Literature DB >> 28325009

A clinic compatible, open source electrophysiology system.

John Hermiz, Nick Rogers, Erik Kaestner, Mehran Ganji, Dan Cleary, Joseph Snider, David Barba, Shadi Dayeh, Eric Halgren, Vikash Gilja.   

Abstract

Open source electrophysiology (ephys) recording systems have several advantages over commercial systems such as customization and affordability enabling more researchers to conduct ephys experiments. Notable open source ephys systems include Open-Ephys, NeuroRighter and more recently Willow, all of which have high channel count (64+), scalability, and advanced software to develop on top of. However, little work has been done to build an open source ephys system that is clinic compatible, particularly in the operating room where acute human electrocorticography (ECoG) research is performed. We developed an affordable (<; $10,000) and open system for research purposes that features power isolation for patient safety, compact and water resistant enclosures and 256 recording channels sampled up to 20ksam/sec, 16-bit. The system was validated by recording ECoG with a high density, thin film device for an acute, awake craniotomy study at UC San Diego, Thornton Hospital Operating Room.

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Year:  2016        PMID: 28325009     DOI: 10.1109/EMBC.2016.7591730

Source DB:  PubMed          Journal:  Conf Proc IEEE Eng Med Biol Soc        ISSN: 1557-170X


  5 in total

1.  Light-weight electrophysiology hardware and software platform for cloud-based neural recording experiments.

Authors:  Kateryna Voitiuk; Jinghui Geng; Matthew G Keefe; David F Parks; Sebastian E Sanso; Nico Hawthorne; Daniel B Freeman; Rob Currie; Mohammed A Mostajo-Radji; Alex A Pollen; Tomasz J Nowakowski; Sofie R Salama; Mircea Teodorescu; David Haussler
Journal:  J Neural Eng       Date:  2021-11-12       Impact factor: 5.379

2.  Microscale dynamics of electrophysiological markers of epilepsy.

Authors:  Jimmy C Yang; Angelique C Paulk; Pariya Salami; Sang Heon Lee; Mehran Ganji; Daniel J Soper; Daniel Cleary; Mirela Simon; Douglas Maus; Jong Woo Lee; Brian V Nahed; Pamela S Jones; Daniel P Cahill; Garth Rees Cosgrove; Catherine J Chu; Ziv Williams; Eric Halgren; Shadi Dayeh; Sydney S Cash
Journal:  Clin Neurophysiol       Date:  2021-08-02       Impact factor: 4.861

3.  Microscale Physiological Events on the Human Cortical Surface.

Authors:  Angelique C Paulk; Jimmy C Yang; Daniel R Cleary; Daniel J Soper; Milan Halgren; Alexandra R O'Donnell; Sang Heon Lee; Mehran Ganji; Yun Goo Ro; Hongseok Oh; Lorraine Hossain; Jihwan Lee; Youngbin Tchoe; Nicholas Rogers; Kivilcim Kiliç; Sang Baek Ryu; Seung Woo Lee; John Hermiz; Vikash Gilja; István Ulbert; Daniel Fabó; Thomas Thesen; Werner K Doyle; Orrin Devinsky; Joseph R Madsen; Donald L Schomer; Emad N Eskandar; Jong Woo Lee; Douglas Maus; Anna Devor; Shelley I Fried; Pamela S Jones; Brian V Nahed; Sharona Ben-Haim; Sarah K Bick; Robert Mark Richardson; Ahmed M Raslan; Dominic A Siler; Daniel P Cahill; Ziv M Williams; G Rees Cosgrove; Shadi A Dayeh; Sydney S Cash
Journal:  Cereb Cortex       Date:  2021-07-05       Impact factor: 4.861

4.  Spatially confined responses of mouse visual cortex to intracortical magnetic stimulation from micro-coils.

Authors:  Sang Baek Ryu; Angelique C Paulk; Jimmy C Yang; Mehran Ganji; Shadi A Dayeh; Sydney S Cash; Shelley I Fried; Seung Woo Lee
Journal:  J Neural Eng       Date:  2020-10-23       Impact factor: 5.379

5.  Stimulus Driven Single Unit Activity From Micro-Electrocorticography.

Authors:  John Hermiz; Lorraine Hossain; Ezequiel M Arneodo; Mehran Ganji; Nicholas Rogers; Nasim Vahidi; Eric Halgren; Timothy Q Gentner; Shadi A Dayeh; Vikash Gilja
Journal:  Front Neurosci       Date:  2020-02-28       Impact factor: 4.677
  5 in total

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