Diffusion Kurtosis Imaging Detects Microstructural Alterations in Brain of alpha-Synuclein Overexpressing Transgenic Mouse Model of Parkinson’s Disease: A Pilot Study

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Authors

KHAIRNAR Amit Suresh LATTA Peter DRAŽANOVÁ Eva RUDÁ Jana SZABÓ Nikoletta ARAB Anas HUTTER-PAIER Birgit HAVAS Daniel WINDISCH Manfred ŠULCOVÁ Alexandra STARČUK Zenon REKTOROVÁ Irena

Year of publication 2015
Type Article in Periodical
Magazine / Source Neurotoxicity research
MU Faculty or unit

Central European Institute of Technology

Citation
Web http://link.springer.com/article/10.1007%2Fs12640-015-9537-9
Doi http://dx.doi.org/10.1007/s12640-015-9537-9
Field Neurology, neurosurgery, neurosciences
Keywords Diffusion kurtosis imaging; a-Synuclein; TNWT-61; Parkinson’s disease; Transgenic mice; TBSS
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Description Evidence suggests that accumulation and aggregation of alpha-synuclein contribute to the pathogenesis of Parkinson's disease (PD). The aim of this study was to evaluate whether diffusion kurtosis imaging (DKI) will provide a sensitive tool for differentiating between alpha-synuclein-overexpressing transgenic mouse model of PD (TNWT-61) and wild-type (WT) littermates. This experiment was designed as a proof-of-concept study and forms a part of a complex protocol and ongoing translational research. Nine-month-old TNWT-61 mice and age-matched WT littermates underwent behavioral tests to monitor motor impairment and MRI scanning using 9.4 Tesla system in vivo. Tract-based spatial statistics (TBSS) and the DKI protocol were used to compare the whole brain white matter of TNWT-61 and WT mice. In addition, region of interest (ROI) analysis was performed in gray matter regions such as substantia nigra, striatum, hippocampus, sensorimotor cortex, and thalamus known to show higher accumulation of alpha-synuclein. For the ROI analysis, both DKI (6 b-values) protocol and conventional (2 b-values) diffusion tensor imaging (cDTI) protocol were used. TNWT-61 mice showed significant impairment of motor coordination. With the DKI protocol, mean, axial, and radial kurtosis were found to be significantly elevated, whereas mean and radial diffusivity were decreased in the TNWT-61 group compared to that in the WT controls with both TBSS and ROI analysis. With the cDTI protocol, the ROI analysis showed decrease in all diffusivity parameters in TNWT-61 mice. The current study provides evidence that DKI by providing both kurtosis and diffusivity parameters gives unique information that is complementary to cDTI for in vivo detection of pathological changes that underlie PD-like symptomatology in TNWT-61 mouse model of PD. This result is a crucial step in search for a candidate diagnostic biomarker with translational potential and relevance for human studies.
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