Longitudinal changes of cortical microstructure in Parkinson's disease assessed with T1 relaxometry

Nürnberger, Lucas; Gracien, René‐Maxime; Hok, Pavel; Hof, Stephanie‐Michelle; Rüb, Udo; Steinmetz, Helmuth; Hilker, Rüdiger; Klein, Johannes; Deichmann, Ralf; Baudrexel, Simon

doi:10.1016/j.nicl.2016.12.025

Cited by 36 publications

(40 citation statements)

References 73 publications

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“…However, accuracy increases when several voxels are combined for analysis, such as in our clusters: Given a total cluster size of 20,139 mm 2 for T 1 and 8016 mm 2 for PD, the expected error levels are much lower than the observed quantitative longitudinal changes. Stability of the method of analysis and of the scanner have been shown in a previous study that assessed longitudinal cortical T 1 changes in Parkinson's disease and healthy control subjects . However, inclusion of a control group would be advantageous for future longitudinal qMRI studies, where independent validation of stability may not be available.…”

Section: Discussionmentioning

confidence: 99%

“…Stability of the method of analysis and of the scanner have been shown in a previous study that assessed longitudinal cortical T 1 changes in Parkinson's disease and healthy control subjects. 35 However, inclusion of a control group would be advantageous for future longitudinal qMRI studies, where independent validation of stability may not be available.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Longitudinal quantitative MRI assessment of cortical damage in multiple sclerosis: A pilot study

Gracien

Reitz

Hof

et al. 2017

Magnetic Resonance Imaging

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Longitudinal quantitative MRI assessment of cortical damage in multiple sclerosis: A pilot study

Gracien

Reitz

Hof

et al. 2017

Magnetic Resonance Imaging

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“…Quantitative mapping of MR longitudinal relaxation time, referred to as T 1 relaxometry, is not only important for the determination of adequate MR sequence parameters, but it also offers tremendous perspectives for structural and pathological tissue characterization in different organs. 1,2 The T 1 relaxation time, or spin-lattice relaxation time, is indeed tissue and field specific, and a growing amount of work supports the use of T 1 mapping as an in vivo marker of tissue microstructure in clinical and neuroscientific research, probing for instance disease-related tissue changes [3][4][5] or developmental plasticity and ageing. [6][7][8] Over the years, numerous MR techniques have been proposed and used to estimate T 1 values.…”

Section: Introductionmentioning

confidence: 99%

Regional T₁ mapping of the whole cervical spinal cord using an optimized MP2RAGE sequence

et al. 2019

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While T1 measurements present multiple challenges (robustness, acquisition time), the recently proposed MP2RAGE sequence (magnetization‐prepared two rapid acquisition gradient echoes) has opened new perspectives to characterize tissue microstructure changes occurring in a pathological or developmental context. Extensively used for brain studies, it was herein adapted to investigate the cervical spinal cord (SC) at 3 T. By integrating Bloch equations, the MP2RAGE sequence parameters were chosen to optimize SC gray matter/white matter (GM/WM) T1 contrast with sub‐millimetric resolution, a scan time less than 10 min and a reliable T1 determination with minimal B1+ variation effect, within a range of values compatible with different pathologies and surrounding structures. The residual B1+ effect on T1 values was corrected using a look‐up‐table approach and B1+ mapping. The accuracy of B1+‐corrected T1 measurements was assessed on a phantom with respect to conventional inversion recovery. In vivo MP2RAGE acquisitions were performed on five young (28.8 ± 4.3 years old) and five elderly (60.2 ± 2.9 years old) volunteers and analyzed using a template‐based approach. Phantom experiments led to high agreements between inversion‐recovery spin‐echo and MP2RAGE‐based T1 values (R2 = 0.997). In vivo T1 values for cervical WM, anterior GM (aGM), posterior sensory tracts (PSTs) and lateral motor tracts (LMTs) were 917 ± 29 s, 934 ± 33 ms, 920 ± 37 ms and 877 ± 35 ms, respectively, with all subjects and cervical levels considered. Significant differences were observed between aGM and LMTs, and between LMTs and PSTs, in agreement with the literature. Repeated T1 measurements demonstrated high reproducibility of the MP2RAGE in the SC (variation coefficient < 5% in all regions of interest). Finally, preliminary assessment of age‐related SC tissue microstructure variation additionally showed evidence of SC atrophy and slight trends of T1 decrease with age in all regions. Overall, this study shows that fast, robust and accurate sub‐millimetric resolution T1 mapping in the cervical SC using the MP2RAGE sequence is possible, paving the way for future multi‐centric and longitudinal clinical studies investigating the pathological cord.

