• Title/Summary/Keyword: Transcranial Magnetic Stimulation

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The development of a high efficient transcranial magnetic stimulation adopted real time-charging-discharging circuit

  • Kim, Whi-Young;Park, Sung-Joon
    • 전기전자학회논문지
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    • 제14권2호
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    • pp.9-15
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    • 2010
  • In this study, we have been proposed the new type of a transcranial magnetic stimulation adopted a variable voltage capacitor with Cockcroft-Walton circuit and constant-frequency current resonant half-bridge inverter. This a transcranial magnetic stimulation has some merits compared with the conventional one. First, it doesn't require the high voltage transformer. And second, it has less switching losses, compact size and capability in adjusting the transcranial magnetic stimulation output energy precisely. In this paper, we have performed the output characteristics of a transcranial magnetic stimulation system which is well known as magnetic stimulation. The tested results are described as a function of pulse repetition rate and switching numbers of the half-bridge inverter.

Changes in Poly ADP Ribose Polymerase Immune Response Cells of Cerebral Ischaemia Induced Rat by Transcranial Magnetic Stimulation of Alternating Current Approach

  • Koo, Hyun-Mo;Kim, Whi-Young
    • Journal of Magnetics
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    • 제19권4호
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    • pp.357-364
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    • 2014
  • This study examined effect of a transcranial magnetic stimulation device with a commercial-frequency approach on the neuronal cell death caused ischemia. For a simple transcranial magnetic stimulation device, the experiment was conducted on an ischemia induced rat by transcranial magnetic stimulation of a commercial-frequency approach, controlling the firing angle using a Triac power device. The transcranial magnetic stimulation device was controlled at a voltage of 220 V 60 Hz and the trigger of the Triac gate was varied from $45^{\circ}$ up to $135^{\circ}$. Cerebral ischemia was caused by ligating the common carotid artery of male SD rats and reperfusion was performed again to blood after 5 minutes. Protein Expression was examined by Western blotting and the immune response cells reacting to the antibodies of Poly ADP ribose polymerase in the cerebral nerve cells. As a result, for the immune response cells of Poly ADP ribose polymerase related to necrosis, the transcranial magnetic stimulation device suppressed necrosis and had a protective effect on nerve cells. The effect was greatest within 12 hours after ischemia. Therefore, it is believed that in the case of brain damage caused by ischemia, the function of brain cells can be restored and the impairment can be improved by the application of transcranial magnetic stimulation.

3 Stage 2 Switch Application for Transcranial Magnetic Stimulation

  • Ha, Dong-Ho;Kim, Whi-Young;Choi, Sun-Seob
    • Journal of Magnetics
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    • 제16권3호
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    • pp.234-239
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    • 2011
  • Transcranial magnetic stimulation utilizes the method of controlling applied time and changing pulse by output pulse through power density control for diagnosis purposes. Transcranial magnetic stimulation can also be used in cases where diagnosis and treatment are difficult since output pulse shape can be changed. As intensity, pulse range, and pulse shape of the stimulation pulse must be changed according to lesion, the existing sine wave-shaped stimulation treatment pulse poses limitations in achieving various treatments and diagnosis. This study actualized a new method of transcranial magnetic stimulation that applies a 3 Stage 2 Switch( power semiconductor 2EA) for controlling pulse repetition rate by achieving numerous switching control of stimulation coil. Intensity, pulse range, and pulse shape of output can be freely changed to transform various treatment pulses in order to overcome limitations in stimulation treatment presented by the previous sine wave pulse shape. The method of freely changing pulse range by using 3 Stage 2 Switch discharge method is proposed. Pulse shape, composed of various pulse ranges, was created by grafting PFN (Pulsed Forming Network) through AVR AT80S8535 one-chip microprocessor technology, and application in transcranial magnetic stimulation was achieved to study the output characteristics of stimulation treatment pulse according to delaying time of the trigger signal applied in section switch.

