Bouyagoub2020_Article_ComparingMultibandAndSingleban.pdf (4.28 MB)
Comparing multiband and singleband EPI in NODDI at 3T: what are the implications for reproducibility and study sample sizes?
Version 2 2023-06-12, 09:37
Version 1 2023-06-09, 22:23
journal contribution
posted on 2023-06-12, 09:37 authored by Samira BouyagoubSamira Bouyagoub, Nicholas DowellNicholas Dowell, Matthew Gabel, Mara CercignaniObjective The reproducibility of Neurite orientation dispersion and density imaging (NODDI) metrics from time-saving multiband (MB) EPI compared with singleband (SB) has not been considered. This study aims to evaluate the reproducibility of NODDI parameters from SB and MB acquisitions, determine the agreement between acquisitions and estimate the sample sizes required to detect between-group change. Methods Brain diffusion MRI data were acquired using SB and MB (acceleration factors 2 (MB2) and 3 (MB3)) on 8 healthy subjects on 2 separate visits. NODDI maps of isotropic volume fraction (FISO), neurite density (NDI) and orientation dispersion index (ODI) were estimated. Region-of-interest analysis was performed; variability across subjects and visits was measured using coefficients of variation (CoV). Intraclass correlation coefficient and Bland–Altman analysis were performed to assess reproducibility and detect any systematic bias between SB, MB2 and MB3. Power calculations were used to determine sample sizes required to detect group differences. Results Both NDI and ODI were reproducible between visits; however, FISO was variable. All parameters were not reproducible across methods; a systematic bias was observed with the derived values decreasing as the MB factor increases. The number of subjects needed to detect a between-group change is not significantly different between methods; however, ODI needs considerably higher sample sizes than NDI. Conclusions Both SB and MB yield highly reproducible NDI and ODI measures, but direct comparison of these parameters between methods is complicated by systematic differences that exist between the two approaches.
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- Published
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- Published version
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Magnetic Resonance Materials in Physics, Biology and MedicineISSN
0968-5243Publisher
Springer VerlagExternal DOI
Department affiliated with
- BSMS Neuroscience Publications
Full text available
- Yes
Peer reviewed?
- Yes
Legacy Posted Date
2020-12-09First Open Access (FOA) Date
2021-01-14First Compliant Deposit (FCD) Date
2020-12-08Usage metrics
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