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“…We analyzed neuronal oscillatory activity known to be relevant to the pathophysiology of PD. Results: After ultrasound stimulation, mean power intensity in the beta band (13)(14)(15)(16)(17)(18)(19)(20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30) Hz) significantly decreased, and the phase-amplitude coupling strength between the beta and high gamma (55-100 Hz) bands and between the beta and ripple (100-200 Hz) bands also became significantly weaker. Parkinson's disease (PD) is a neurodegenerative disease that places a heavy burden on patients and their families 1,2 ; therefore, finding more effective treatments for PD is important.…”

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confidence: 99%

Clinical and Neuropathological Features Associated With Loss of RAB39B

Gao

Martínez‐Cerdeño

Hogan³

et al. 2020

Movement Disorders

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AB S T R A C T : Background: Pathogenic variantsin the small GTPase Ras Analogue in Brain 39b (RAB39B) have been linked to the development of earlyonset parkinsonism. The study was aimed at delineating the clinical and neuropathological features associated with a previously reported pathogenic variant in RAB39B (c.503C>A p.T168K) and testing for dysregulation of RAB39B in idiopathic PD. Methods: Clinical details of a male individual hemizygous for the T168K variant were collected by systematic review of medical records. Neuropathological studies of fixed brain tissue were performed and steady-state RAB39B levels were determined by western blot analysis. Results: Neuropathological examination showed extensive dopaminergic neuron loss, widespread Lewy pathology, and iron accumulation in the substantia nigra. Additional pathology was observed in the hippocampus and thalamus. Western blot analysis demonstrated that the T168K variant results in loss of RAB39B. In individuals with idiopathic PD (n = 10, 6 male/4 female), steady-state RAB39B was significantly reduced in the prefrontal cortex and substantia nigra. Conclusions: T168K RAB39B is unstable in vivo and associated with dopaminergic neuron loss and Lewy pathology. Dysregulation of RAB39B in the prefrontal cortex and substantia nigra of individuals with idiopathic PD potentially implicates the protein more broadly in the pathological mechanisms underlying PD and related Lewy body disorders.

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Longitudinal changes of cortical microstructure in Parkinson's disease assessed with T1 relaxometry

Cited by 36 publications

References 73 publications

Longitudinal quantitative MRI assessment of cortical damage in multiple sclerosis: A pilot study

Longitudinal quantitative MRI assessment of cortical damage in multiple sclerosis: A pilot study

Regional T₁ mapping of the whole cervical spinal cord using an optimized MP2RAGE sequence

Clinical and Neuropathological Features Associated With Loss of RAB39B

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Longitudinal changes of cortical microstructure in Parkinson's disease assessed with T1 relaxometry

Cited by 36 publications

References 73 publications

Longitudinal quantitative MRI assessment of cortical damage in multiple sclerosis: A pilot study

Longitudinal quantitative MRI assessment of cortical damage in multiple sclerosis: A pilot study

Regional T1 mapping of the whole cervical spinal cord using an optimized MP2RAGE sequence

Clinical and Neuropathological Features Associated With Loss of RAB39B

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Regional T₁ mapping of the whole cervical spinal cord using an optimized MP2RAGE sequence