Distinctive Pattern of Metal Deposition in Neurologic Wilson Disease

Su, Dongning; Zhang, Zhijin; Zhang, Zhe; Zheng, Sujun; Yao, Tingyan; Dong, Yi; Zhu, Wanlin; Wei, Ning; Suo, Yue; Liu, Xinyao; Zhao, Huiqing; Wang, Zhan; Ma, Huizi; Li, Wei; Zhou, Junhong; Lam, Joyce S.T.; Wu, Tao; Dusek, Petr; Stoessl, A. Jon; Wang, Xiaoping; Jing, Jing; Feng, Tao

doi:10.1212/wnl.0000000000209478

Neurology

2024

DOI: 10.1212/wnl.0000000000209478

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Distinctive Pattern of Metal Deposition in Neurologic Wilson Disease

Dongning Su,

Zhijin Zhang,

Zhe Zhang

et al.

Abstract: Background and ObjectivesNoninvasive and accurate biomarkers of neurologic Wilson disease (NWD), a rare inherited disorder, could reduce diagnostic error or delay. Excessive subcortical metal deposition seen on susceptibility imaging has suggested a characteristic pattern in NWD. With submillimeter spatial resolution and increased contrast, 7T susceptibility-weighted imaging (SWI) may enable better visualization of metal deposition in NWD. In this study, we sought to identify a distinctive metal deposition pat… Show more

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Cited by 2 publications

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Letter to Editor: Authors' response to “Respondence of ‘Brain iron deposition and whole-exome sequencing of non-Wilson's disease hypoceruloplasminemia in a family’”

Xu,

Yi,

Wang

2024

Journal of Neurorestoratology

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Letter to Editor: Authors' response to “Respondence of ‘Brain iron deposition and whole-exome sequencing of non-Wilson's disease hypoceruloplasminemia in a family’”

Xu,

Yi,

Wang

2024

Journal of Neurorestoratology

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Brain Magnetic Resonance Imaging in Wilson’s Disease—Significance and Practical Aspects—A Narrative Review

Litwin,

Rędzia-Ogrodnik,

Antos

et al. 2024

Brain Sciences

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Wilson’s disease (WD) is a genetic disorder of copper metabolism with pathological copper accumulation in many organs, resulting in clinical symptoms, mostly hepatic and neuropsychiatric. As copper accumulates in the brain during WD, and almost 50% of WD patients at diagnosis present with neurological symptoms, neuroimaging studies (especially brain magnetic resonance imaging (MRI)) are part of WD diagnosis. The classical sequences (T1, T2, and fluid-attenuated inversion recovery) were used to describe brain MRI; however, with the development of neuroradiology, several papers proposed the use of new MRI sequences and techniques like susceptibility-weighted images, T2*, diffusion MRI, tractography, volumetric assessment and post-processing brain MRI analysis of paramagnetic accumulation—quantitative susceptibility mapping. Based on these neuroradiological data in WD, currently, brain MRI semiquantitative scale and the pathognomonic neuroradiological brain MRI signs in WD were proposed. Further, the volumetric studies and brain iron accumulation MRI analysis suggested brain atrophy and iron accumulation as biomarkers of neurological WD disease severity. All these results highlight the significance of brain MRI examinations in WD. Due to the extreme progress of these studies, based on the available literature, the authors present the current state of knowledge about the significance, practical aspects, and future directions of brain MRI in WD.

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Distinctive Pattern of Metal Deposition in Neurologic Wilson Disease

Cited by 2 publications

References 43 publications

Letter to Editor: Authors' response to “Respondence of ‘Brain iron deposition and whole-exome sequencing of non-Wilson's disease hypoceruloplasminemia in a family’”

Letter to Editor: Authors' response to “Respondence of ‘Brain iron deposition and whole-exome sequencing of non-Wilson's disease hypoceruloplasminemia in a family’”

Brain Magnetic Resonance Imaging in Wilson’s Disease—Significance and Practical Aspects—A Narrative Review

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