human | Q5 |
P8446 | Gateway to Research person ID | 021F110D-2B1D-45C9-92C4-0D82620CEBB3 |
P213 | ISNI | 0000000074438620 |
P2798 | Loop ID | 9195 |
P496 | ORCID iD | 0000-0001-5135-2725 |
P1153 | Scopus author ID | 6701741012 |
P214 | VIAF ID | 105206456 |
P10832 | WorldCat Entities ID | E39PBJbtwDGbtkkCtm9W3GCCwC |
P27 | country of citizenship | Canada | Q16 |
P69 | educated at | University of Manitoba | Q1191833 |
P108 | employer | University College London | Q193196 |
Dalhousie University | Q579321 | ||
University of Manitoba | Q1191833 | ||
P734 | family name | Brownstone | Q16859055 |
Brownstone | Q16859055 | ||
Brownstone | Q16859055 | ||
P735 | given name | Robert | Q4927937 |
Robert | Q4927937 | ||
P106 | occupation | neurologist | Q783906 |
P21 | sex or gender | male | Q6581097 |
Q40479302 | A case of necrotizing fasciitis due to Streptococcus pneumoniae. |
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Q48312124 | An in vitro functionally mature mouse spinal cord preparation for the study of spinal motor networks |
Q50509126 | An in vitro spinal cord slice preparation for recording from lumbar motoneurons of the adult mouse. |
Q36489437 | Beginning at the end: repetitive firing properties in the final common pathway |
Q61827443 | Case Studies in Neuroscience: Evidence of motor thalamus reorganization following bilateral forearm amputations |
Q40767002 | Characterization of calcium currents in functionally mature mouse spinal motoneurons |
Q41894457 | Circuits for grasping: spinal dI3 interneurons mediate cutaneous control of motor behavior |
Q50764721 | Conditional rhythmicity of ventral spinal interneurons defined by expression of the Hb9 homeodomain protein. |
Q35275286 | Control of functional systems in the brainstem and spinal cord |
Q38226112 | Cutaneous afferent regulation of motor function |
Q61827483 | Dendritic L-type calcium currents in mouse spinal motoneurons: implications for bistability |
Q52173220 | Development of L-type calcium channels and a nifedipine-sensitive motor activity in the postnatal mouse spinal cord. |
Q50678907 | Dlk1 promotes a fast motor neuron biophysical signature required for peak force execution. |
Q33582245 | Electrophysiological and pharmacological properties of locomotor activity-related neurons in cfos-EGFP mice |
Q47642795 | Escape from homeostasis: spinal microcircuits and progression of amyotrophic lateral sclerosis |
Q61827462 | Functional characterization of cardiac progenitor cells and their derivatives in the embryonic heart post-chamber formation |
Q54773891 | Functional motor neurons differentiating from mouse multipotent spinal cord precursor cells in culture and after transplantation into transected sciatic nerve. |
Q40517622 | Functional properties of motoneurons derived from mouse embryonic stem cells. |
Q41443352 | Genetically defined inhibitory neurons in the mouse spinal cord dorsal horn: a possible source of rhythmic inhibition of motoneurons during fictive locomotion |
Q46889922 | Heterogeneity of V2-derived interneurons in the adult mouse spinal cord |
Q50668769 | Heterogeneous electrotonic coupling and synchronization of rhythmic bursting activity in mouse Hb9 interneurons. |
Q40826196 | How do we approach the locomotor network in the mammalian spinal cord? |
Q28298642 | Human immunodeficiency virus type 1 tat activates non-N-methyl-D-aspartate excitatory amino acid receptors and causes neurotoxicity |
Q30959469 | Intracranial presentation of systemic Hodgkin's disease. |
Q49043682 | Lhx3-Chx10 reticulospinal neurons in locomotor circuits. |
Q35951458 | Low-threshold calcium currents contribute to locomotor-like activity in neonatal mice |
Q44843823 | Matchmaking: SK channels, C-boutons and motor units |
Q48116661 | Mechanical entrainment of fictive locomotion in the decerebrate cat. |
Q48366042 | Mechanism for activation of locomotor centers in the spinal cord by stimulation of the mesencephalic locomotor region |
Q46477248 | Mechanisms underlying the early phase of spike frequency adaptation in mouse spinal motoneurones |
Q47979724 | Microcircuit formation following transplantation of mouse embryonic stem cell-derived neurons in peripheral nerve |
Q50735935 | Motoneurons derived from embryonic stem cells express transcription factors and develop phenotypes characteristic of medial motor column neurons. |
Q47657812 | Motor Cortex Stimulation for Neuropathic Pain: A Randomized Cross-over Trial |
Q91234377 | Multistable properties of human subthalamic nucleus neurons in Parkinson's disease |
Q47934149 | On the regulation of repetitive firing in lumbar motoneurones during fictive locomotion in the cat. |
Q48605944 | Paths of discovery in motoneuron neurobiology |
Q44905432 | Postnatal development of cholinergic synapses on mouse spinal motoneurons |
Q61827470 | Rapid pH and PO2changes in the tissue recording chamber during stoppage of a gas-equilibrated perfusate: effects on calcium currents in ventral horn neurons |
Q91907670 | Reducing Intrathecal Baclofen Related Infections: Service Evaluation and Best Practice Guidelines |
Q43414024 | Reducing hardware-related complications of deep brain stimulation. |
Q55197447 | Reticulospinal Systems for Tuning Motor Commands. |
Q41443304 | Reversal of the late phase of spike frequency adaptation in cat spinal motoneurons during fictive locomotion |
Q40157923 | Sensory-evoked perturbations of locomotor activity by sparse sensory input: a computational study |
Q48799449 | Single photon emission computed tomography using 99mTc-HM-PAO in the routine evaluation of Alzheimer's disease |
Q38482750 | Spinal circuits for motor learning. |
Q37812716 | Spinal interneurons providing input to the final common path during locomotion |
Q40909723 | Spinal microcircuits comprising dI3 interneurons are necessary for motor functional recovery following spinal cord transection |
Q98772956 | Spinal motoneuron firing properties mature from rostral to caudal during post-natal development of the mouse |
Q41468599 | Staircase currents in motoneurons: insight into the spatial arrangement of calcium channels in the dendritic tree |
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Q61827466 | Take Your PIC: Motoneuronal Persistent Inward Currents May Be Somatic as Well as Dendritic. Focus on “Facilitation of Somatic Calcium Channels Can Evoke Prolonged Tail Currents in Rat Hypoglossal Motoneurons” |
Q34183226 | Target populations for first-in-human embryonic stem cell research in spinal cord injury |
Q37334633 | The beginning of intracellular recording in spinal neurons: facts, reflections, and speculations. |
Q61827496 | The effects of caffeine on ischemic neuronal injury as determined by magnetic resonance imaging and histopathology |
Q48213511 | Transmission in a locomotor-related group Ib pathway from hindlimb extensor muscles in the cat. |
Q50612517 | Transplanted mouse embryonic stem-cell-derived motoneurons form functional motor units and reduce muscle atrophy. |
Q33274058 | Two-photon calcium imaging of network activity in XFP-expressing neurons in the mouse |
Q48238657 | Unraveling a locomotor network, many neurons at a time |
Q48226656 | Voltage-dependent excitation of motoneurones from spinal locomotor centres in the cat. |
Q37894947 | Whither motoneurons? |
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