| scholarly article | Q13442814 |
| P2093 | author name string | Monica A Perez | |
| Sina Sangari | |||
| P2860 | cites work | Corticospinal reorganization after spinal cord injury | Q26828054 |
| Differential effects of startle on reaction time for finger and arm movements. | Q30484365 | ||
| Subcortical control of precision grip after human spinal cord injury | Q33639529 | ||
| Effects of baclofen on motor units paralysed by chronic cervical spinal cord injury | Q33803683 | ||
| Patterned ballistic movements triggered by a startle in healthy humans | Q33858570 | ||
| The role of serotonin in reflex modulation and locomotor rhythm production in the mammalian spinal cord | Q34134149 | ||
| A primary acoustic startle circuit: lesion and stimulation studies. | Q34278397 | ||
| Can prepared responses be stored subcortically? | Q34358373 | ||
| Pathophysiology of spasticity: implications for neurorehabilitation. | Q34455092 | ||
| Massive Cortical Reorganization After Sensory Deafferentation in Adult Macaques | Q34774260 | ||
| Investigating human motor control by transcranial magnetic stimulation | Q35184183 | ||
| A systematic review of the effects of pharmacological agents on walking function in people with spinal cord injury. | Q35831905 | ||
| How can corticospinal tract neurons contribute to ipsilateral movements? A question with implications for recovery of motor functions | Q35838999 | ||
| Posture Influence on the Pendulum Test of Spasticity in Patients with Spinal Cord Injury. | Q50553965 | ||
| Role of brain stem facilitatory systems in maintenance of spasticity. | Q51363451 | ||
| Improvements in rate of development and magnitude of force with intense auditory stimuli in patients with Parkinson's disease. | Q51865061 | ||
| Doing better than your best: loud auditory stimulation yields improvements in maximal voluntary force. | Q51896018 | ||
| Effects of intrathecal baclofen on voluntary motor control in spastic paresis. | Q54329221 | ||
| Classification of Neurons in the Primate Reticular Formation and Changes after Recovery from Pyramidal Tract Lesion. | Q55710489 | ||
| Effect of coil orientation on motor-evoked potentials in humans with tetraplegia | Q63952538 | ||
| Restitution of function and collateral sprouting in the cat spinal cord: the partially hemisected animal | Q69143539 | ||
| Interrater reliability of a modified Ashworth scale of muscle spasticity | Q69735143 | ||
| Reaction time and acoustic startle in normal human subjects | Q71526108 | ||
| Corticospinal control during reach, grasp, and precision lift in man | Q72038009 | ||
| Spasticity after traumatic spinal cord injury: nature, severity, and location | Q73271851 | ||
| Hyper-reflexia without spasticity after unilateral infarct of the medullary pyramid | Q73835075 | ||
| Recovery of food-taking in cats after lesions of the corticospinal (complete) and rubrospinal (complete and incomplete) tracts | Q74345455 | ||
| Exaggerated auditory startle responses in patients with spinal cord injury | Q80735430 | ||
| Mechanomyographic and electromyographic responses to repeated concentric muscle actions of the quadriceps femoris | Q81155764 | ||
| Objective measurements of muscle force in a group of after-stroke patients with hemiparesis | Q81433783 | ||
| StartReact restores reaction time in HSP: evidence for subcortical release of a motor program | Q87019516 | ||
| Chasing central nervous system plasticity: the brainstem's contribution to locomotor recovery in rats with spinal cord injury | Q87688986 | ||
| Cortico-reticulo-spinal circuit reorganization enables functional recovery after severe spinal cord contusion | Q88102934 | ||
| Residual descending motor pathways influence spasticity after spinal cord injury | Q92128676 | ||
| The Relationship Between Enhanced Reticulospinal Outflow and Upper Limb Function in Chronic Stroke Patients | Q92632290 | ||
| Reduction of spasticity with repetitive transcranial magnetic stimulation in patients with spinal cord injury | Q36004495 | ||
| Changes in descending motor pathway connectivity after corticospinal tract lesion in macaque monkey. | Q36054186 | ||
| Motor and gait improvement in patients with incomplete spinal cord injury induced by high-frequency repetitive transcranial magnetic stimulation | Q36646214 | ||
| Functional plasticity following spinal cord lesions | Q36682822 | ||
| Review of physiological motor outcome measures in spinal cord injury using transcranial magnetic stimulation and spinal reflexes. | Q36841636 | ||
| Selective effects of baclofen on use-dependent modulation of GABAB inhibition after tetraplegia. | Q37058148 | ||
| Descending pathways in motor control | Q37193033 | ||
