Methods to Compare Predicted and Observed Phosphene Experience in tACS Subjects

Methods to Compare Predicted and Observed Phosphene Experience in tACS Subjects

Background. Phosphene generation is an objective physical measure of potential transcranial alternating current stimulation (tACS) biological side effects. Interpretations from phosphene analysis can serve as a first step in understanding underlying mechanisms of tACS in healthy human subjects and a...

Full description

Bibliographic Details
Main Authors: Aprinda Indahlastari, Aditya K. Kasinadhuni, Christopher Saar, Kevin Castellano, Bakir Mousa, Munish Chauhan, Thomas H. Mareci, Rosalind J. Sadleir
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Neural Plasticity
Online Access:http://dx.doi.org/10.1155/2018/8525706
id doaj-63e0ec13f8d94a5c9d2affa9b7869d1e
record_format Article
spelling doaj-63e0ec13f8d94a5c9d2affa9b7869d1e2020-11-24T22:08:52ZengHindawi LimitedNeural Plasticity2090-59041687-54432018-01-01201810.1155/2018/85257068525706Methods to Compare Predicted and Observed Phosphene Experience in tACS SubjectsAprinda Indahlastari0Aditya K. Kasinadhuni1Christopher Saar2Kevin Castellano3Bakir Mousa4Munish Chauhan5Thomas H. Mareci6Rosalind J. Sadleir7School of Biological and Health Systems Engineering, Arizona State University, USADepartment of Biomedical Engineering, University of Florida, USASchool of Biological and Health Systems Engineering, Arizona State University, USADepartment of Biomedical Engineering, University of Florida, USASchool of Biological and Health Systems Engineering, Arizona State University, USASchool of Biological and Health Systems Engineering, Arizona State University, USADepartment of Biochemistry and Molecular Biology, University of Florida, USASchool of Biological and Health Systems Engineering, Arizona State University, USABackground. Phosphene generation is an objective physical measure of potential transcranial alternating current stimulation (tACS) biological side effects. Interpretations from phosphene analysis can serve as a first step in understanding underlying mechanisms of tACS in healthy human subjects and assist validation of computational models. Objective/Hypothesis. This preliminary study introduces and tests methods to analyze predicted phosphene occurrence using computational head models constructed from tACS recipients against verbal testimonies of phosphene sensations. Predicted current densities in the eyes and the occipital lobe were also verified against previously published threshold values for phosphenes. Methods. Six healthy subjects underwent 10 Hz tACS while being imaged in an MRI scanner. Two different electrode montages, T7-T8 and Fpz-Oz, were used. Subject ratings of phosphene experience were collected during tACS and compared against current density distributions predicted in eye and occipital lobe regions of interest (ROIs) determined for each subject. Calculated median current densities in each ROI were compared to minimum thresholds for phosphene generation. Main Results. All subjects reported phosphenes, and predicted median current densities in ROIs exceeded minimum thresholds for phosphenes found in the literature. Higher current densities in the eyes were consistently associated with decreased phosphene generation for the Fpz-Oz montage. There was an overall positive association between phosphene perceptions and current densities in the occipital lobe. Conclusions. These methods may have promise for predicting phosphene generation using data collected during in-scanner tACS sessions and may enable better understanding of phosphene origin. Additional empirical data in a larger cohort is required to fully test the robustness of the proposed methods. Future studies should include additional montages that could dissociate retinal and occipital stimulation.http://dx.doi.org/10.1155/2018/8525706
collection DOAJ
language English
format Article
sources DOAJ
author Aprinda Indahlastari
Aditya K. Kasinadhuni
Christopher Saar
Kevin Castellano
Bakir Mousa
Munish Chauhan
Thomas H. Mareci
Rosalind J. Sadleir
spellingShingle Aprinda Indahlastari
Aditya K. Kasinadhuni
Christopher Saar
Kevin Castellano
Bakir Mousa
Munish Chauhan
Thomas H. Mareci
Rosalind J. Sadleir
Methods to Compare Predicted and Observed Phosphene Experience in tACS Subjects
Neural Plasticity
author_facet Aprinda Indahlastari
Aditya K. Kasinadhuni
Christopher Saar
Kevin Castellano
Bakir Mousa
Munish Chauhan
Thomas H. Mareci
Rosalind J. Sadleir
author_sort Aprinda Indahlastari
title Methods to Compare Predicted and Observed Phosphene Experience in tACS Subjects
title_short Methods to Compare Predicted and Observed Phosphene Experience in tACS Subjects
title_full Methods to Compare Predicted and Observed Phosphene Experience in tACS Subjects
title_fullStr Methods to Compare Predicted and Observed Phosphene Experience in tACS Subjects
title_full_unstemmed Methods to Compare Predicted and Observed Phosphene Experience in tACS Subjects
title_sort methods to compare predicted and observed phosphene experience in tacs subjects
publisher Hindawi Limited
series Neural Plasticity
issn 2090-5904
1687-5443
publishDate 2018-01-01
description Background. Phosphene generation is an objective physical measure of potential transcranial alternating current stimulation (tACS) biological side effects. Interpretations from phosphene analysis can serve as a first step in understanding underlying mechanisms of tACS in healthy human subjects and assist validation of computational models. Objective/Hypothesis. This preliminary study introduces and tests methods to analyze predicted phosphene occurrence using computational head models constructed from tACS recipients against verbal testimonies of phosphene sensations. Predicted current densities in the eyes and the occipital lobe were also verified against previously published threshold values for phosphenes. Methods. Six healthy subjects underwent 10 Hz tACS while being imaged in an MRI scanner. Two different electrode montages, T7-T8 and Fpz-Oz, were used. Subject ratings of phosphene experience were collected during tACS and compared against current density distributions predicted in eye and occipital lobe regions of interest (ROIs) determined for each subject. Calculated median current densities in each ROI were compared to minimum thresholds for phosphene generation. Main Results. All subjects reported phosphenes, and predicted median current densities in ROIs exceeded minimum thresholds for phosphenes found in the literature. Higher current densities in the eyes were consistently associated with decreased phosphene generation for the Fpz-Oz montage. There was an overall positive association between phosphene perceptions and current densities in the occipital lobe. Conclusions. These methods may have promise for predicting phosphene generation using data collected during in-scanner tACS sessions and may enable better understanding of phosphene origin. Additional empirical data in a larger cohort is required to fully test the robustness of the proposed methods. Future studies should include additional montages that could dissociate retinal and occipital stimulation.
url http://dx.doi.org/10.1155/2018/8525706
work_keys_str_mv AT aprindaindahlastari methodstocomparepredictedandobservedphospheneexperienceintacssubjects
AT adityakkasinadhuni methodstocomparepredictedandobservedphospheneexperienceintacssubjects
AT christophersaar methodstocomparepredictedandobservedphospheneexperienceintacssubjects
AT kevincastellano methodstocomparepredictedandobservedphospheneexperienceintacssubjects
AT bakirmousa methodstocomparepredictedandobservedphospheneexperienceintacssubjects
AT munishchauhan methodstocomparepredictedandobservedphospheneexperienceintacssubjects
AT thomashmareci methodstocomparepredictedandobservedphospheneexperienceintacssubjects
AT rosalindjsadleir methodstocomparepredictedandobservedphospheneexperienceintacssubjects
_version_ 1725814204312584192

Similar Items