TreatmentWD Pulse Application for Transcranial Magnetic Stimulation

  • Ha, Dong-Ho;Kim, Jun-Il;Lee, Sun-Min;Bo, Gak-Hwang;Kim, Whi-Young;Choi, Sun-Seob
    • Journal of Magnetics
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    • 제17권1호
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    • pp.36-41
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    • 2012
  • The transcranial magnetic stimulation recharges the energy storing condenser, and sends the stored energy in the condenser to the pulse shaping circuit, which then delivers it to the stimulating coil. The previous types of transcranial magnetic stimulation required a booster transformer, secondary rectifier for high voltages and a condenser for smooth type. The energy storing condenser is recharged by switching the high-voltage direct current power. Loss occurs due to the resistance in the recharging circuit, and the single-pulse output energy in the transcranial magnetic stimulation can be changed because the recharging voltage cannot be adjusted. In this study a booster transformer, which decreases the volume and weight, was not used. Instead, a current resonance inverter was applied to cut down the switching loss. A transcranial magnetic stimulation, which can simultaneously alter the recharging voltage and pulse repeats, was used to examine the output characteristics.

우울증에서 비침습적 두뇌 자극 치료 : 경두개 자기자극과 경두개 직류자극 (Therapeutic Application of Transcranial Magnetic Stimulation and Transcranial Direct Current Stimulation in Depression)

  • 채정호
    • 신경정신의학
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    • 제57권2호
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    • pp.119-132
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    • 2018
  • Despite the fact that pharmacotherapy depressive disorders have proven efficacy, a substantial number of patients are resistant to conventional management. As neuroscientific research about pathophysiology of depression have accumulated, repeated transcranial magnetic stimulation (rTMS) and transcranial direct current stimulation (tDCS) have emerged as an important mechanism-based treatment modality. This overview provides a review of therapeutic application of rTMS and tDCS in patients with depression. The clinical and basic studies of rTMS and tDCS in depression were reviewed and integrated using a literature review and interview with experts. rTMS is a noninvasive procedure of a localized pulsed magnetic field to the surface of the head to cause a depolarization of neurons in the brain cortex. tDCS has a mechanism of modulating cortical excitability in a polarity-specific manner without eliciting action potentials. rTMS and tDCS seem promising for treating depression. Although therapeutic parameters and further technical improvement remain to be systematically investigated, rTMS and tDCS would be a safe and effective intervention to treat depression.

Transcranial magnetic stimulation parameters as neurophysiological biomarkers in Alzheimer's disease

  • Lee, Juyoun;Lee, Ae Young
    • Annals of Clinical Neurophysiology
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    • 제23권1호
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    • pp.7-16
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    • 2021
  • Transcranial magnetic stimulation (TMS) is a safe and noninvasive tool for investigating the cortical excitability of the human brain and the neurophysiological functions of GABAergic, glutamatergic, and cholinergic neural circuits. Neurophysiological biomarkers based on TMS parameters can provide information on the pathophysiology of dementia, and be used to diagnose Alzheimer's disease and differentiate different types of dementia. This review introduces the basic principles of TMS, TMS devices and stimulating paradigms, several neurophysiological measurements, and the clinical implications of TMS for Alzheimer's disease.

반복 경두개 자기 자극이 급성기 뇌졸중 환자의 팔 기능과 일상생활 수행능력에 미치는 영향 (Effects of Repetitive Transcranial Magnetic Stimulation on Upper Extremity Function and Activities of Daily Living in Acute Stroke Patients)

  • 원정희;김경미;장문영
    • 대한통합의학회지
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    • 제11권4호
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    • pp.167-175
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    • 2023
  • Purpose : The study aim was to apply high-frequency repetitive transcranial magnetic stimulation to and investigate the effects on upper extremity function and activities of daily living. Methods : This study was conducted at Hospital D in U City from April to June 2018. Thirty-two patients diagnosed with stroke according to prior research criteria were selected and divided into two groups. Sixteen people in the experimental group received high-frequency repetitive transcranial magnetic stimulation and traditional occupational therapy, and sixteen people in the received sham stimulation and traditional occupational therapy. Both groups received 20 minutes of transcranial magnetic stimulation and 30 minutes of traditional occupational therapy per session, five times per week, for a total of 10 sessions over two weeks. Upper extremity functional evaluation, MFT and activities of daily living (Korean Version of the Modified Barthel Index, K-MBI) were conducted before and after the intervention, and an independent t test was used to confirm the effects of the intervention. Results : No statistically significant difference between the aforementioned groups' MFT and K-MBI scores was noted before the intervention. After the intervention, however, a statistically significant difference was found in K-MBI scores (p<.001). Additionally, after the intervention, a significant difference between the groups' MFT scores was found (p<.05). Conclusion : The results of this study showed that the combination of high-frequency repetitive transcranial magnetic stimulation and occupational therapy was effective in recovering upper extremity function and activities of daily living in patients diagnosed with acute stroke.

