| scholarly article | Q13442814 |
| P356 | DOI | 10.1152/JN.1994.72.5.2517 |
| P698 | PubMed publication ID | 7884476 |
| P50 | author | John Rothwell | Q6255756 |
| Richard S. J. Frackowiak | Q20028848 | ||
| Richard Passingham | Q21165449 | ||
| David J. Brooks | Q38329590 | ||
| P2093 | author name string | P N Leigh | |
| M C Ridding | |||
| J J Kew | |||
| S Sooriakumaran | |||
| P. N. Leigh | |||
| J. J. Kew | |||
| M. C. Ridding | |||
| S. Sooriakumaran | |||
| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | human subject research project | Q1331083 |
| P304 | page(s) | 2517-2524 | |
| 2517-24 | |||
| P577 | publication date | 1994-11-01 | |
| P1433 | published in | Journal of Neurophysiology | Q1709863 |
| P1476 | title | Reorganization of cortical blood flow and transcranial magnetic stimulation maps in human subjects after upper limb amputation | |
| P478 | volume | 72 |
| Q33986612 | "Central command" and insular activation during attempted foot lifting in paraplegic humans |
| Q35172516 | A paradigm shift in neurorehabilitation |
| Q48716716 | Abnormal access of axial vibrotactile input to deafferented somatosensory cortex in human upper limb amputees |
| Q48226052 | Abnormal motor cortex organization contralateral to early upper limb amputation in humans |
| Q43557712 | Assessment of reorganization in the sensorimotor cortex after upper limb amputation |
| Q35762944 | Beyond re-membering: phantom sensations of congenitally absent limbs |
| Q44694558 | Bihemispheric plasticity after acute hand deafferentation. |
| Q34015807 | Brain plasticity and hand surgery: an overview |
| Q48893018 | Brain plasticity for sensory and linguistic functions: a functional imaging study using magnetoencephalography with children and young adults |
| Q48187289 | Cerebral reorganisation of human hand movement following dynamic immobilisation |
| Q47175435 | Changes in cortical network connectivity with long-term brain-machine interface exposure after chronic amputation |
| Q73067885 | Changes of cortical excitability in patients with upper limb amputation |
| Q39892471 | Clinical implications of cerebral reorganisation after primary digital flexor tendon repair |
| Q37617378 | Compensatory changes accompanying chronic forced use of the nondominant hand by unilateral amputees |
| Q37114880 | Congenitally altered motor experience alters somatotopic organization of human primary motor cortex |
| Q81558375 | Cortical motor activation patterns following hand transplantation and replantation |
| Q37313941 | Cortical motor activity and reorganization following upper-limb amputation and subsequent targeted reinnervation |
| Q34098254 | Cortical motor areas and their properties: implications for neuroprosthetics |
| Q92774376 | Cortical reorganization of lower-limb motor representations in an elite archery athlete with congenital amputation of both arms |
| Q28344435 | Cortically evoked neural volleys to the human hand are increased during ischaemic block of the forearm |
| Q34113423 | Functional imaging correlates of recovery after stroke in humans |
| Q55953987 | Human brain plasticity: an emerging view of the multiple substrates and mechanisms that cause cortical changes and related sensory dysfunctions after injuries of sensory inputs from the body |
| Q83088325 | Illusory movements of a phantom hand grade with the duration and magnitude of motor commands |
| Q37653061 | Improving hand function in stroke survivors: a pilot study of contralaterally controlled functional electric stimulation in chronic hemiplegia |
| Q36901107 | Influence of spinal cord injury on cerebral sensorimotor systems: a PET study |
| Q30913861 | Integrated technology for evaluation of brain function and neural plasticity |
| Q35622139 | Intracortical inhibition is modulated by phase of prosthetic rehabilitation in transtibial amputees. |
| Q44920229 | Long-term treatment of phantom- and stump pain with Botulinum toxin type A over 12 months. A first clinical observation |
| Q48477149 | Mechanisms of cortical reorganization in lower-limb amputees. |
| Q94560682 | Motor Cortex Reorganization in Limb Amputation: A Systematic Review of TMS Motor Mapping Studies |
