture on inhibitory postsynaptic potentials in gastrocnemius motoneurons |
Q64935887 | Effects of Plantar Flexor Muscles Fatigue on Postural Control during Quiet Stance and External Perturbation in Healthy Subjects. |
Q30620083 | Effects of amplitude cueing on postural responses and preparatory cortical activity of people with Parkinson disease. |
Q82907547 | Effects of dual tasking on the postural performance of people with and without multiple sclerosis: a pilot study |
Q37723114 | Effects of dual tasks and dual-task training on postural stability: a systematic review and meta-analysis |
Q42378035 | Effects of freezing of gait on postural motor learning in people with Parkinson's disease |
Q36463974 | Effects of low back pain and of stabilization or movement-system-impairment treatments on induced postural responses: A planned secondary analysis of a randomised controlled trial. |
Q36322442 | Effects of magnitude and magnitude predictability of postural perturbations on preparatory cortical activity in older adults with and without Parkinson's disease |
Q56530496 | Effects of spinal cord stimulation on postural control in Parkinson's disease patients with freezing of gait |
Q64076656 | Effects of sudden unexpected mechanical perturbation training aimed at the primary prevention of inversion ankle sprain on reactiveness of ankle movement and cortical activity in normal young adults |
Q37221836 | Electromyographic responses from the hindlimb muscles of the decerebrate cat to horizontal support surface perturbations |
Q35033751 | Errors in postural preparation lead to increased choice reaction times for step initiation in older adults |
Q55251644 | Exergames Inherently Contain Cognitive Elements as Indicated by Cortical Processing. |
Q48128786 | Exploring the cortical and subcortical functional magnetic resonance imaging changes associated with freezing in Parkinson's disease |
Q33656890 | Facilitation of postural limb reflexes with epidural stimulation in spinal rabbits |
Q57659461 | Freezing of gait caused by infarction in the unilateral genu of the corpus callosum |
Q37903489 | Freezing of gait: moving forward on a mysterious clinical phenomenon |
Q47942043 | Functional near-infrared spectroscopy in movement science: a systematic review on cortical activity in postural and walking tasks. |
Q48554144 | Hierarchical error evaluation: the role of medial-frontal cortex in postural control. |
Q38919554 | Higher Balance Task Demands are Associated with an Increase in Individual Alpha Peak Frequency. |
Q30689523 | Highly Challenging Balance Program Reduces Fall Rate in Parkinson Disease |
Q48962955 | Hypnotizability-dependent modulation of postural control: effects of alteration of the visual and leg proprioceptive inputs |
Q90725308 | Increased Postural Demand Is Associated With Greater Cognitive Workload in Healthy Young Adults: A Pupillometry Study |
Q46920993 | Influences of sensory input from the limbs on feline corticospinal neurons during postural responses |
Q48930493 | Interference between oculomotor and postural tasks in 7-8-year-old children and adults |
Q36328604 | Keeping your balance while balancing a cylinder: interaction between postural and voluntary goals |
Q37147470 | Long-latency muscle activity reflects continuous, delayed sensorimotor feedback of task-level and not joint-level error |
Q37346324 | Loss of balance during balance beam walking elicits a multifocal theta band electrocortical response |
Q38677853 | Low to moderate relationships between gait and postural responses in Parkinson disease. |
Q46253854 | Mechanisms of postural instability in hereditary spastic paraplegia |
Q44241268 | Mind the bend: cerebral activations associated with mental imagery of walking along a curved path |
Q50319698 | Modulation of EMG-EMG Coherence in a Choice Stepping Task. |
Q37029583 | Modulation of cortical activity in response to visually induced postural perturbation: combined VR and EEG study |
Q36956319 | Neural Control of Walking in People with Parkinsonism |
Q57491364 | Neural Mechanisms Involved in Mental Imagery of Slip-Perturbation While Walking: A Preliminary fMRI Study |
Q48302256 | Neural integration of reaching and posture: interhemispheric spike correlations in cat motor cortex. |
Q46707438 | Neural mechanisms and functional correlates of altered postural responses to perturbed standing balance with chronic low back pain |
Q49894311 | Neurofeedback-induced facilitation of the supplementary motor area affects postural stability |
Q37742905 | Neuroimaging of Human Balance Control: A Systematic Review |
Q38025401 | Neurologic aspects and falls. |
Q58797284 | Neuromuscular and Kinematic Adaptation in Response to Reactive Balance Training - a Randomized Controlled Study Regarding Fall Prevention |
Q97905267 | Neuroplastic effects of end-effector robotic gait training for hemiparetic stroke: a randomised controlled trial |
Q58116474 | Non-diagnostic symptoms in a mouse model of autism in relation to neuroanatomy: the BTBR strain reinvestigated |
Q88766240 | Non-invasive vagus nerve stimulation significantly improves quality of life in patients with persistent postural-perceptual dizziness |
Q30377906 | Nonpharmacological treatments for patients with Parkinson's disease. |
Q27323943 | Older adults can improve compensatory stepping with repeated postural perturbations |
Q37988748 | Optimal feedback control and the long-latency stretch response |
Q58570207 | Perceptual assessment of environmental stability modulates postural sway |
Q36180488 | Population Differences in Postural Response Strategy Associated with Exposure to a Novel Continuous Perturbation Stimuli: Would Dancers Have Better Balance on a Boat? |
Q64098555 | Positive verbal suggestion optimizes postural control |
Q90194740 | Postural Instability in Parkinson's Disease: A Review |
Q45877789 | Postural adjustment after an unexpected perturbation in children with haemophilia |
Q48493401 | Postural adjustments to support surface perturbations during reaching depend upon body-target reference frame |
Q47321739 | Postural and Cortical Responses Following Visual Occlusion in Adults With and Without ASD. |
Q48113068 | Postural and cortical responses following visual occlusion in standing and sitting tasks. |
