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Neuroscience and Biomedical Engineering (Discontinued)

Editor-in-Chief

ISSN (Print): 2213-3852
ISSN (Online): 2213-3860

Research Article

fMRI Simulator Training to Suppress Head Motion

Author(s): S. J. Graham, S. Ranieri, S. Boe, J. E. Ween, F. Tam and T. A. Schweizer

Volume 4, Issue 2, 2016

Page: [96 - 103] Pages: 8

DOI: 10.2174/2213385204666160425155104

Price: $65

Abstract

Background: A simulated functional magnetic resonance imaging (fMRI) environment, or "fMRI simulator", is helpful for prototyping behavioural tasks and acclimatizing individuals prior to actual fMRI of brain activity. When a position tracking system is integrated, such simulators can potentially be used to train individuals to perform behavioural tasks while suppressing their head motion. This is an important endeavor, as fMRI remains easily contaminated by unacceptable levels of motion artifact and no global strategy exists to eliminate the problem.

New Method: In the present work, simulator-training procedures were developed that included visual feedback of head motion parameters. In two experiments, simulator training was applied to patients recovering from stroke, as well as cohorts of healthy young and elderly adults, who performed hand motor tasks.

Results: Simulator training lead to statistically significant reductions in task-correlated motion for a subset of young healthy adults who had elevated motion levels at the outset (p<0.05). All stroke patients also showed large intra-individual reductions. Task-correlated motion was not reduced in healthy elderly adults, who exhibited motion with much slower trends.

Comparison with existing methods: For young healthy adults with elevated task-correlated motion, simulator training reduced head motion to levels seen in a motion-screened, high compliant group of individuals with low head motion. Similarly, substantial reductions in task-correlated motion were observed in stroke patients after simulator training.

Conclusion: These results support use of simulator training in cases where task-correlated head motion is expected to be problematic during fMRI experiments.

Keywords: fMRI, head motion, simulator, position tracking, training.

Graphical Abstract

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