Subtle changes in Purkinje cell firing in Purkinje cell-specific Dyt1 ΔGAG knock-in mice by Hong Xing, Pallavi Girdhar, Yuning Liu, Fumiaki Yokoi, David E. Vaillancourt, Yuqing Li

“…Our results also contribute to the ongoing research of how basal ganglia and cerebellum interact to influence motor control in normal states and movement disorders.…”
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Disease-Associated Dopamine Receptor D2 Variants Exhibit Functional Consequences Depending on Different Heterotrimeric G-Protein Subunit Combinations by Nele Niebrügge, Olga Trovato, Roman Praschberger, Andreas Lieb

“…We were able to confirm the reported gain-of-function phenotype by Rodriguez-Contreras et al. and extend it by the use of the most abundant heterotrimeric G-protein subunits, Gα_oA and Gα_i1, β₁ and β₂, and γ₃ and γ₇, in mouse and human basal ganglia. <b>Conclusions:</b> Although our results indicate that the interaction of the two variants with the most highly expressed heterotrimeric G-protein complex subunit combinations also results in a gain-of-function phenotype, they also clearly demonstrate that the phenotype can be significantly altered, dependent on heterotrimeric G-protein complex expression.…”
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Corticospinal Tract Wiring and Brain Lesion Characteristics in Unilateral Cerebral Palsy: Determinants of Upper Limb Motor and Sensory Function by Cristina Simon-Martinez, Ellen Jaspers, Lisa Mailleux, Els Ortibus, Katrijn Klingels, Nicole Wenderoth, Hilde Feys

“…However, multiple regression analyses showed that motor function was predicted by the CST wiring (more preserved in individuals with contralateral CST (p<0.01)), lesion extent, and damage to the basal ganglia and thalamus. Sensory function was predicted by the combination of a large and later lesion and an ipsilateral or bilateral CST wiring, which led to increased sensory deficits (p<0.05). …”
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Large-Scale Neuronal Network Dysfunction in Diabetic Retinopathy by Xin Huang, Yan Tong, Chen-Xing Qi, Han-Dong Dan, Qin-Qin Deng, Yin Shen

“…Compared to the HC group, DR patients showed significant decreased intranetwork FCs within the basal ganglia network (BGN), visual network (VN), ventral default mode network (vDMN), right executive control network (rECN), salience network (SN), left executive control network (lECN), auditory network (AN), and dorsal default mode network (dDMN). …”
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Deep brain stimulation-entrained gamma oscillations in chronic home recordings in Parkinson's disease by Maria Olaru, Amelia Hahn, Maria Shcherbakova, Simon Little, Wolf-Julian Neumann, Reza Abbasi-Asl, Philip A. Starr

“…However, the incidence of entrainment during chronic therapeutic stimulation, its relationship to the basal ganglia stimulation site, and its effect on dyskinesia remain unknown. …”
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The Evaluation of Tau Deposition with [18F]PI-2620 by Using a Semiquantitative Method in Cognitively Normal Subjects and Patients with Mild Cognitive Impairment and Alzheimer’s Dis... by Attapon Jantarato, Sira Vachatimanont, Natphimol Boonkawin, Sukanya Yaset, Anchisa Kunawudhi, Chetsadaporn Promteangtrong, Jintana Assanasen, Nithi Mahanonda, Chanisa Chotipanich

“…The remaining observed regions, including the striatum, basal ganglia, thalamus, and white matter, showed a low SUVr across all groups with no statistically significant differences. …”
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Associations between CAG repeat size, brain and spinal cord volume loss, and motor symptoms in spinocerebellar ataxia type 3: a cohort study by Zhi-Xian Ye, Xuan-Yu Chen, Meng-Cheng Li, Xin-Yuan Chen, Yu-Sen Qiu, Ru-Ying Yuan, Zhi-Li Chen, Min-Ting Lin, Jian-Ping Hu, Ying Fu, Wan-Jin Chen, Ning Wang, Shi-Rui Gan, on behalf of the OSCCAR Investigators

“…SCA3 patients evolved along a stage-independent decline that began in the cerebellum, progressed to spinal cord, brainstem, thalami, and basal ganglia, and extensive subcortex. Expanded CAG repeat size was associated with right cerebellar lobule IV volume (r = − 0.423, P < 0.001) and cervical spinal cord area (r = − 0.405, P < 0.001), and higher ICARS (r = 0.416, P < 0.001). …”
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Brain anatomy differences in Chinese children who stutter: a preliminary study by Dan Ma, Dan Ma, Lingling Wang, Lingling Wang, Sai Liu, Sai Liu, XinMao Ma, XinMao Ma, Fenglin Jia, Fenglin Jia, Yimin Hua, Yimin Hua, Yi Liao, Yi Liao, Haibo Qu, Haibo Qu

“…Moreover, the gray matter volume of the right cerebellum and right temporal gyrus is related to the severity score of stuttering.ConclusionThe present study proposes that the neural mechanisms underlying DS are intricately linked to the cortico-basal ganglia-thalamo-cortical loop and the dorsal language pathway. …”
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Corticostriatal glutamate‐mediated dynamic therapeutic efficacy of electroacupuncture in a parkinsonian rat model by Xinxin Jiang, Min Sun, Yitong Yan, Yanhua Wang, Xinyu Fan, Jing Wei, Ke Wang, Peirong Liang, Zirui Wang, Jihan Wang, Xiaomin Wang, Jun Jia

“…Abstract Background Motor impairments are the defining cardinal features of Parkinson's disease (PD), resulting from malfunction of the cortico‐basal ganglia circuit. Clinical data have demonstrated that electroacupuncture (EA) stimulation may benefit motor symptoms in PD without adverse effects. …”
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Middle-age cerebral small vessel disease and cognitive function in later life: a population-based prospective cohort studyResearch in context by Ali Tanweer Siddiquee, Yoon Ho Hwang, Soriul Kim, Sung Jin Shin, Ji Soo Lee, June Christoph Kang, Min-Hee Lee, Hyeon Jin Kim, Seung Ku Lee, Chol Shin

“…By location, cSVD were mostly found in the frontal lobe followed by basal ganglia area of the brain. None of the cognitive test scores, except Trail Making Test–A, were significantly different between the cSVD groups at baseline. …”
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Attentional dysfunction arises from right frontocentral and occipital network connectivity in Parkinson's disease by Isobel Timothea French, Kuo-Hsuan Chang, Wei-Kuang Liang, Wen-Sheng Chang, Yen-Shi Lo, Yi-Ru Wang, Mei-Ling Cheng, Norden E. Huang, Hsiu-Chuan Wu, Siew-Na Lim, Chiung-Mei Chen, Chi-Hung Juan

“…In Parkinson's disease (PD), the attentional network is impaired due to dysfunctional fronto-subcortical circuits connected to the basal ganglia, disrupting response selection and inhibition. …”
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