Frank Mazza

University of Toronto

H-index: 5

North America-Canada

About Frank Mazza

Frank Mazza, With an exceptional h-index of 5 and a recent h-index of 5 (since 2020), a distinguished researcher at University of Toronto, specializes in the field of Depression, Computational Models, Electroencephalography, Biomarkers.

His recent articles reflect a diverse array of research interests and contributions to the field:

EEG biomarkers of GABA α5 positive allosteric modulators in rodents

In-silico testing of new pharmacology for restoring inhibition and human cortical function in depression

Implications of reduced inhibition in schizophrenia on simulated human prefrontal microcircuit activity and EEG

In-silico EEG biomarkers of reduced inhibition in human cortical microcircuits in depression

Mapping inter-individual functional connectivity variability in TMS targets for major depressive disorder

Dorsomedial prefrontal rTMS for depression in borderline personality disorder: a pilot randomized crossover trial

Reduced inhibition in depression impairs stimulus processing in human cortical microcircuits

EEG biomarkers of reduced inhibition in human cortical microcircuits in depression

Frank Mazza Information

University	University of Toronto
Position	KCNI CAMH ()
Citations(all)	97
Citations(since 2020)	90
Cited By	17
hIndex(all)	5
hIndex(since 2020)	5
i10Index(all)	4
i10Index(since 2020)	4
Email	Access Email
University Profile Page	University of Toronto
Google Scholar	View Google Scholar Profile

Frank Mazza Skills & Research Interests

Depression

Computational Models

Electroencephalography

Biomarkers

Frank Mazza

University of Toronto

About Frank Mazza

Frank Mazza Information

Frank Mazza Skills & Research Interests

Top articles of Frank Mazza

EEG biomarkers of GABA α5 positive allosteric modulators in rodents

In-silico testing of new pharmacology for restoring inhibition and human cortical function in depression

Alexandre Guet-Mccreight

Frank Mazza

Etienne Sibille

Etay Hay

Implications of reduced inhibition in schizophrenia on simulated human prefrontal microcircuit activity and EEG

Frank Mazza

Etay Hay

In-silico EEG biomarkers of reduced inhibition in human cortical microcircuits in depression

Frank Mazza

Alexandre Guet-Mccreight

Etay Hay

Mapping inter-individual functional connectivity variability in TMS targets for major depressive disorder

Shreyas Harita

Davide Momi

Frank Mazza

Dorsomedial prefrontal rTMS for depression in borderline personality disorder: a pilot randomized crossover trial

Wei Wu

Amit Etkin

Ilya Demchenko

Frank Mazza

Peter Fettes

Farrokh Mansouri

Kamaldeep Bhui

Peter Giacobbe

Jonathan Downar

Reduced inhibition in depression impairs stimulus processing in human cortical microcircuits

Alexandre Guet-Mccreight

Frank Mazza

Etienne Sibille

Etay Hay

EEG biomarkers of reduced inhibition in human cortical microcircuits in depression

Frank Mazza

John Griffiths

Etay Hay

EEG Biomarkers of Reduced Inhibition in Microcircuit Models in Depression

Co-Authors

Etienne Sibille

Jonathan Downar

Jose Zariffa

Thomas D. Prévôt

John David Griffiths

Mary Scourboutakos