| Neurobiological perspective of spasticity as occurs after a spinal cord injury | Q37985208 | ||
| Pathways mediating functional recovery. | Q38427960 | ||
| Plasticity of the acoustic startle response in the acutely decerebrate rat | Q38562799 | ||
| Prevalence and Effect of Problematic Spasticity After Traumatic Spinal Cord Injury | Q38990706 | ||
| Effects on movement of surgical incisions into the human spinal cord | Q39485727 | ||
| Neuronal populations capable of regeneration following a combined treatment in rats with spinal cord transection | Q40158934 | ||
| An Approach to the Treatment of Spasticity | Q40342337 | ||
| Epidemiology of spasticity following traumatic spinal cord injury. | Q41188645 | ||
| Upper Extremity Motor Impairments and Microstructural Changes in Bulbospinal Pathways in Chronic Hemiparetic Stroke | Q41767776 | ||
| Enhanced reticulospinal output in patients with (REEP1) hereditary spastic paraplegia type 31. | Q42861315 | ||
| Rewiring of hindlimb corticospinal neurons after spinal cord injury | Q43221690 | ||
| Caveats when studying motor cortex excitability and the cortical control of movement using transcranial magnetic stimulation | Q43224536 | ||
| Following Spinal Cord Injury Transected Reticulospinal Tract Axons Develop New Collateral Inputs to Spinal Interneurons in Parallel with Locomotor Recovery. | Q43375936 | ||
| Reliability of the input-output properties of the cortico-spinal pathway obtained from transcranial magnetic and electrical stimulation | Q43805025 | ||
| Cervical sprouting of corticospinal fibers after thoracic spinal cord injury accompanies shifts in evoked motor responses | Q43806421 | ||
| Lower extremity manifestations of spasticity in chronic spinal cord injury | Q44342021 | ||
| The injured spinal cord spontaneously forms a new intraspinal circuit in adult rats | Q44765973 | ||
| Acoustic startle reflex in patients with chronic stroke at different stages of motor recovery: a pilot study | Q45331085 | ||
| Neural circuitry of the adult rat central nervous system after spinal cord injury: a study using fast blue and the Bartha strain of pseudorabies virus | Q45731444 | ||
| Brainstem reflexes are enhanced following severe spinal cord injury and reduced by continuous intrathecal baclofen. | Q46004988 | ||
| Lower Extremity Motor Impairments in Ambulatory Chronic Hemiparetic Stroke: Evidence for Lower Extremity Weakness and Abnormal Muscle and Joint Torque Coupling Patterns | Q46552250 | ||
| Transcutaneous electrical nerve stimulation versus baclofen in spasticity: clinical and electrophysiologic comparison | Q46610987 | ||
| Bridging the gap: a reticulo-propriospinal detour bypassing an incomplete spinal cord injury. | Q46831214 | ||
| 5-HT2 receptor activation facilitates a persistent sodium current and repetitive firing in spinal motoneurons of rats with and without chronic spinal cord injury | Q47111379 | ||
| Endogenous monoamine receptor activation is essential for enabling persistent sodium currents and repetitive firing in rat spinal motoneurons | Q47148816 | ||
| Reticulospinal Contributions to Gross Hand Function after Human Spinal Cord Injury | Q47778097 | ||
| The acoustic startle reflex in ischemic stroke | Q48095914 | ||
| Motor consequences of motor area ablations in man | Q48327865 | ||
| Separable systems for recovery of finger strength and control after stroke | Q48348613 | ||
| Altered triggering of a prepared movement by a startling stimulus | Q48376782 | ||
| Does infarction of the medullary pyramid lead to spasticity? | Q48391129 | ||
| Anatomical correlates of locomotor recovery following dorsal and ventral lesions of the rat spinal cord | Q48563430 | ||
| Spasticity secondary to isolated involvement of the pyramidal tract | Q48563693 | ||
| Spontaneous locomotor recovery in spinal cord injured rats is accompanied by anatomical plasticity of reticulospinal fibers | Q48574020 | ||
| New observations on the normal auditory startle reflex in man. | Q48680334 | ||
| Input-output properties and gain changes in the human corticospinal pathway | Q48736373 | ||
| Corticoreticular pathway in the human brain: diffusion tensor tractography study | Q48750430 | ||
| Progressive recruitment of contralesional cortico-reticulospinal pathways drives motor impairment post stroke. | Q49852312 | ||
| P433 | issue | 40 | |
| P921 | main subject | spasticity | Q117060 |
| P304 | page(s) | 7872-7881 | |
| P577 | publication date | 2019-08-14 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Imbalanced Corticospinal and Reticulospinal Contributions to Spasticity in Humans with Spinal Cord Injury | |
| P478 | volume | 39 |
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