Brain abnormalities in bipolar disorder detected by quantitative T1ρ mapping

Abnormal metabolism has been reported in bipolar disorder, however, these studies have been limited to specific regions of the brain. To investigate whole-brain changes potentially associated with these processes, we applied a magnetic resonance imaging technique novel to psychiatric research, quant...

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Bibliographic Details
Published in:Molecular psychiatry 2015-02, Vol.20 (2), p.201-206
Main Authors: Johnson, C P, Follmer, R L, Oguz, I, Warren, L A, Christensen, G E, Fiedorowicz, J G, Magnotta, V A, Wemmie, J A
Format: Article
Language:English
Subjects:
59/57
692/699/476/1333
Adult
Aged
Behavioral Sciences
Biological Psychology
Bipolar disorder
Bipolar Disorder - pathology
Brain
Brain - pathology
Brain Mapping
Brain research
Cerebellum
Diagnosis
Emission analysis
Female
High resolution
Humans
Image Processing, Computer-Assisted
Lithium
Magnetic Resonance Imaging
Magnetic resonance spectroscopy
Male
Medicine
Medicine & Public Health
Metabolism
Metabolites
Middle Aged
Neuroimaging
Neurosciences
NMR
Nuclear magnetic resonance
Nuclear magnetic resonance spectroscopy
original-article
PET imaging
Pharmacotherapy
Physiological aspects
Positron emission tomography
Psychiatric research
Psychiatric Status Rating Scales
Psychiatry
Regional analysis
Resonance
Spatial discrimination
Statistics, Nonparametric
Substantia alba
Young Adult
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Summary:Abnormal metabolism has been reported in bipolar disorder, however, these studies have been limited to specific regions of the brain. To investigate whole-brain changes potentially associated with these processes, we applied a magnetic resonance imaging technique novel to psychiatric research, quantitative mapping of T1 relaxation in the rotating frame (T1ρ). This method is sensitive to proton chemical exchange, which is affected by pH, metabolite concentrations and cellular density with high spatial resolution relative to alternative techniques such as magnetic resonance spectroscopy and positron emission tomography. Study participants included 15 patients with bipolar I disorder in the euthymic state and 25 normal controls balanced for age and gender. T1ρ maps were generated and compared between the bipolar and control groups using voxel-wise and regional analyses. T1ρ values were found to be elevated in the cerebral white matter and cerebellum in the bipolar group. However, volumes of these areas were normal as measured by high-resolution T1- and T2-weighted magnetic resonance imaging. Interestingly, the cerebellar T1ρ abnormalities were normalized in participants receiving lithium treatment. These findings are consistent with metabolic or microstructural abnormalities in bipolar disorder and draw attention to roles of the cerebral white matter and cerebellum. This study highlights the potential utility of high-resolution T1ρ mapping in psychiatric research.
ISSN:1359-4184
1476-5578
DOI:10.1038/mp.2014.157