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Using fMRI to investigate the potential cause of inverse oxygenation reported in fNIRS studies of motor imagery
Neuroscience Letters
  • Androu Abdalmalak, Lawson Health Research Institute
  • Daniel Milej, Lawson Health Research Institute
  • David J. Cohen, Western University
  • Udunna Anazodo, Lawson Health Research Institute
  • Tracy Ssali, Lawson Health Research Institute
  • Mamadou Diop, Lawson Health Research Institute
  • Adrian M. Owen, Western University
  • Keith St. Lawrence, Lawson Health Research Institute
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© 2019 Elsevier B.V. Motor imagery (MI) is a commonly used cognitive task in brain–computer interface (BCI) applications because it produces reliable activity in motor-planning regions. However, a number of functional near-infrared spectroscopy (fNIRS) studies have reported the unexpected finding of inverse oxygenation: increased deoxyhemoglobin and decreased oxyhemoglobin during task periods. This finding questions the reliability of fNIRS for BCI applications given that MI activation should result in a focal increase in blood oxygenation. In an attempt to elucidate this phenomenon, fMRI and fNIRS data were acquired on 15 healthy participants performing a MI task. The fMRI data provided global coverage of brain activity, thus allowing visualization of all potential brain regions activated and deactivated during task periods. Indeed, fMRI results from seven subjects included activation in the primary motor cortex and/or the pre-supplementary motor area during the rest periods in addition to the expected activation in the supplementary motor and premotor areas. Of these seven subjects, two showed inverse oxygenation with fNIRS. The proximity of the regions showing inverse oxygenation to the motor planning regions suggests that inverse activation detected by fNIRS may likely be a consequence of partial volume errors due to the sensitivity of the optodes to both primary motor and motor planning regions.

Citation Information
Androu Abdalmalak, Daniel Milej, David J. Cohen, Udunna Anazodo, et al.. "Using fMRI to investigate the potential cause of inverse oxygenation reported in fNIRS studies of motor imagery" Neuroscience Letters (2020)
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