Transcranial 1064-nm laser photobiomodulates human EEG brain networks at resting state identified by singular value decomposition and eLORETA

Xinlong Wang; Hashini Wanniarachchi; Hanli Liu

doi:10.1364/BODA.2021.JTu4A.26

Biophotonics Congress 2021
OSA Technical Digest (Optica Publishing Group, 2021),
paper JTu4A.26
•https://doi.org/10.1364/BODA.2021.JTu4A.26

Transcranial 1064-nm laser photobiomodulates human EEG brain networks at resting state identified by singular value decomposition and eLORETA

Xinlong Wang, Hashini Wanniarachchi, and Hanli Liu

Bio-Optics: Design and Application 2021

Washington, DC United States
12–16 April 2021
ISBN: 978-1-943580-85-9

From the session
Joint Poster Session I (JTu4A)

Not Accessible

Your library or personal account may give you access

Get PDF
Email
Share
Get Citation
Copy Citation Text
X. Wang, H. Wanniarachchi, and H. Liu, "Transcranial 1064-nm laser photobiomodulates human EEG brain networks at resting state identified by singular value decomposition and eLORETA," in Biophotonics Congress 2021, C. Boudoux, K. Maitland, C. Hendon, M. Wojtkowski, K. Quinn, M. Schanne-Klein, N. Durr, D. Elson, F. Cichos, L. Oddershede, V. Emiliani, O. Maragò, S. Nic Chormaic, N. Pégard, S. Gibbs, S. Vinogradov, M. Niedre, K. Samkoe, A. Devor, D. Peterka, P. Blinder, and E. Buckley, eds., OSA Technical Digest (Optica Publishing Group, 2021), paper JTu4A.26.

Export Citation
- BibTex
- Endnote (RIS)
- HTML
- Plain Text
Get Video
Citation alert
Save article

Abstract

Right frontal delivery of transcranial photobiomodulation with 1064-nm laser enabled to increase the alpha oscillation power of nine resting-state brain networks as quantified by group singular value decomposition based on EEG signals from 37 healthy subjects.

PDF Article | Presentation Video

More Like This

Transcranial photobiomodulation with light emitting diodes increases vigilance performance and EEG alpha power of the human brain

Akhil Chaudhari, Xinlong Wang, Anqi Wu, Jacek P. Dmochowski, and Hanli Liu
JW1A.20 Bio-Optics: Design and Application (BODA) 2021

Transcranial Photobiomodulation (tPBM) Recipients Present Information Flow Alterations in the Cortex: an eCONNECTOME Brain Space ROI Analysis

Tyrell Pruitt, Xinlong Wang, Hashini Wanirachichi, and Hanli Liu
JTu4A.27 Bio-Optics: Design and Application (BODA) 2021

Transcranial Photobiomodulation (tPBM) Enhances Local Hemodynamics and Global Dynamic Connectivity in the Cortex as Measured by fNIRS

Hashini Wanniarachchi, Xinlong Wang, Elizabeth L. Urquhart, and Hanli Liu
JTu4A.28 Bio-Optics: Design and Application (BODA) 2021

Previous Article Next Article

Poster Presentation

Media 1: PDF (490 KB)

Presentation Video

Presentation video access is available to:

Optica Publishing Group subscribers
Technical meeting attendees
Optica members who wish to use one of their free downloads. Please download the article first. After downloading, please refresh this page.

Contact your librarian or system administrator
or
Log in to access Optica Member Subscription or free downloads