Apparent diffusion coefficient measurement using thin-slice diffusion-weighted magnetic resonance imaging: assessment of measurement errors and repeatability
We investigated the measurement error and repeatability of the apparent diffusion coefficient (ADC) obtained using thin-slice imaging. Diffusion-weighted images of an ice-water phantom were acquired using 1.5-T and 3.0-T scanners with 1-, 3-, and 5-mm thickness. ADC maps were generated at b = 0 and...
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| Published in | Radiological physics and technology Vol. 14; no. 2; pp. 203 - 209 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Singapore
Springer Singapore
01.06.2021
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1865-0333 1865-0341 1865-0341 |
| DOI | 10.1007/s12194-021-00616-4 |
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| Abstract | We investigated the measurement error and repeatability of the apparent diffusion coefficient (ADC) obtained using thin-slice imaging. Diffusion-weighted images of an ice-water phantom were acquired using 1.5-T and 3.0-T scanners with 1-, 3-, and 5-mm thickness. ADC maps were generated at
b
= 0 and 1000 mm
2
/s using five consecutive scans. Measurement errors were assessed with accuracy and precision. Repeatability was assessed using the within-subject coefficient of variation. The ADC accuracy of both scanners agreed with the ADC of water at 0 °C. At 1-mm, precisions were 2.9% and 8.4% for the 3.0-T and 1.5-T scanners, respectively. The repeatabilities of 1-mm thickness were 1.3% and 3.4% in the 3.0-T and 1.5-T scanners, respectively. The 3.0-T scanner showed acceptable measurement errors and moderate repeatability compared with Quantitative Imaging Biomarkers Alliance recommendation. A 3.0-T scanner can be used for reliable ADC measurement, even with a 1-mm thickness at a reasonable scan time. |
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| AbstractList | We investigated the measurement error and repeatability of the apparent diffusion coefficient (ADC) obtained using thin-slice imaging. Diffusion-weighted images of an ice-water phantom were acquired using 1.5-T and 3.0-T scanners with 1-, 3-, and 5-mm thickness. ADC maps were generated at b = 0 and 1000 mm2/s using five consecutive scans. Measurement errors were assessed with accuracy and precision. Repeatability was assessed using the within-subject coefficient of variation. The ADC accuracy of both scanners agreed with the ADC of water at 0 °C. At 1-mm, precisions were 2.9% and 8.4% for the 3.0-T and 1.5-T scanners, respectively. The repeatabilities of 1-mm thickness were 1.3% and 3.4% in the 3.0-T and 1.5-T scanners, respectively. The 3.0-T scanner showed acceptable measurement errors and moderate repeatability compared with Quantitative Imaging Biomarkers Alliance recommendation. A 3.0-T scanner can be used for reliable ADC measurement, even with a 1-mm thickness at a reasonable scan time. We investigated the measurement error and repeatability of the apparent diffusion coefficient (ADC) obtained using thin-slice imaging. Diffusion-weighted images of an ice-water phantom were acquired using 1.5-T and 3.0-T scanners with 1-, 3-, and 5-mm thickness. ADC maps were generated at b = 0 and 1000 mm 2 /s using five consecutive scans. Measurement errors were assessed with accuracy and precision. Repeatability was assessed using the within-subject coefficient of variation. The ADC accuracy of both scanners agreed with the ADC of water at 0 °C. At 1-mm, precisions were 2.9% and 8.4% for the 3.0-T and 1.5-T scanners, respectively. The repeatabilities of 1-mm thickness were 1.3% and 3.4% in the 3.0-T and 1.5-T scanners, respectively. The 3.0-T scanner showed acceptable measurement errors and moderate repeatability compared with Quantitative Imaging Biomarkers Alliance recommendation. A 3.0-T scanner can be used for reliable ADC measurement, even with a 1-mm thickness at a reasonable scan time. We investigated the measurement error and repeatability of the apparent diffusion coefficient (ADC) obtained using thin-slice imaging. Diffusion-weighted images of an ice-water phantom were acquired using 1.5-T and 3.0-T scanners with 1-, 3-, and 5-mm thickness. ADC maps were generated at b = 0 and 1000 mm /s using five consecutive scans. Measurement errors were assessed with accuracy and precision. Repeatability was assessed using the within-subject coefficient of variation. The ADC accuracy of both scanners agreed with the ADC of water at 0 °C. At 1-mm, precisions were 2.9% and 8.4% for the 3.0-T and 1.5-T scanners, respectively. The repeatabilities of 1-mm thickness were 1.3% and 3.4% in the 3.0-T and 1.5-T scanners, respectively. The 3.0-T scanner showed acceptable measurement errors and moderate repeatability compared with Quantitative Imaging Biomarkers