Volumetric analysis from a harmonized multisite brain MRI study of a single subject with multiple sclerosis

R. T. Shinohara; J. Oh; G. Nair; P. A. Calabresi; C. Davatzikos; J. Doshi; R. G. Henry; G. Kim; K. A. Linn; N. Papinutto; D. Pelletier; D. L. Pham; D. S. Reich; W. Rooney; S. Roy; W. Stern; S. Tummala; F. Yousuf; A. Zhu; N. L. Sicotte; R. Bakshi

doi:10.3174/ajnr.A5254

Volumetric analysis from a harmonized multisite brain MRI study of a single subject with multiple sclerosis

R. T. Shinohara, J. Oh, G. Nair, P. A. Calabresi, C. Davatzikos, J. Doshi, R. G. Henry, G. Kim, K. A. Linn, N. Papinutto, D. Pelletier, D. L. Pham, D. S. Reich, W. Rooney, S. Roy, W. Stern, S. Tummala, F. Yousuf, A. Zhu, N. L. SicotteR. Bakshi

Advanced Imaging Research Center

Research output: Contribution to journal › Article › peer-review

82 Scopus citations

Abstract

BACKGROUND AND PURPOSE: MR imaging can be used to measure structural changes in the brains of individuals with multiple sclerosis and is essential for diagnosis, longitudinal monitoring, and therapy evaluation. The North American Imaging in Multiple Sclerosis Cooperative steering committee developed a uniform high-resolution 3T MR imaging protocol relevant to the quantification of cerebral lesions and atrophy and implemented it at 7 sites across the United States. To assess intersite variability in scan data, we imaged a volunteer with relapsing-remitting MS with a scan-rescan at each site. MATERIALS AND METHODS: All imaging was acquired on Siemens scanners (4 Skyra, 2 Tim Trio, and 1 Verio). Expert segmentations were manually obtained for T1-hypointense and T2 (FLAIR) hyperintense lesions. Several automated lesion-detection and whole-brain, cortical, and deep gray matter volumetric pipelines were applied. Statistical analyses were conducted to assess variability across sites, as well as systematic biases in the volumetric measurements that were site-related. RESULTS: Systematic biases due to site differences in expert-traced lesion measurements were significant (P < .01 for both T1 and T2 lesion volumes), with site explaining >90% of the variation (range, 13.0 -16.4 mL in T1 and 15.9 -20.1 mL in T2) in lesion volumes. Site also explained>80% of the variation in most automated volumetric measurements. Output measures clustered according to scanner models, with similar results from the Skyra versus the other 2 units. CONCLUSIONS: Even in multicenter studies with consistent scanner field strength and manufacturer after protocol harmonization, systematic differences can lead to severe biases in volumetric analyses.

Original language	English (US)
Pages (from-to)	1501-1509
Number of pages	9
Journal	American Journal of Neuroradiology
Volume	38
Issue number	8
DOIs	https://doi.org/10.3174/ajnr.A5254
State	Published - Aug 1 2017

ASJC Scopus subject areas

Radiology Nuclear Medicine and imaging
Clinical Neurology

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Shinohara, R. T., Oh, J., Nair, G., Calabresi, P. A., Davatzikos, C., Doshi, J., Henry, R. G., Kim, G., Linn, K. A., Papinutto, N., Pelletier, D., Pham, D. L., Reich, D. S., Rooney, W., Roy, S., Stern, W., Tummala, S., Yousuf, F., Zhu, A., ... Bakshi, R. (2017). Volumetric analysis from a harmonized multisite brain MRI study of a single subject with multiple sclerosis. American Journal of Neuroradiology, 38(8), 1501-1509. https://doi.org/10.3174/ajnr.A5254

Shinohara, RT, Oh, J, Nair, G, Calabresi, PA, Davatzikos, C, Doshi, J, Henry, RG, Kim, G, Linn, KA, Papinutto, N, Pelletier, D, Pham, DL, Reich, DS, Rooney, W, Roy, S, Stern, W, Tummala, S, Yousuf, F, Zhu, A, Sicotte, NL & Bakshi, R 2017, 'Volumetric analysis from a harmonized multisite brain MRI study of a single subject with multiple sclerosis', American Journal of Neuroradiology, vol. 38, no. 8, pp. 1501-1509. https://doi.org/10.3174/ajnr.A5254

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title = "Volumetric analysis from a harmonized multisite brain MRI study of a single subject with multiple sclerosis",

abstract = "BACKGROUND AND PURPOSE: MR imaging can be used to measure structural changes in the brains of individuals with multiple sclerosis and is essential for diagnosis, longitudinal monitoring, and therapy evaluation. The North American Imaging in Multiple Sclerosis Cooperative steering committee developed a uniform high-resolution 3T MR imaging protocol relevant to the quantification of cerebral lesions and atrophy and implemented it at 7 sites across the United States. To assess intersite variability in scan data, we imaged a volunteer with relapsing-remitting MS with a scan-rescan at each site. MATERIALS AND METHODS: All imaging was acquired on Siemens scanners (4 Skyra, 2 Tim Trio, and 1 Verio). Expert segmentations were manually obtained for T1-hypointense and T2 (FLAIR) hyperintense lesions. Several automated lesion-detection and whole-brain, cortical, and deep gray matter volumetric pipelines were applied. Statistical analyses were conducted to assess variability across sites, as well as systematic biases in the volumetric measurements that were site-related. RESULTS: Systematic biases due to site differences in expert-traced lesion measurements were significant (P < .01 for both T1 and T2 lesion volumes), with site explaining >90% of the variation (range, 13.0 -16.4 mL in T1 and 15.9 -20.1 mL in T2) in lesion volumes. Site also explained>80% of the variation in most automated volumetric measurements. Output measures clustered according to scanner models, with similar results from the Skyra versus the other 2 units. CONCLUSIONS: Even in multicenter studies with consistent scanner field strength and manufacturer after protocol harmonization, systematic differences can lead to severe biases in volumetric analyses.",

