Bei Ding
Shanghai Jiao Tong University
9 Papers
Bei Ding is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Medicine & Diffusion MRI. The author has an hindex of 6, co-authored 8 publications.
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Papers
Comparison of cerebral blood volume and permeability in preoperative grading of intracranial glioma using CT perfusion imaging
TL;DR: Perfusion CT provides useful information for glioma grading and might have the potential to significantly impact clinical management and follow-up of cerebral gliomas.
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Dentate nucleus iron deposition is a potential biomarker for tremor‐dominant Parkinson's disease
Naying He,Pei Huang,Huawei Ling,Jason Langley,Chunlei Liu,Bei Ding,Juan Huang,Hongmin Xu,Yong Zhang,Zhongping Zhang,Xiaoping Hu,Shengdi Chen,Fuhua Yan +12 more
TL;DR: The results suggest that TD and AR‐dominant phenotypes of PD can be differentiated on the basis of the susceptibility of the DN, at least at the group level, and indicate that iron load within the DN may make an important contribution to motor phenotypes in PD.
Diffusion Tensor Imaging Correlates with Proton Magnetic Resonance Spectroscopy in Posterior Cingulate Region of Patients with Alzheimer’s Disease
TL;DR: There are different regional and temporal patterns in AD, resulting from gliosis or axonal loss, and combining MRS with DTI could provide valuable information to better understand the AD process.
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Using proton magnetic resonance spectroscopy to identify mild cognitive impairment.
TL;DR: Proton MRS of the PCG using the NAA/Cr ratio as a metabolic marker indicates considerable potential for distinguishing between aMCI and NC subjects.
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Could Iron Accumulation Be an Etiology of the White Matter Change in Alzheimer’s Disease: Using Phase Imaging to Detect White Matter Iron Deposition Based on Diffusion Tensor Imaging
TL;DR: Iron accumulation of Fx and PC regions was significantly positively correlated with FA value, indicating that abnormal iron deposition may be one of the causes of white matter disruption in AD.
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