1.Can Postural Instability Respond to Galvanic Vestibular Stimulation in Patients with Parkinson's Disease?.
Hiroshi KATAOKA ; Yohei OKADA ; Takao KIRIYAMA ; Yorihiro KITA ; Junji NAKAMURA ; Shu MORIOKA ; Koji SHOMOTO ; Satoshi UENO
Journal of Movement Disorders 2016;9(1):40-43
OBJECTIVE: Galvanic vestibular stimulation (GVS) activates the vestibular afferents, and these changes in vestibular input exert a strong influence on the subject's posture or standing balance. In patients with Parkinson's disease (PD), vestibular dysfunction might contribute to postural instability and gait disorders. METHODS: Current intensity was increased to 0.7 mA, and the current was applied to the patients for 20 minutes. To perform a sham stimulation, the current intensity was increased as described and then decreased to 0 mA over the course of 10 seconds. The patient's status was recorded continuously for 20 minutes with the patient in the supine position. RESULTS: Three out of 5 patients diagnosed with PD with postural instability and/or abnormal axial posture showed a reduction in postural instability after GVS. The score for item 12 of the revised Unified Parkinson's Disease Rating Scale part 3 was decreased in these patients. CONCLUSIONS: The mechanism of postural instability is complex and not completely understood. In 2 out of the 5 patients, postural instability was not changed in response to GVS. Nonetheless, the GVS-induced change in postural instability for 3 patients in our study suggests that GVS might be a therapeutic option for postural instability.
Gait
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Humans
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Parkinson Disease*
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Posture
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Supine Position
2.Increased Signal in the Superior Cerebellar Peduncle of Patients with Progressive Supranuclear Palsy
Hiroshi KATAOKA ; Yukako NISHIMORI ; Takao KIRIYAMA ; Hitoki NANAURA ; Tesseki IZUMI ; Nobuyuki EURA ; Naoki IWASA ; Kazuma SUGIE
Journal of Movement Disorders 2019;12(3):166-171
OBJECTIVE: The provisional diagnosis of progressive supranuclear palsy (PSP) depends on a combination of typical clinical features and specific MRI findings, such as atrophy of the tegmentum in the midbrain. Atrophy of the superior cerebellar peduncle (SCP) distinguishes PSP from other types of parkinsonism. Histological factors affect the conventional fluid-attenuated inversion recovery (FLAIR) signals, such as the extent of neuronal loss and gliosis. METHODS: We investigated patients with PSP to verify the percentage of patients with various PSP phenotypes presenting a high signal intensity in the SCP. Three interviewers, who were not informed about the clinical data, visually inspected the presence or absence of a high signal intensity in the SCP on the FLAIR images. We measured the pixel value in the SCP of each patient. Clinical characteristics were evaluated using the Mann-Whitney test, followed by the χ² test. RESULTS: Ten of the 51 patients with PSP showed a high signal intensity in the SCP on FLAIR MRI. Higher pixel values were observed within the SCP of patients with a high signal intensity in the SCP than in patients without a high signal intensity (p < 0.001). The sensitivity and specificity of the high signal intensity in the SCP of patients with PSP was 19.6% and 100%, respectively. This finding was more frequently observed in patients with PSP with Richardson's syndrome (PSP-RS) (25.7%) than other phenotypes (6.2%). CONCLUSION: The high signal intensity in the SCP on FLAIR MRI might be an effective diagnostic tool for PSP-RS.
Atrophy
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Diagnosis
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Gliosis
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Humans
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Magnetic Resonance Imaging
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Mesencephalon
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Neurodegenerative Diseases
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Neurons
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Parkinsonian Disorders
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Phenotype
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Sensitivity and Specificity
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Supranuclear Palsy, Progressive