Boshuo Wang
Duke University
39 Papers
19 Citations
Boshuo Wang is an academic researcher from Duke University. The author has contributed to research in topics: Medicine & Transcranial magnetic stimulation. The author has an hindex of 7, co-authored 18 publications. Previous affiliations of Boshuo Wang include University of Southern California.
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Papers
Simulation of transcranial magnetic stimulation in head model with morphologically-realistic cortical neurons.
TL;DR: This biophysically-based simulation provides a novel method to elucidate mechanisms and inform parameter selection of TMS and other cortical stimulation modalities and serves as a foundation for more detailed network models of the response to TMS.
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A wireless millimetric magnetoelectric implant for the endovascular stimulation of peripheral nerves
Joshua C. Chen,Peter Kan,Zhanghao Yu,Fatima T. Alrashdan,Roberto Garcia,Amanda Singer,C. S. E. Lai,Benjamin W. Avants,Scott Crosby,Zhongxi Li,Boshuo Wang,Michelle Madden Felicella,A R Estrada Robledo,Angel V. Peterchev,S. Goetz,Jeffrey D. Hartgerink,Sunil A Sheth,Kaiyuan Yang,Jacob T. Robinson +18 more
TL;DR: In this paper , an endovascular wireless and battery-free millimetric implant for the stimulation of specific peripheral nerves that are difficult to reach via traditional surgeries is presented. But this requires invasive surgeries and the implantation of bulky devices (about a few centimetres in at least one dimension).
Simulation of transcranial magnetic stimulation in head model with morphologically-realistic cortical neurons
TL;DR: Varying the induced current’s direction caused a waveform-dependent shift in the activation site and provided a mechanistic explanation for experimentally observed differences in thresholds and latencies of muscle responses.
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Redesigning existing transcranial magnetic stimulation coils to reduce energy: application to low field magnetic stimulation.
Boshuo Wang,Michael R Shen,Zhi-De Deng,Zhi-De Deng,J Evan Smith,Joseph J. Tharayil,Clement J Gurrey,Luis J. Gomez,Angel V. Peterchev +8 more
TL;DR: The redesigned LFMS coil is substantially smaller and more energy-efficient than the original, improving cost, power consumption, and portability and could facilitate deployment of LFMS in the clinic and potentially at home.
Subsecond multichannel magnetic control of select neural circuits in freely moving flies
Charles Sebesta,Daniel Torres Hinojosa,Boshuo Wang,J. Asfouri,Zhongxi Li,Guillaume Duret,Kaiyi Jiang,Zhen Xiao,Linlin Zhang,Qingbo Zhang,Vicki L. Colvin,S. Goetz,Angel V. Peterchev,Herman A. Dierick,Gang Bao,Jacob Robinson +15 more
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