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Showing 1–10 of 10 results
Advanced filters: Author: J. Andrew Pruszynski Clear advanced filters

  • Experiments with human volunteers and macaques show that expectations produced by probabilistic cueing of future sensory inputs shape motor circuit dynamics in order to increase the efficiency of movement responses.

    • Jonathan A. Michaels
    • Mehrdad Kashefi
    • J. Andrew Pruszynski
    Research
    Nature
    Volume: 648, P: 668-677

  • Academic publishing is the backbone of science dissemination –– but is the current system fit for purpose? We asked a diverse group of scientists to comment on the future of publishing. They discuss systemic issues, challenges, and opportunities, and share their vision for the future.

    • Abubakari Ahmed
    • Aceil Al-Khatib
    • J. Andrew Pruszynski
    Special Features
    Nature Human Behaviour
    Volume: 7, P: 1021-1026

  • It is known that the primary sensory neurons that mediate tactile sensation exhibit elaborate receptive fields because of dendritic branching in the skin. In this study, the authors show that such branching allows neurons that innervate the human fingertips to extract geometric features of touched objects and signal them via both temporal and intensity codes.

    • J Andrew Pruszynski
    • Roland S Johansson
    Research
    Nature Neuroscience
    Volume: 17, P: 1404-1409

  • A recent article makes a claim with far-reaching implications for neuroscience, technology, and society: that the human brain is subject to an information processing ‘speed limit’ of 10 bits per second. Although this speed limit appears to hold for high-level cognitive functions, we argue that unconscious processing for real-time control of movement, which occupies a majority of neurons in the central nervous system and accounts for most of the information throughput of humans, substantially exceeds this limit.

    • Britton A. Sauerbrei
    • J. Andrew Pruszynski
    Comments & Opinion
    Nature Neuroscience
    Volume: 28, P: 1365-1366

  • Weiler et al demonstrate that the fastest spinal feedback pathway can integrate information from the elbow and wrist, and take into account the arm’s orientation to produce corrective responses that help to maintain the hand’s position in space.

    • Jeffrey Weiler
    • Paul L. Gribble
    • J. Andrew Pruszynski
    Research
    Nature Neuroscience
    Volume: 22, P: 529-533

  • Naming brain–computer interfaces according to their intended application will assist stakeholders in the evaluation of the benefits and risks of neurotechnologies.

    • Jacob T. Robinson
    • Sumner L. Norman
    • Chong Xie
    Comments & Opinion
    Nature Biomedical Engineering
    Volume: 9, P: 789-791

  • Motor cortex generates commands for voluntary movement, but its role in tasks driven by a spinal pattern generator remains unclear. Here, the authors identify a cortical signal for inertial load in locomoting mice that is decoupled from motor output.

    • Eric A. Kirk
    • Keenan T. Hope
    • Britton A. Sauerbrei
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-20

  • In rhesus monkeys, learning of a motor task is accompanied by uniform changes in preparatory activity in motor cortex that are orthogonal to the force-predictive neural state subspace.

    • Xulu Sun
    • Daniel J. O’Shea
    • Krishna V. Shenoy
    Research
    Nature
    Volume: 602, P: 274-279