| Q34552371 | Motor control and neural plasticity through interhemispheric interactions |
| Q33873702 | Motor cortex representation of the upper-limb in individuals born without a hand |
| Q34130225 | Nervous system reorganization following injury |
| Q90252532 | Neural activation for actual and imagined movement following unilateral hand transplantation: a case study |
| Q60679114 | Neuroimaging of Chronic Pain |
| Q73019345 | Neuromagnetic integrated methods tracking human brain mechanisms of sensorimotor areas 'plastic' reorganisation |
| Q47908289 | Neuronal activity in the region of the thalamic principal sensory nucleus (ventralis caudalis) in patients with pain following amputations |
| Q30540975 | Nonassociative learning as gated neural integrator and differentiator in stimulus-response pathways |
| Q24602982 | Noninvasive techniques for probing neurocircuitry and treating illness: vagus nerve stimulation (VNS), transcranial magnetic stimulation (TMS) and transcranial direct current stimulation (tDCS). |
| Q39481992 | Perceptual distortions of the human body image produced by local anaesthesia, pain and cutaneous stimulation |
| Q48100199 | Plasticity of cortical hand muscle representation in patients with hemifacial spasm |
| Q44677650 | Plasticity of the human motor system following muscle reconstruction: a magnetic stimulation and functional magnetic resonance imaging study. |
| Q36620609 | Postamputation pain: epidemiology, mechanisms, and treatment |
| Q35707955 | Primary Motor Cortex Representation of Handgrip Muscles in Patients with Leprosy |
| Q48549984 | Rapid changes in brainstem maps of adult primates after peripheral injury |
| Q30487457 | Re-emergence of hand-muscle representations in human motor cortex after hand allograft |
| Q28080650 | Reconciling homeostatic and use-dependent plasticity in the context of somatosensory deprivation |
| Q90701551 | Remapping in Cerebral and Cerebellar Cortices Is Not Restricted by Somatotopy |
| Q47443996 | Remote activation of referred phantom sensation and cortical reorganization in human upper extremity amputees |
| Q48128876 | Reorganization in primary motor cortex of primates with long-standing therapeutic amputations. |
| Q48210413 | Reorganization in the ipsilateral motor cortex of patients with lower limb amputation |
| Q33944975 | Reorganization of motor and somatosensory cortex in upper extremity amputees with phantom limb pain. |
| Q48240213 | Repetitive transcranial magnetic stimulation of the parietal cortex transiently ameliorates phantom limb pain-like syndrome |
| Q48645903 | Reversible changes of motor cortical outputs following immobilization of the upper limb. |
| Q37051523 | Role of distorted body image in pain. |
| Q73406803 | Spinal cord atrophy and reorganization of motoneuron connections following long-standing limb loss in primates |
| Q41673426 | The body in the brain: neural bases of corporeal awareness |
| Q30435018 | The functional significance of cortical reorganization and the parallel development of CI therapy |
| Q33801679 | The impact of brain imaging technology on our understanding of motor function and dysfunction |
| Q83578708 | The map is not the territory: motor system reorganization in upper limb amputees |
| Q48906128 | The plasticity of the brain |
| Q49049424 | The relationship of perceptual phenomena and cortical reorganization in upper extremity amputees |
| Q43919878 | Time-related changes of excitability of the human motor system contingent upon immobilisation of the ring and little fingers |
| Q30597160 | Training the motor cortex by observing the actions of others during immobilization |
| Q39308459 | Training with virtual visual feedback to alleviate phantom limb pain |
| Q34976531 | Transcranial magnetic stimulation (TMS) in basic and clinical neuroscience research |
| Q34185495 | Transcranial magnetic stimulation and cognitive neuroscience |
| Q33911186 | Transcranial magnetic stimulation and the human brain |
| Q37090597 | Upper limb amputees can be induced to experience a rubber hand as their own. |
| Q50490181 | [Chronic pain : Perception, reward and neural processing]. |
| Q50748582 | [Phantom limb pain. Psychological treatment strategies]. |
Search more.