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File:Right Hand NFB.ogv

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Original file (Ogg Theora video file, length 24 s, 1,000 × 600 pixels, 1.38 Mbps, file size: 3.97 MB)

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English: Dynamics of fMRI-based neurofeedback training: sensorimotor cortices responsible for finger movements.

Left and right sensorimotor cortices (SMC) were identified on single subject level using a functional localizer task (green blobs). During four weeks of training (three sessions per week), the fMRI signal difference between the left and right SMC, elicited by motor imagery, was visually presented to the subjects in real time. Each session consisted of two runs of right-sided and left-sided imaginary movements each. For a successful subject, each run was analyzed using FSL and thresholded using iterative two-threshold analysis (Auer et al., 2011). Activation (red-yellow) and deactivation maps (blue-white) were overlaid on the subject’s cortical surface reconstructed using Freesurfer.

The videos demonstrate that, during the initial sessions the right-hand training recruits an ipsilateral deactivation, whereas the left-hand training elicits a higher contralateral activation. In the second half of the training sessions the ipsilateral deactivation vanishes and the strength of the contralateral activation reaches a plateau for both hands.
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Author Tibor Auer
Media of the day This file was selected as the media of the day for 25 May 2012. It was captioned as follows:
English: Dynamics of fMRI-based neurofeedback training: sensorimotor cortices responsible for finger movements.

Left and right sensorimotor cortices (SMC) were identified on single subject level using a functional localizer task (green blobs). During four weeks of training (three sessions per week), the fMRI signal difference between the left and right SMC, elicited by motor imagery, was visually presented to the subjects in real time. Each session consisted of two runs of right-sided and left-sided imaginary movements each. For a successful subject, each run was analyzed using FSL and thresholded using iterative two-threshold analysis (Abstract number: 5312). Activation (red-yellow) and deactivation maps (blue-white) were overlaid on the subject’s cortical surface reconstructed using Freesurfer.

The videos demonstrate that, during the initial sessions the right-hand training recruits an ipsilateral deactivation, whereas the left-hand training elicits a higher contralateral activation. In the second half of the training sessions the ipsilateral deactivation vanishes and the strength of the contralateral activation reaches a plateau for both hands.
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English: Dynamics of fMRI-based neurofeedback training: sensorimotor cortices responsible for finger movements.

Left and right sensorimotor cortices (SMC) were identified on single subject level using a functional localizer task (green blobs). During four weeks of training (three sessions per week), the fMRI signal difference between the left and right SMC, elicited by motor imagery, was visually presented to the subjects in real time. Each session consisted of two runs of right-sided and left-sided imaginary movements each. For a successful subject, each run was analyzed using FSL and thresholded using iterative two-threshold analysis (Abstract number: 5312). Activation (red-yellow) and deactivation maps (blue-white) were overlaid on the subject’s cortical surface reconstructed using Freesurfer.

The videos demonstrate that, during the initial sessions the right-hand training recruits an ipsilateral deactivation, whereas the left-hand training elicits a higher contralateral activation. In the second half of the training sessions the ipsilateral deactivation vanishes and the strength of the contralateral activation reaches a plateau for both hands.
Македонски: Приказ на динамиката на невроодѕивна терапија на fMRI: сетилнодвижните кори одговорни за движење на прстите.
中文(简体):功能性磁共振成像图像

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Date/TimeThumbnailDimensionsUserComment
current11:41, 22 May 201224 s, 1,000 × 600 (3.97 MB)BiomedNMR (talk | contribs)

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VP9 480P 268 kbps Completed 18:47, 17 October 2018 14 s
VP9 360P 137 kbps Completed 18:47, 17 October 2018 9.0 s
VP9 240P 76 kbps Completed 18:46, 17 October 2018 7.0 s
WebM 360P 424 kbps Completed 23:43, 18 November 2012 13 s
QuickTime 144p (MJPEG) Not ready Unknown status

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