Scientific Reports (Dec 2020)

Low-motion fMRI data can be obtained in pediatric participants undergoing a 60-minute scan protocol

  • Corey Horien,
  • Scuddy Fontenelle,
  • Kohrissa Joseph,
  • Nicole Powell,
  • Chaela Nutor,
  • Diogo Fortes,
  • Maureen Butler,
  • Kelly Powell,
  • Deanna Macris,
  • Kangjoo Lee,
  • Abigail S. Greene,
  • James C. McPartland,
  • Fred R. Volkmar,
  • Dustin Scheinost,
  • Katarzyna Chawarska,
  • R. Todd Constable

DOI
https://doi.org/10.1038/s41598-020-78885-z
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 10

Abstract

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Abstract Performing functional magnetic resonance imaging (fMRI) scans of children can be a difficult task, as participants tend to move while being scanned. Head motion represents a significant confound in fMRI connectivity analyses. One approach to limit motion has been to use shorter MRI protocols, though this reduces the reliability of results. Hence, there is a need to implement methods to achieve high-quality, low-motion data while not sacrificing data quantity. Here we show that by using a mock scan protocol prior to a scan, in conjunction with other in-scan steps (weighted blanket and incentive system), it is possible to achieve low-motion fMRI data in pediatric participants (age range: 7–17 years old) undergoing a 60 min MRI session. We also observe that motion is low during the MRI protocol in a separate replication group of participants, including some with autism spectrum disorder. Collectively, the results indicate it is possible to conduct long scan protocols in difficult-to-scan populations and still achieve high-quality data, thus potentially allowing more reliable fMRI findings.