The neural coding of tonal working memory load: An functional magnetic resonance imaging study by Qiang Li, Dinghong Gong, Huiyi Tang, Jing Tian

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Self-supervised pretraining improves the performance of classification of task functional magnetic resonance imaging by Chenwei Shi, Yanming Wang, Yueyang Wu, Shishuo Chen, Rongjie Hu, Min Zhang, Bensheng Qiu, Bensheng Qiu, Xiaoxiao Wang

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Tablet Technology for Writing and Drawing during Functional Magnetic Resonance Imaging: A Review by Zhongmin Lin, Fred Tam, Nathan W. Churchill, Tom A. Schweizer, Simon J. Graham

“…Functional magnetic resonance imaging (fMRI) is a powerful modality to study brain activity. …”
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What functional magnetic resonance imaging can tell us about theory of mind by Saxe, Rebecca R. (Rebecca Rose), 1979-

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HST.583 Functional Magnetic Resonance Imaging: Data Acquisition and Analysis, Fall 2002 by Gollub, Randy L., Bird, Stephanie J., Brown, E. N. (Emery N.), Fischl, Bruce, Kanwisher, Nancy, Kennedy, David N. (David Nelson), 1962-, Manoach, Dara, Melcher, Jennifer R., Moore, Christopher, Wald, Lawrence, Dale, Anders, Schmitt, F. (Franz), 1953-, Greve, Doug, Hoge, Rick, Jovicich, Jorge, Mandeville, Joe, Rosen, Bruce Robert, Savage, Cary, Savoy, Robert, Sorensen, A. Gregory, Tuch, David Solomon, 1973-, Vanduffel, Wim, Vangel, Mark Geoffrey, Bush, George

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HST.583 Functional Magnetic Resonance Imaging: Data Acquisition and Analysis, Fall 2004 by Gollub, Randy L., Savoy, Robert, Wald, Lawrence, Banzett, Robert B., Dickerson, Bradford C, Melcher, Jennifer R., Kennedy, David N. (David Nelson), 1962-, Tuch, David Solomon, 1973-, Jovicich, Jorge, Greve, Doug, Mandeville, Joe, Vangel, Mark Geoffrey, Hoge, Rick, Blood, Anne, Hadjikhani, Nouchine, Moore, Christopher, Salat, David, Sigalovsky, Irina S., 1972-, Stufflebeam, Steven M, Zalesky, Martin

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HST.583 Functional Magnetic Resonance Imaging: Data Acquisition and Analysis, Fall 2006 by Gollub, Randy L., Banzett, Robert B., Bolar, Divya S., Buckner, Randy, Dickerson, Bradford, Gabrieli, John D. E., Whitfield-Gabrieli, Susan, Greve, Doug, Hadjikhani, Nouchine, Helmer, Karl, Kanwisher, Nancy, Kennedy, David N. (David Nelson), 1962-, Mandeville, Joe, Manoach, Dara, Melcher, Jennifer R., Moore, Christopher, Napadow, Vitaly, Pujol, Sonia, Rosen, Bruce Robert, Salat, David, Savoy, Robert, Sodickson, Dan, Sorensen, A. Gregory, Triantafyllou, Christina, Vangel, Mark Geoffrey, Wald, Lawrence, Yendiki, Anastasia

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Predicting Treatment Response in Social Anxiety Disorder From Functional Magnetic Resonance Imaging by Doehrmann, Oliver, Polli, Frida E., Reynolds, Gretchen O., Horn, Franziska, Keshavan, Anisha, Triantafyllou, Christina, Saygin, Zeynep M., Hofmann, Stefan G., Pollack, Mark, Ghosh, Satrajit S., Gabrieli, Susan, Gabrieli, John D. E.

“…Design: Functional magnetic resonance imaging (fMRI) data were collected prior to CBT intervention. …”
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Data-driven methods for denoising and analysis of functional magnetic resonance imaging time-series by Syed Muhammad Ghazanfar Monir.

“…In the last decade or so, functional magnetic resonance imaging (fMRI) has emerged as a standard tool for mapping activation patterns in the human brain. …”
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Relationship between functional magnetic resonance imaging-identified regions and neuronal category selectivity. by Bell, A, Malecek, N, Morin, E, Hadj-Bouziane, F, Tootell, R, Ungerleider, L

“…Functional magnetic resonance imaging (fMRI) has been used extensively to identify regions in the inferior temporal (IT) cortex that are selective for categories of visual stimuli. …”

Independent Component Analysis of Functional Magnetic Resonance Imaging Data Using Wavelet Dictionaries. by Johnson, R, Marchini, J, Smith, S, Beckmann, C

“…Functional Magnetic Resonance Imaging (FMRI) allows indirect observation of brain activity through changes in blood oxygenation, which are driven by neural activity. …”

A functional magnetic resonance imaging study into lateralisation of nociceptive processing in the human brain by Youell, P, Wise, R, El-Badry, M, King, T, Dickinson, MR, Tracey, I, Jones, A

The multisensory attentional consequences of tool use: a functional magnetic resonance imaging study by Holmes, N, Spence, C, Hansen, P, Mackay, C, Calvert, G

“…Methodology/Principal Findings: We tested this hypothesis by scanning healthy human participants’ brains using functional magnetic resonance imaging, while they used a simple tool to discriminate between target vibrations, accompanied by congruent or incongruent visual distractors, on the same or opposite side to the tool. …”

The social brain in adolescence: evidence from functional magnetic resonance imaging and behavioural studies. by Burnett, S, Sebastian, C, Kadosh, A, Blakemore, S

Short-term antidepressant treatment and facial processing. Functional magnetic resonance imaging study. by Norbury, R, Mackay, C, Cowen, P, Goodwin, G, Harmer, C

“…We used functional magnetic resonance imaging to investigate the effects of short-term treatment with reboxetine, a selective noradrenaline reuptake inhibitor, on emotional facial processing in healthy volunteers. …”

Functional magnetic resonance imaging study of receptive auditory function in schizophrenia and bipolar disorder by Lennox, B, Park, B, Jones, P, Peters, A, Hall, D, Akeroyd, M, Morris, P

Language network specializations: an analysis with parallel task designs and functional magnetic resonance imaging. by Gitelman, DR, Nobre, A, Sonty, S, Parrish, T, Mesulam, M

Object representations in the temporal cortex of monkeys and humans as revealed by functional magnetic resonance imaging. by Bell, A, Hadj-Bouziane, F, Frihauf, J, Tootell, R, Ungerleider, L

“…Here we used functional magnetic resonance imaging (fMRI) to identify correlates for three current hypotheses concerning object representations in the inferior temporal (IT) cortex of monkeys and humans: representations based on animacy, semantic categories, or visual features. …”

The multisensory attentional consequences of tool use: a functional magnetic resonance imaging study. by Holmes, N, Spence, C, Hansen, P, Mackay, C, Calvert, G

“…METHODOLOGY/PRINCIPAL FINDINGS: We tested this hypothesis by scanning healthy human participants' brains using functional magnetic resonance imaging, while they used a simple tool to discriminate between target vibrations, accompanied by congruent or incongruent visual distractors, on the same or opposite side to the tool. …”

An investigation to dissociate the analgesic and anesthetic properties of ketamine using functional magnetic resonance imaging. by Rogers, R, Wise, R, Painter, D, Longe, SE, Tracey, I

“… BACKGROUND: Anatomic sites within the brain, which activate in response to noxious stimuli, can be identified with the use of functional magnetic resonance imaging. The aim of this study was to determine whether the analgesic effects of ketamine could be imaged. …”