Abstract

The objective of the proposed research is to develop and implement an fMRI method capable of delivering information on anatomically specific brain activities back to a subject in near real-time as biofeedback, thus enabling neurofeedback. Guided by the information on their own cortical activities, the subjects subsequently learn to gain a level of voluntary control in modulating brain activities of auditory and somatomotor areas using cognitive functions such as attention and imagery. The main hypothesis of this study is that the level of attention to auditory stimulation and the content of motor imagery can be voluntarily controlled by the subjects, thus modulating the activities in auditory and somatomotor areas that are characterized by fMRI. The secondary hypothesis is that biofeedback of regionally specific brain function will assist subjects to achieve a greater degree of modulation compared to subjects without neurofeedback. The tertiary hypothesis is that subjects can retain or further enhance the degree of cortical modulation learned from the initial neurofeedback sessions by mental practice in the absence of additional neurofeedback. We will implement an fMRI method to quantify brain activation, delineate the targeted brain areas-of-interest, and enable quantitative scales of brain activities to be fed back to the subjects in the form of graphical/auditory information. The MR parameters and task paradigm will be optimized by implementing, testing, and modifying the cycle of the experiment on 20 volunteer subjects using an auditory attention task. Upon the completion of implementation, we will apply the neurofeedback fMRI method to 15 healthy volunteer subjects undergoing auditory attention and motor imagery tasks. We will modulate subjects' brain activities, in terms of an increase/decrease in the size of activation and/or blood-oxygenation-level-dependent signal contrast, in primary and secondary auditory areas during passive auditory stimulation by assigning different degrees of attention/distraction to incoming stimuli. The activities in somatomotor areas will be modulated using motor imagery. The efficacy of the neurofeedback approach will be examined by comparing the functional brain mapping data to that obtained from demographically matched subjects who perform the task without the guidance of neurofeedback. We will also examine whether the degree of modulation achieved from the neurofeedback procedures can be consolidated and retained over time by performing the second fMR/session to measure the degree of modulatory changes learned from the initial neurofeedback sessions.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS048242-03
Application #
7082827
Study Section
Special Emphasis Panel (ZRG1-BDCN-E (10))
Program Officer
Chen, Daofen
Project Start
2004-09-28
Project End
2008-06-30
Budget Start
2006-07-01
Budget End
2008-06-30
Support Year
3
Fiscal Year
2006
Total Cost
$273,463
Indirect Cost

  Institution

Name
Brigham and Women's Hospital
Department
Type
DUNS #
030811269
City
Boston
State
MA
Country
United States
Zip Code
02115

  Publications

Gujar, Ninad; Yoo, Seung-Schik; Hu, Peter et al. (2010) The unrested resting brain: sleep deprivation alters activity within the default-mode network. J Cogn Neurosci 22:1637-48
Lee, Jong-Hwan; Oh, Sungsuk; Jolesz, Ferenc A et al. (2009) Application of independent component analysis for the data mining of simultaneous Eeg-fMRI: preliminary experience on sleep onset. Int J Neurosci 119:1118-36
Lee, Jong-Hwan; Ryu, Jeongwon; Jolesz, Ferenc A et al. (2009) Brain-machine interface via real-time fMRI: preliminary study on thought-controlled robotic arm. Neurosci Lett 450:1-6
Lee, Jong-Hwan; Marzelli, Matthew; Jolesz, Ferenc A et al. (2009) Automated classification of fMRI data employing trial-based imagery tasks. Med Image Anal 13:392-404
Yoo, Seung-Schik; Lee, Jong-Hwan; O'Leary, Heather et al. (2008) Neurofeedback fMRI-mediated learning and consolidation of regional brain activation during motor imagery. Int J Imaging Syst Technol 18:69-78
Lee, Jong-Hwan; Lee, Te-Won; Jolesz, Ferenc A et al. (2008) Independent Vector Analysis (IVA) for Group fMRI Processing of Subcortical Area. Int J Imaging Syst Technol 18:29-41
Marzelli, Matthew; Fischer, Krisztina; Kim, Young Beom et al. (2008) Composite MR Contrast Agents for Conditional Cell-Labeling. Int J Imaging Syst Technol 18:79-84
Lee, Jong-Hwan; Lee, Te-Won; Jolesz, Ferenc A et al. (2008) Independent vector analysis (IVA): multivariate approach for fMRI group study. Neuroimage 40:86-109
Lee, Jong-Hwan; O'Leary, Heather M; Park, Hyunwook et al. (2008) Atlas-based multichannel monitoring of functional MRI signals in real-time: automated approach. Hum Brain Mapp 29:157-66
Yoo, Seung-Schik; Gujar, Ninad; Hu, Peter et al. (2007) The human emotional brain without sleep--a prefrontal amygdala disconnect. Curr Biol 17:R877-8

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