M
Mark J. Lowe
Researcher at Cleveland Clinic
Publications - 158
Citations - 13249
Mark J. Lowe is an academic researcher from Cleveland Clinic. The author has contributed to research in topics: Resting state fMRI & Functional magnetic resonance imaging. The author has an hindex of 51, co-authored 150 publications receiving 12081 citations. Previous affiliations of Mark J. Lowe include University of Wisconsin-Madison & Indiana University – Purdue University Indianapolis.
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Journal ArticleDOI
Toward discovery science of human brain function
Bharat B. Biswal,Maarten Mennes,Xi-Nian Zuo,Suril Gohel,Clare Kelly,Steve M. Smith,Christian F. Beckmann,Jonathan S. Adelstein,Randy L. Buckner,Stan Colcombe,Anne Marie Dogonowski,Monique Ernst,Damien A. Fair,Michelle Hampson,Matthew J. Hoptman,James S. Hyde,Vesa Kiviniemi,Rolf Kötter,Shi-Jiang Li,Ching Po Lin,Mark J. Lowe,Clare E. Mackay,David J. Madden,Kristoffer Hougaard Madsen,Daniel S. Margulies,Helen S. Mayberg,Katie L. McMahon,Christopher S. Monk,Stewart H. Mostofsky,Bonnie J. Nagel,James J. Pekar,Scott Peltier,Steven E. Petersen,Valentin Riedl,Serge A.R.B. Rombouts,Bart Rypma,Bradley L. Schlaggar,Sein Schmidt,Rachael D. Seidler,Greg J. Siegle,Christian Sorg,Gao Jun Teng,Juha Veijola,Arno Villringer,Martin Walter,Lihong Wang,Xu Chu Weng,Susan Whitfield-Gabrieli,Peter C. Williamson,Christian Windischberger,Yu-Feng Zang,Hong Ying Zhang,F. Xavier Castellanos,F. Xavier Castellanos,Michael P. Milham +54 more
TL;DR: The 1000 Functional Connectomes Project (Fcon_1000) as discussed by the authors is a large-scale collection of functional connectome data from 1,414 volunteers collected independently at 35 international centers.
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Functional Connectivity in Single and Multislice Echoplanar Imaging Using Resting-State Fluctuations
TL;DR: Correlations to left hemisphere motor cortex, visual cortex, and amygdala are measured in long resting-state scans and these correlations are extended to lower sampling rate multislice echoplanar acquisitions and other right/left hemisphere-symmetric functional cortices.
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Activity and Connectivity of Brain Mood Regulating Circuit in Depression: A Functional Magnetic Resonance Study
Amit Anand,Yu Li,Yang Wang,Jingwei Wu,Sujuan Gao,Lubna Bukhari,Vincent P. Mathews,Andrew J. Kalnin,Mark J. Lowe +8 more
TL;DR: The finding of increased activation of limbic regions and decreased LFBF correlations between ACC and limbic areas is consistent with the hypothesis that decreased cortical regulation of limbics activation in response to negative stimuli may be present in depression.
Journal ArticleDOI
Resting state corticolimbic connectivity abnormalities in unmedicated bipolar disorder and unipolar depression
TL;DR: The results of the study indicate a common finding of decreased corticolimbic functional connectivity in different types of mood disorders.
Journal ArticleDOI
Antidepressant Effect on Connectivity of the Mood-Regulating Circuit: An fMRI Study
Amit Anand,Yu Li,Yang Wang,Jingwei Wu,Sujuan Gao,Lubna Bukhari,Vincent P. Mathews,Andrew J. Kalnin,Mark J. Lowe +8 more
TL;DR: The results of this study are consistent with the hypothesis that antidepressant treatment may increase corticolimbic connectivity, thereby possibly increasing the regulatory influence of cortical mood-regulating regions over limbic regions.