Correlation between brain volume change and T2 relaxation time induced by dehydration and rehydration: Implications for monitoring atrophy in clinical studies

Nakamura, Kunio; Brown, Robert A.; Araújo, David; Narayanan, Sridar; Arnold, Douglas L.

doi:10.1016/j.nicl.2014.08.014

Cited by 76 publications

(73 citation statements)

References 32 publications

(42 reference statements)

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“…; Nakamura et al. ). Another difference with these studies is that the MRI datasets used in our study were acquired using a clinical MRI protocol with 3D sequences.…”

Section: Discussionmentioning

confidence: 97%

Quantifying brain volumes for Multiple Sclerosis patients follow‐up in clinical practice – comparison of 1.5 and 3 Tesla magnetic resonance imaging

et al. 2016

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IntroductionThere is emerging evidence that brain atrophy is a part of the pathophysiology of Multiple Sclerosis (MS) and correlates with several clinical outcomes of the disease, both physical and cognitive. Consequently, brain atrophy is becoming an important parameter in patients' follow‐up. Since in clinical practice both 1.5Tesla (T) and 3T magnetic resonance imaging (MRI) systems are used for MS patients follow‐up, questions arise regarding compatibility and a possible need for standardization.MethodsTherefore, in this study 18 MS patients were scanned on the same day on a 1.5T and a 3T scanner. For each scanner, a 3D T1 and a 3D FLAIR were acquired. As no atrophy is expected within 1 day, these datasets can be used to evaluate the median percentage error of the brain volume measurement for gray matter (GM) volume and parenchymal volume (PV) between 1.5T and 3T scanners. The results are obtained with MSmetrix, which is developed especially for use in the MS clinical care path, and compared to Siena (FSL), a widely used software for research purposes.ResultsThe MSmetrix median percentage error of the brain volume measurement between a 1.5T and a 3T scanner is 0.52% for GM and 0.35% for PV. For Siena this error equals 2.99%. When data of the same scanner are compared, the error is in the order of 0.06–0.08% for both MSmetrix and Siena.Conclusions MSmetrix appears robust on both the 1.5T and 3T systems and the measurement error becomes an order of magnitude higher between scanners with different field strength.

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“…; Nakamura et al. ). Another difference with these studies is that the MRI datasets used in our study were acquired using a clinical MRI protocol with 3D sequences.…”

Section: Discussionmentioning

confidence: 97%

Quantifying brain volumes for Multiple Sclerosis patients follow‐up in clinical practice – comparison of 1.5 and 3 Tesla magnetic resonance imaging

et al. 2016

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“…Such small changes, which are on the order of those expected from normal aging over 1 year (0.1-0.3% (Fisher et al, 2008;Fotenos et al, 2005;Scahill et al, 2003)), may result from physiological fluctuations, such as changes in brain hydration, for example. Studies that experimentally manipulated hydration status via overnight thirsting and subsequent drinking of water showed hydration-related changes in brain volume as large as 0.7% (Duning et al, 2005;Nakamura et al, 2014a). As such, the brain volume change may include significant physiological effects in addition to the chronic irreversible changes associated with neurodegeneration, and this may confound the measurement and interpretation of longitudinal brain volume changes.…”

Section: Introductionmentioning

confidence: 99%

Diurnal fluctuations in brain volume: Statistical analyses of MRI from large populations

et al. 2015

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“…measures of memory) would provide key clarification of these possibilities. Controlling for potential acute influences on brain volume, such as dehydration or excessive exercise will also be important . The current study did not assess these factors or other acute indices of dehydration (e.g.…”

Section: Discussionmentioning

confidence: 96%

Mammillary body volume abnormalities in anorexia nervosa

Khalsa

Kumar

Patel

et al. 2016

Intl J Eating Disorders

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Objective Several case reports of Wernicke’s Encephalopathy in AN due to thiamine deficiency have described mammillary body (MB) injury, but systematic studies are lacking. Here we evaluated whether underweight and weight-restored individuals with AN demonstrate evidence of abnormal MB morphology, via retrospective examination of a previously collected data set. Method Using standard-resolution T1-weighted magnetic resonance imaging at 3 Tesla, we measured MB volume and fornix area in a cross-sectional study of 12 underweight AN, 20 weight-restored AN, and 30 age- and sex-matched healthy comparisons. Due to the small size of these structures, a manual tracing approach was necessary to obtain accurate measurements. A blinded expert rater manually traced MB and fornix structures in each participant. Results We observed significantly smaller MB volumes in the underweight AN group. However, the weight-restored AN group exhibited significantly larger MB volumes. The right fornix was smaller in the weight-restored AN group only. Discussion These findings suggest the possibility that MB volume and fornix area could represent potential biomarkers of acute weight loss and restoration, respectively. Verification of this finding through prospective studies evaluating MB morphology, cognition, and thiamine levels longitudinally across individual illness trajectories might be warranted.

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Correlation between brain volume change and T2 relaxation time induced by dehydration and rehydration: Implications for monitoring atrophy in clinical studies

Cited by 76 publications

References 32 publications

Quantifying brain volumes for Multiple Sclerosis patients follow‐up in clinical practice – comparison of 1.5 and 3 Tesla magnetic resonance imaging

Quantifying brain volumes for Multiple Sclerosis patients follow‐up in clinical practice – comparison of 1.5 and 3 Tesla magnetic resonance imaging

Diurnal fluctuations in brain volume: Statistical analyses of MRI from large populations

Mammillary body volume abnormalities in anorexia nervosa

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