author = "Shinohara, {R. T.} and J. Oh and G. Nair and Calabresi, {P. A.} and C. Davatzikos and J. Doshi and Henry, {R. G.} and G. Kim and Linn, {K. A.} and N. Papinutto and D. Pelletier and Pham, {D. L.} and Reich, {D. S.} and W. Rooney and S. Roy and W. Stern and S. Tummala and F. Yousuf and A. Zhu and Sicotte, {N. L.} and R. Bakshi",

note = "Funding Information: Major support for this study was provided by the Race to Erase MS. Additional support came from RO1NS085211, R21NS093349, R01EB017255, and S10OD016356 from the National Institutes of Health and RG-1507-05243 from the National Multiple Sclerosis Society. The study was also partially supported by the Intramural Research Program of the National Institute of Neurological Disorders and Stroke.",

year = "2017",

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doi = "10.3174/ajnr.A5254",

language = "English (US)",

volume = "38",

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TY - JOUR

T1 - Volumetric analysis from a harmonized multisite brain MRI study of a single subject with multiple sclerosis

AU - Shinohara, R. T.

AU - Oh, J.

AU - Nair, G.

AU - Calabresi, P. A.

AU - Davatzikos, C.

AU - Doshi, J.

AU - Henry, R. G.

AU - Kim, G.

AU - Linn, K. A.

AU - Papinutto, N.

AU - Pelletier, D.

AU - Pham, D. L.

AU - Reich, D. S.

AU - Rooney, W.

AU - Roy, S.

AU - Stern, W.

AU - Tummala, S.

AU - Yousuf, F.

AU - Zhu, A.

AU - Sicotte, N. L.

AU - Bakshi, R.

N1 - Funding Information: Major support for this study was provided by the Race to Erase MS. Additional support came from RO1NS085211, R21NS093349, R01EB017255, and S10OD016356 from the National Institutes of Health and RG-1507-05243 from the National Multiple Sclerosis Society. The study was also partially supported by the Intramural Research Program of the National Institute of Neurological Disorders and Stroke.

PY - 2017/8/1

Y1 - 2017/8/1

N2 - BACKGROUND AND PURPOSE: MR imaging can be used to measure structural changes in the brains of individuals with multiple sclerosis and is essential for diagnosis, longitudinal monitoring, and therapy evaluation. The North American Imaging in Multiple Sclerosis Cooperative steering committee developed a uniform high-resolution 3T MR imaging protocol relevant to the quantification of cerebral lesions and atrophy and implemented it at 7 sites across the United States. To assess intersite variability in scan data, we imaged a volunteer with relapsing-remitting MS with a scan-rescan at each site. MATERIALS AND METHODS: All imaging was acquired on Siemens scanners (4 Skyra, 2 Tim Trio, and 1 Verio). Expert segmentations were manually obtained for T1-hypointense and T2 (FLAIR) hyperintense lesions. Several automated lesion-detection and whole-brain, cortical, and deep gray matter volumetric pipelines were applied. Statistical analyses were conducted to assess variability across sites, as well as systematic biases in the volumetric measurements that were site-related. RESULTS: Systematic biases due to site differences in expert-traced lesion measurements were significant (P < .01 for both T1 and T2 lesion volumes), with site explaining >90% of the variation (range, 13.0 -16.4 mL in T1 and 15.9 -20.1 mL in T2) in lesion volumes. Site also explained>80% of the variation in most automated volumetric measurements. Output measures clustered according to scanner models, with similar results from the Skyra versus the other 2 units. CONCLUSIONS: Even in multicenter studies with consistent scanner field strength and manufacturer after protocol harmonization, systematic differences can lead to severe biases in volumetric analyses.

AB - BACKGROUND AND PURPOSE: MR imaging can be used to measure structural changes in the brains of individuals with multiple sclerosis and is essential for diagnosis, longitudinal monitoring, and therapy evaluation. The North American Imaging in Multiple Sclerosis Cooperative steering committee developed a uniform high-resolution 3T MR imaging protocol relevant to the quantification of cerebral lesions and atrophy and implemented it at 7 sites across the United States. To assess intersite variability in scan data, we imaged a volunteer with relapsing-remitting MS with a scan-rescan at each site. MATERIALS AND METHODS: All imaging was acquired on Siemens scanners (4 Skyra, 2 Tim Trio, and 1 Verio). Expert segmentations were manually obtained for T1-hypointense and T2 (FLAIR) hyperintense lesions. Several automated lesion-detection and whole-brain, cortical, and deep gray matter volumetric pipelines were applied. Statistical analyses were conducted to assess variability across sites, as well as systematic biases in the volumetric measurements that were site-related. RESULTS: Systematic biases due to site differences in expert-traced lesion measurements were significant (P < .01 for both T1 and T2 lesion volumes), with site explaining >90% of the variation (range, 13.0 -16.4 mL in T1 and 15.9 -20.1 mL in T2) in lesion volumes. Site also explained>80% of the variation in most automated volumetric measurements. Output measures clustered according to scanner models, with similar results from the Skyra versus the other 2 units. CONCLUSIONS: Even in multicenter studies with consistent scanner field strength and manufacturer after protocol harmonization, systematic differences can lead to severe biases in volumetric analyses.

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Volumetric analysis from a harmonized multisite brain MRI study of a single subject with multiple sclerosis

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