Alliance recommendation. A 3.0-T scanner can be used for reliable ADC measurement, even with a 1-mm thickness at a reasonable scan time. We investigated the measurement error and repeatability of the apparent diffusion coefficient (ADC) obtained using thin-slice imaging. Diffusion-weighted images of an ice-water phantom were acquired using 1.5-T and 3.0-T scanners with 1-, 3-, and 5-mm thickness. ADC maps were generated at b = 0 and 1000 mm2/s using five consecutive scans. Measurement errors were assessed with accuracy and precision. Repeatability was assessed using the within-subject coefficient of variation. The ADC accuracy of both scanners agreed with the ADC of water at 0 °C. At 1-mm, precisions were 2.9% and 8.4% for the 3.0-T and 1.5-T scanners, respectively. The repeatabilities of 1-mm thickness were 1.3% and 3.4% in the 3.0-T and 1.5-T scanners, respectively. The 3.0-T scanner showed acceptable measurement errors and moderate repeatability compared with Quantitative Imaging Biomarkers Alliance recommendation. A 3.0-T scanner can be used for reliable ADC measurement, even with a 1-mm thickness at a reasonable scan time.We investigated the measurement error and repeatability of the apparent diffusion coefficient (ADC) obtained using thin-slice imaging. Diffusion-weighted images of an ice-water phantom were acquired using 1.5-T and 3.0-T scanners with 1-, 3-, and 5-mm thickness. ADC maps were generated at b = 0 and 1000 mm2/s using five consecutive scans. Measurement errors were assessed with accuracy and precision. Repeatability was assessed using the within-subject coefficient of variation. The ADC accuracy of both scanners agreed with the ADC of water at 0 °C. At 1-mm, precisions were 2.9% and 8.4% for the 3.0-T and 1.5-T scanners, respectively. The repeatabilities of 1-mm thickness were 1.3% and 3.4% in the 3.0-T and 1.5-T scanners, respectively. The 3.0-T scanner showed acceptable measurement errors and moderate repeatability compared with Quantitative Imaging Biomarkers Alliance recommendation. A 3.0-T scanner can be used for reliable ADC measurement, even with a 1-mm thickness at a reasonable scan time. |
| Author | Urikura, Atsushi Hosokawa, Yoichiro Shirata, Kensei Endo, Masahiro Yoshida, Tsukasa Nakaya, Yoshihiro |
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| Cites_doi | 10.1109/TMI.2010.2084583 10.2214/AJR.13.11098 10.1002/jmri.23825 10.1016/j.wneu.2018.10.151 10.1371/journal.pone.0161416 10.1016/S0730-725X(97)00037-4 10.1007/s11547-017-0840-9 10.1088/0031-9155/49/8/003 10.1002/jmri.24397 10.1039/b005319h 10.1007/s00234-018-2036-y 10.1002/nbm.3269 10.1593/neo.81328 10.1016/j.mri.2011.02.009 10.1259/bjr.20160512 10.18383/j.tom.2018.00044 |
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| References | Yoshida, Urikura, Shirata, Nakaya, Terashima, Hosokawa (CR5) 2016; 89 Yoshida, Urikura, Shirata, Nakaya, Endo, Terashima, Hosokawa (CR6) 2018; 123 Paudyal, Konar, Obuchowski, Hatzoglou, Chenevert, Malyarenko, Swanson, LoCastro, Jambawalikar, Liu, Schwartz, Tuttle, Lee, Shukla-Dave (CR9) 2019; 5 Padhani, Liu, Koh, Chenevert, Thoeny, Takahara, Dzik-Jurasz, Ross, Van Cauteren, Collins, Hammoud, Rustin, Taouli, Choyke (CR1) 2009; 11 Kim, Kim, Kim, Seol, Nam, Shin, Lee, Kong (CR3) 2019; 122 Saritas, Lee, Nishimura (CR7) 2011; 30 Lavdas, Miquel, McRobbie, Aboagye (CR10) 2014; 40 Khalil, Hohenhaus, Kunze, Schmidt, Brunecker, Villringer, Merboldt, Frahm, Fiebach (CR11) 2016; 11 CR14 Choi, Cunningham, Aguila, Corrigan, Bogner, Mysiw, Knopp, Schmalbrock (CR12) 2011; 29 Medved, Soylu-Boy, Karademir, Sethi, Yousuf, Karczmar, Oto (CR13) 2014; 203 Malyarenko, Galban, Londy, Meyer, Johnson, Rehemtulla, Ross, Chenevert (CR4) 2013; 37 Holz, Stefan, Antonio (CR15) 2000; 20 Grech-Sollars, Hales, Miyazaki, Raschke, Rodriguez, Wilson, Gill, Banks, Saunders, Clayden, Gwilliam, Barrick, Morgan, Davies, Rossiter, Auer, Grundy, Leach, Howe, Peet, Clark (CR17) 2015; 28 Delakis, Moore, Leach, De Wilde (CR8) 2004; 49 She, Liu, Zeng, Xing, Cao (CR2) 2018; 60 Xing, Papadakis, Huang, Lee, Carpenter, Hall (CR16) 1997; 15 T Yoshida (616_CR6) 2018; 123 EU Saritas (616_CR7) 2011; 30 AR Padhani (616_CR1) 2009; 11 R Paudyal (616_CR9) 2019; 5 S Choi (616_CR12) 2011; 29 M Holz (616_CR15) 2000; 20 616_CR14 M Medved (616_CR13) 2014; 203 I Lavdas (616_CR10) 2014; 40 AA Khalil (616_CR11) 2016; 11 I Delakis (616_CR8) 2004; 49 T Yoshida (616_CR5) 2016; 89 M Grech-Sollars (616_CR17) 2015; 28 D Malyarenko (616_CR4) 2013; 37 D She (616_CR2) 2018; 60 D Xing (616_CR16) 1997; 15 BS Kim (616_CR3) 2019; 122 |
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| Title | Apparent diffusion coefficient measurement using thin-slice diffusion-weighted magnetic resonance imaging: assessment of measurement errors and repeatability |
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