Q42215628 | Postural motor learning in people with Parkinson's disease |
Q42026151 | Postural performance in decerebrated rabbit |
Q40758025 | Postural responses to unexpected perturbations of balance during reaching |
Q34783106 | Postural sway and motor control in trans-tibial amputees as assessed by electroencephalography during eight balance training tasks |
Q36773199 | Postural sway and rhythmic electroencephalography analysis of cortical activation during eight balance training tasks |
Q26781124 | Predictive and Reactive Locomotor Adaptability in Healthy Elderly: A Systematic Review and Meta-Analysis |
Q85024178 | Predictors of Postural Stability in Children With ADHD |
Q35871556 | Reactive Balance Control in Response to Perturbation in Unilateral Stance: Interaction Effects of Direction, Displacement and Velocity on Compensatory Neuromuscular and Kinematic Responses |
Q48592545 | Reflex pathways connect receptors in the human lower leg to the erector spinae muscles of the lower back. |
Q49152212 | Regional homogeneity alterations differentiate between tremor dominant and postural instability gait difficulty subtypes of Parkinson's disease |
Q52148392 | Regional volumes in brain stem and cerebellum are associated with postural impairments in young brain-injured patients. |
Q90330424 | Relationship between ankle plantar flexor force steadiness and postural stability on stable and unstable platforms |
Q39177460 | Reliability of dynamic balance simultaneously with cognitive performance in patients with ACL deficiency and after ACL reconstructions and in healthy controls |
Q64092748 | Reliability of two methods for identifying the timing of medium latency responses in subjects with and without chronic ankle instability |
Q90382685 | Short- and Mid-Term Improvement of Postural Balance after a Neurorehabilitation Program via Hippotherapy in Patients with Sensorimotor Impairment after Cerebral Palsy: A Preliminary Kinetic Approach |
Q52846554 | Soleus H-reflex modulation during balance recovery after forward falling. |
Q37468833 | Specific Stimuli Induce Specific Adaptations: Sensorimotor Training vs. Reactive Balance Training |
Q35418132 | Spinal mechanisms may provide a combination of intermittent and continuous control of human posture: predictions from a biologically based neuromusculoskeletal model |
Q35086540 | Stability in a frontal plane model of balance requires coupled changes to postural configuration and neural feedback control |
Q30414951 | StartReact effects support different pathophysiological mechanisms underlying freezing of gait and postural instability in Parkinson's disease |
Q59789823 | Stochastic resonance stimulation improves balance in children with cerebral palsy: a case control study |
Q30479284 | Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability |
Q92526553 | Stumbling Reactions in Partial Gravity - Neuromechanics of Compensatory Postural Responses and Inter-Limb Coordination During Perturbation of Human Stance |
Q30430451 | Subcortical structures in humans can be facilitated by transcranial direct current stimulation |
Q91806423 | Subthreshold stochastic vestibular stimulation affects balance-challenged standing and walking |
Q36986357 | Supraspinal control of automatic postural responses in people with multiple sclerosis |
Q35544024 | Task goals influence online corrections and adaptation of reaching movements |
Q35951374 | Task-level feedback can explain temporal recruitment of spatially fixed muscle synergies throughout postural perturbations |
Q90295737 | Task-specific and variability-driven activation of cognitive control processes during motor performance |
Q22336975 | The Balance Evaluation Systems Test (BESTest) to differentiate balance deficits |
Q90082183 | The Cortical Physiology of Ipsilateral Limb Movements |
Q89820022 | The Influence of Dental Occlusion on Dynamic Balance and Muscular Tone |
Q41593034 | The bilateral central vestibular system: its pathways, functions, and disorders |
Q87166401 | The cortical and cerebellar representation of the lumbar spine |
Q33923620 | The decerebrate cat generates the essential features of the force constraint strategy |
Q64243810 | The effect of contact sport expertise on postural control |
Q33756645 | The effect of deep brain stimulation randomized by site on balance in Parkinson's disease |
Q59100402 | The filtering of the posturographic signals shows the age related features |
Q84127136 | The impact of light fingertip touch on haptic cortical processing during a standing balance task |
Q36532292 | The interaction of postural and voluntary strategies for stability in Parkinson's disease |
Q35186701 | The interplay between gait, falls and cognition: can cognitive therapy reduce fall risk? |
Q43300086 | The involvement of the motor cortex in postural control: a delicate balancing act. |
Q38669139 | The motor cortical representation of a muscle is not homogeneous in brain connectivity. |
Q38016738 | The neurobiology of falls. |
Q48221779 | The relationship between physiological arousal and cortical and autonomic responses to postural instability |
Q34733971 | The relative timing of trunk muscle activation is retained in response to unanticipated postural-perturbations during acute low back pain. |
Q64948484 | The reliability of postural control method in athletes with and without ACL reconstruction: a transitional task. |
Q87368544 | Timing paradox of stepping and falls in ageing: not so quick and quick(er) on the trigger |
Q28393817 | Trunk muscle reflex amplitudes increased in patients with subacute, recurrent LBP treated with a 10-week stabilization exercise program |
Q38155590 | Unraveling the mechanisms underlying postural instability in Parkinson's disease using dynamic posturography |
Q40540322 | Using a dry electrode EEG device during balance tasks in healthy young-adult males: Test-retest reliability analysis |
Q60046134 | Vestibulospinal and Corticospinal Modulation of Lumbosacral Network Excitability in Human Subjects |
Q52096872 | What Do We Know About the Influence of the Cerebellum on Walking Ability? Promising Findings from Transcranial Alternating Current Stimulation. |
Q42849805 | Why we need to better understand the cortical neurophysiology of impaired postural responses with age, disease, or injury |