Chang-Chih Kuo scite author profile

Chang-Chih Kuo

3Publications

4Citation Statements Received

166Citation Statements Given

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Tzu Chi University

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Sevoflurane and Parkinson’s Disease

Tsai

Tseng

Kuo

et al. 2020

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Background General anesthetics-induced changes of electrical oscillations in the basal ganglia may render the identification of the stimulation targets difficult. The authors hypothesized that while sevoflurane anesthesia entrains coherent lower frequency oscillations, it does not affect the identification of the subthalamic nucleus and clinical outcome. Methods A cohort of 19 patients with Parkinson’s disease with comparable disability underwent placement of electrodes under either sevoflurane general anesthesia (n = 10) or local anesthesia (n = 9). Microelectrode recordings during targeting were compared for neuronal spiking characteristics and oscillatory dynamics. Clinical outcomes were compared at 5-yr follow-up. Results Under sevoflurane anesthesia, subbeta frequency oscillations predominated (general vs. local anesthesia, mean ± SD; delta: 13 ± 7.3% vs. 7.8 ± 4.8%; theta: 8.4 ± 4.1% vs. 3.9 ± 1.6%; alpha: 8.1 ± 4.1% vs. 4.8 ± 1.5%; all P < 0.001). In addition, distinct dorsolateral beta and ventromedial gamma oscillations were detected in the subthalamic nucleus solely in awake surgery (mean ± SD; dorsal vs. ventral beta band power: 20.5 ± 6.6% vs. 15.4 ± 4.3%; P < 0.001). Firing properties of subthalamic neurons did not show significant difference between groups. Clinical outcomes with regard to improvement in motor and psychiatric symptoms and adverse effects were comparable for both groups. Tract numbers of microelectrode recording, active contact coordinates, and stimulation parameters were also equivalent. Conclusions Sevoflurane general anesthesia decreased beta-frequency oscillations by inducing coherent lower frequency oscillations, comparable to the pattern seen in the scalp electroencephalogram. Nevertheless, sevoflurane-induced changes in electrical activity patterns did not reduce electrode placement accuracy and clinical effect. These observations suggest that microelectrode-guided deep brain stimulation under sevoflurane anesthesia is a feasible clinical option. Editor’s Perspective What We Already Know about This Topic What This Article Tells Us That Is New

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Median Nerve Stimulation Facilitates the Identification of Somatotopy of the Subthalamic Nucleus in Parkinson’s Disease Patients under Inhalational Anesthesia

et al. 2021

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Deep brain stimulation (DBS) improves Parkinson’s disease (PD) symptoms by suppressing neuropathological oscillations. These oscillations are also modulated by inhalational anesthetics used during DBS surgery in some patients, influencing electrode placement accuracy. We sought to evaluate a method that could avoid these effects. We recorded subthalamic nucleus (STN) neuronal firings in 11 PD patients undergoing DBS under inhalational anesthesia. Microelectrode recording (MER) during DBS was collected under median nerve stimulation (MNS) delivered at 5, 20, and 90 Hz frequencies and without MNS. We analyzed the spike firing rate and neuronal activity with power spectral density (PSD), and assessed correlations between the neuronal oscillation parameters and clinical motor outcomes. No patient experienced adverse effects during or after DBS surgery. PSD analysis revealed that peripheral 20 Hz MNS produced significant differences in the dorsal and ventral subthalamic nucleus (STN) between the beta band oscillation (16.9 ± 7.0% versus 13.5 ± 4.8%, respectively) and gamma band oscillation (56.0 ± 13.7% versus 66.3 ± 9.4%, respectively) (p < 0.05). Moreover, 20-Hz MNS entrained neural oscillation over the dorsal STN, which correlated positively with motor disabilities. MNS allowed localization of the sensorimotor STN and identified neural characteristics under inhalational anesthesia. This paradigm may help identify an alternative method to facilitate STN identification and DBS surgery under inhalational anesthesia.

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Potential benefits of spinal cord stimulation treatment on quality of life for paralyzed patients with spinal cord injury

Kuo

Tsai²,

Huang³

et al. 2022

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A BSTRACT Spinal cord injury (SCI) is a severe central nervous system injury that can cause sensory or motor dysfunction. Although mortality rates for people with spinal cord injuries have dropped dramatically with advances in medicine, chronic long-term sequelae after SCI persist. The most bothersome problems reported by patients include pain, spasticity, urinary dysfunction, and loss of motor function. Thus, quality of life (QoL) is an essential issue in chronic SCI. Spinal cord stimulation (SCS) applies an adjustable, nondamaging electrical pulse that can reduce uncomfortable comorbidities and improve mobility, thus enhancing the QoL of patients with SCI. This review summarizes pivotal breakthroughs from SCS for individual clinical impairment from SCI. We conclude that careful evaluation of SCS can help improve neuropathic pain, spasms, motor symptoms, and voiding dysfunction in patients with SCI, thus improving QoL.

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Chang-Chih Kuo

Sevoflurane and Parkinson’s Disease

Median Nerve Stimulation Facilitates the Identification of Somatotopy of the Subthalamic Nucleus in Parkinson’s Disease Patients under Inhalational Anesthesia

Potential benefits of spinal cord stimulation treatment on quality of life for paralyzed patients with spinal cord injury

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