Identifying and verifying Huntington's disease subtypes: Clinical features, neuroimaging, and cytokine changes

Cao, Ling‐Xiao; Yin, Jin‐Hui; Du, Gang; Yang, Qing; Huang, Yue

doi:10.1002/brb3.3469

Brain and Behavior

2024

DOI: 10.1002/brb3.3469

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Identifying and verifying Huntington's disease subtypes: Clinical features, neuroimaging, and cytokine changes

Ling‐Xiao Cao,

Jin‐Hui Yin,

Gang Du

et al.

Abstract: AimsHuntington's disease (HD) is a progressive neurodegenerative disorder with heterogeneous clinical manifestations. Identifying distinct clinical clusters and their relevant biomarkers could elucidate the underlying disease pathophysiology.MethodsFollowing the Enroll‐HD program initiated in 2018.09, we have recruited 104 HD patients (including 21 premanifest) and 31 health controls at Beijing Tiantan Hospital. Principal components analysis and k‐means cluster analysis were performed to determine HD clusters.… Show more

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Cited by 3 publications

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Exploring molecular mechanisms, therapeutic strategies, and clinical manifestations of Huntington’s disease

Shafie,

Ashour,

Anwar

et al. 2024

Arch. Pharm. Res.

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Exploring molecular mechanisms, therapeutic strategies, and clinical manifestations of Huntington’s disease

Shafie,

Ashour,

Anwar

et al. 2024

Arch. Pharm. Res.

View full text Add to dashboard Cite

The role of interferon beta in neurological diseases and its potential therapeutic relevance

Farhangian,

Azarafrouz,

Valian

et al. 2024

European Journal of Pharmacology

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White Matter Microstructure Changes Revealed by Diffusion Kurtosis and Diffusion Tensor Imaging in Mutant Huntingtin Gene Carriers

Yin,

Liu,

et al. 2024

JHD

Self Cite

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Background: Diffusion magnetic resonance imaging (dMRI) has revealed microstructural changes in white matter (WM) in Huntington’s disease (HD). Objective: To compare the validities of different dMRI, i.e., diffusion kurtosis imaging (DKI) and diffusion tensor imaging (DTI) in HD. Methods: 22 mutant huntingtin (mHTT) carriers and 14 controls were enrolled. Clinical assessments and dMRI were conducted. Based on CAG-Age Product (CAP) score, mHTT carriers were categorized into high CAP (hCAP) and medium and low CAP (m& lCAP) groups. Spearman analyses were used to explore correlations between imaging parameters in brain regions and clinical assessments. Receiver operating characteristic (ROC) was used to distinguish mHTT carriers from control, and define the HD patients at advanced stage. Results: Compared to controls, mHTT carriers exhibited WM changes in DKI and DTI. There were 22 more regions showing significant differences in HD detected by MK than FA. Only MK in five brain regions showed significantly difference between any two group, and negatively correlated with the disease burden (r = –0.80 to –0.71). ROC analysis revealed that MK was more sensitive and FA was more specific, while Youden index showed that the integration of FA and MK gave rise to higher authenticities, in distinguishing m& lCAP from controls (Youden Index = 0.786), and discerning different phase of HD (Youden Index = 0.804). Conclusions: Microstructural changes in WM occur at early stage of HD and deteriorate over the disease progression. Integrating DKI and DTI would provide the best accuracies for differentiating early HD from control and identifying advanced HD.

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Identifying and verifying Huntington's disease subtypes: Clinical features, neuroimaging, and cytokine changes

Cited by 3 publications

References 46 publications

Exploring molecular mechanisms, therapeutic strategies, and clinical manifestations of Huntington’s disease

Exploring molecular mechanisms, therapeutic strategies, and clinical manifestations of Huntington’s disease

The role of interferon beta in neurological diseases and its potential therapeutic relevance

White Matter Microstructure Changes Revealed by Diffusion Kurtosis and Diffusion Tensor Imaging in Mutant Huntingtin Gene Carriers

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