In:
Journal of Neuroimaging, Wiley
Kurzfassung:
Multicenter study designs involving a variety of MRI scanners have become increasingly common. However, these present the issue of biases in image‐based measures due to scanner or site differences. To assess these biases, we imaged 11 volunteers with multiple sclerosis (MS) with scan and rescan data at four sites. Methods Images were acquired on Siemens or Philips scanners at 3 Tesla. Automated white matter lesion detection and whole‐brain, gray and white matter, and thalamic volumetry were performed, as well as expert manual delineations of T1 magnetization‐prepared rapid acquisition gradient echo and T2 fluid‐attenuated inversion recovery lesions. Random‐effect and permutation‐based nonparametric modeling was performed to assess differences in estimated volumes within and across sites. Results Random‐effect modeling demonstrated model assumption violations for most comparisons of interest. Nonparametric modeling indicated that site explained 〉 50% of the variation for most estimated volumes. This expanded to 〉 75% when data from both Siemens and Philips scanners were included. Permutation tests revealed significant differences between average inter‐ and intrasite differences in most estimated brain volumes ( P 〈 .05). The automatic activation of spine coil elements during some acquisitions resulted in a shading artifact in these images. Permutation tests revealed significant differences between thalamic volume measurements from acquisitions with and without this artifact. Conclusion Differences in brain volumetry persisted across MR scanners despite protocol harmonization. These differences were not well explained by variance component modeling; however, statistical innovations for mitigating intersite differences show promise in reducing biases in multicenter studies of MS.
Materialart:
Online-Ressource
ISSN:
1051-2284
,
1552-6569
Sprache:
Englisch
Verlag:
Wiley
Publikationsdatum:
2023
ZDB Id:
2035400-9
