Literature DB >> 25459407

Combining decoder design and neural adaptation in brain-machine interfaces.

Krishna V Shenoy1, Jose M Carmena2.   

Abstract

Brain-machine interfaces (BMIs) aim to help people with paralysis by decoding movement-related neural signals into control signals for guiding computer cursors, prosthetic arms, and other assistive devices. Despite compelling laboratory experiments and ongoing FDA pilot clinical trials, system performance, robustness, and generalization remain challenges. We provide a perspective on how two complementary lines of investigation, that have focused on decoder design and neural adaptation largely separately, could be brought together to advance BMIs. This BMI paradigm should also yield new scientific insights into the function and dysfunction of the nervous system.
Copyright © 2014 Elsevier Inc. All rights reserved.

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Year:  2014        PMID: 25459407     DOI: 10.1016/j.neuron.2014.08.038

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  54 in total

1.  A high performing brain-machine interface driven by low-frequency local field potentials alone and together with spikes.

Authors:  Sergey D Stavisky; Jonathan C Kao; Paul Nuyujukian; Stephen I Ryu; Krishna V Shenoy
Journal:  J Neural Eng       Date:  2015-05-06       Impact factor: 5.379

2.  Learning is shaped by abrupt changes in neural engagement.

Authors:  Aaron P Batista; Steven M Chase; Byron M Yu; Jay A Hennig; Emily R Oby; Matthew D Golub; Lindsay A Bahureksa; Patrick T Sadtler; Kristin M Quick; Stephen I Ryu; Elizabeth C Tyler-Kabara
Journal:  Nat Neurosci       Date:  2021-03-29       Impact factor: 24.884

3.  The critical stability task: quantifying sensory-motor control during ongoing movement in nonhuman primates.

Authors:  Kristin M Quick; Jessica L Mischel; Patrick J Loughlin; Aaron P Batista
Journal:  J Neurophysiol       Date:  2018-06-27       Impact factor: 2.714

4.  Mood variations decoded from multi-site intracranial human brain activity.

Authors:  Omid G Sani; Yuxiao Yang; Morgan B Lee; Heather E Dawes; Edward F Chang; Maryam M Shanechi
Journal:  Nat Biotechnol       Date:  2018-09-10       Impact factor: 54.908

5.  Pilot Study for Grip Force Prediction Using Neural Signals from Different Brain Regions.

Authors:  Mohammad Bataineh; David McNiel; John Choi; John Hessburg; Joseph Francis
Journal:  Proc South Biomed Eng Conf       Date:  2016-04-28

Review 6.  Parsing learning in networks using brain-machine interfaces.

Authors:  Amy L Orsborn; Bijan Pesaran
Journal:  Curr Opin Neurobiol       Date:  2017-08-24       Impact factor: 6.627

Review 7.  Computation Through Neural Population Dynamics.

Authors:  Saurabh Vyas; Matthew D Golub; David Sussillo; Krishna V Shenoy
Journal:  Annu Rev Neurosci       Date:  2020-07-08       Impact factor: 12.449

8.  Rapid calibration of an intracortical brain-computer interface for people with tetraplegia.

Authors:  David M Brandman; Tommy Hosman; Jad Saab; Michael C Burkhart; Benjamin E Shanahan; John G Ciancibello; Anish A Sarma; Daniel J Milstein; Carlos E Vargas-Irwin; Brian Franco; Jessica Kelemen; Christine Blabe; Brian A Murphy; Daniel R Young; Francis R Willett; Chethan Pandarinath; Sergey D Stavisky; Robert F Kirsch; Benjamin L Walter; A Bolu Ajiboye; Sydney S Cash; Emad N Eskandar; Jonathan P Miller; Jennifer A Sweet; Krishna V Shenoy; Jaimie M Henderson; Beata Jarosiewicz; Matthew T Harrison; John D Simeral; Leigh R Hochberg
Journal:  J Neural Eng       Date:  2018-04       Impact factor: 5.379

9.  Stable long-term chronic brain mapping at the single-neuron level.

Authors:  Tian-Ming Fu; Guosong Hong; Tao Zhou; Thomas G Schuhmann; Robert D Viveros; Charles M Lieber
Journal:  Nat Methods       Date:  2016-08-29       Impact factor: 28.547

Review 10.  Cortical neuroprosthetics from a clinical perspective.

Authors:  Adelyn P Tsu; Mark J Burish; Jason GodLove; Karunesh Ganguly
Journal:  Neurobiol Dis       Date:  2015-08-05       Impact factor: 5.996
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