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B. R. Botterman
Researcher at University of Texas Southwestern Medical Center
Publications - 39
Citations - 2817
B. R. Botterman is an academic researcher from University of Texas Southwestern Medical Center. The author has contributed to research in topics: Motor unit & Reflex. The author has an hindex of 23, co-authored 39 publications receiving 2702 citations. Previous affiliations of B. R. Botterman include University of Arizona & Drexel University.
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Journal ArticleDOI
Carbon nanotube coating improves neuronal recordings.
Edward W. Keefer,B. R. Botterman,Mario I. Romero,Mario I. Romero,Andrew F. Rossi,Guenter W. Gross +5 more
TL;DR: Carbon nanotube-coated electrodes are expected to improve current electrophysiological techniques and to facilitate the development of long-lasting brain-machine interface devices.
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Blocking soluble tumor necrosis factor signaling with dominant-negative tumor necrosis factor inhibitor attenuates loss of dopaminergic neurons in models of Parkinson's disease.
Melissa K. McCoy,Terina N Martinez,Kelly A. Ruhn,David E. Szymkowski,Christine G. Smith,B. R. Botterman,Keith E. Tansey,Malú G. Tansey +7 more
TL;DR: A role for TNF is demonstrated in vitro and in vivo in two models of PD, and the possibility that delaying the progressive degeneration of the nigrostriatal pathway in humans is therapeutically feasible with agents capable of blocking solTNF in early stages of PD is raised.
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Functional anatomy of the association between motor units and muscle receptors
TL;DR: Consideration of the functional anatomy of the association between motor units and muscle receptors suggests the need for detailed structural-functional analyses of those muscles with specializations in architecture, fiber-type composition and distribution, and in the number and distribution of their muscle spindles and tendon organs.
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"Sensory partitioning" of cat medial gastrocnemius muscle by its muscle spindles and tendon organs.
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Localization of monosynaptic Ia excitatory post‐synaptic potentials in the motor nucleus of the cat biceps femoris muscle.
TL;DR: Analysis of cell location in the spinal cord and rostro‐caudal differences in group I volley sizes gave evidence of a topographic organization of the biceps femoris motor nucleus which could contribute to the observed localization of monosynaptic Ia excitatory post‐synaptic potentials.