The Characteristics on the Change of Cerebral Cortex using Alternating Current Power Application for Transcranial Magnetic Stimulation

  • Kim, Whi-Young
    • Journal of Magnetics
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    • 제19권2호
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    • pp.197-204
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    • 2014
  • A transcranial magnetic stimulation device is a complicated appliance that employs a switching power device designed for discharging and charging a capacitor to more than 1 kV. For a simple transcranial magnetic stimulation device, this study used commercial power and controlled the firing angle using a Triac power device. AC 220V 60 Hz, the power device was used directly on the tanscranial magnetic stimulation device. The power supply device does not require a current limiting resistance in the rectifying device, energy storage capacitor or discharge circuit. To control the output power of the tanscranial magnetic stimulation device, the pulse repetition rate was regulated at 60 Hz. The change trigger of the Triac gate could be varied from $45^{\circ}$ to $135^{\circ}$. The AVR 182 (Zero Cross Detector) Chip and AVR one chip microprocessor could control the gate signal of the Triac precisely. The stimulation frequency of 50 Hz could be implemented when the initial charging voltage Vi was 1,000 V. The amplitude, pulse duration, frequency stimulation, train duration and power consumption was 0.1-2.2T, $250{\sim}300{\mu}s$, 0.1-60 Hz, 1-100 Sec and < 1 kW, respectively. Based on the results of this study, TMS can be an effective method of treating dysfunction and improving function of brain cells in brain damage caused by ischemia.

구형파 변조된 경두개 자기자극을 이용한 쥐의 감각피질 자극실험 (Mouse Somatosensory Cortex Stimulation Using Pulse Modulated Transcranial Magnetic Stimulation)

  • 선석규;서태윤;허여울;조제원;권영우
    • 한국전자파학회논문지
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    • 제27권5호
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    • pp.482-485
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    • 2016
  • 본 논문에서는 쥐 뇌의 감각 피질을 자극하기 위해 변조신호를 이용하여 경두개 자기자극(TMS) 동물실험을 수행하였다. 제안한 TMS 시스템은 인버터, 변압기, 커패시터, 가변 인덕터, 자극 코일로 구성되어 쥐 뇌의 감각피질에 약 1.5 mT의 자기장이 생기도록 시스템을 설계하였다. 자극 신호는 구형파 변조되었으며, 반송 주파수는 85~91 kHz의 범위로 변화시키며, 자극 효과를 관찰하였다. 자극 결과 반송 주파수가 89 kHz 미만일 때에는 자극의 효과를 볼 수 없었고, 반송 주파수가 89 kHz 이상일 때에는 압력 자극에 반응하는 역치 값이 낮아지는 효과를 볼 수 있었다.

Effects of Motor Imagery Practice in Conjunction with Repetitive Transcranial Magnetic Stimulation on Stroke Patients

  • Ji, Sang-Goo;Cha, Hyun-Gyu;Kim, Ki-Jong;Kim, Myoung-Kwon
    • Journal of Magnetics
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    • 제19권2호
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    • pp.181-184
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    • 2014
  • The aim of the present study was to examine whether motor imagery (MI) practice in conjunction with repetitive transcranial magnetic stimulation (rTMS) applied to stroke patients could improve theirgait ability. This study was conducted with 29 subjects diagnosed with hemiparesis due to stroke.The experimental group consisted of 15 members who were performed MI practice in conjunction with repetitive transcranial magnetic stimulation, while the control group consisted of 14 members who were performed MI practice and sham therapy. Both groups received traditional physical therapy for 30 minutes a day, 5 days a week, for 6 weeks; additionally, they received mental practice for 15 minutes. The experimental group was instructed to perform rTMS and the control group was instructed to apply sham stimulation for 15 minutes. Gait analysis was performed using a three-dimensional motion capture system, which is a real-time tracking device that delivers data via infrared reflective markers using six cameras. Results showed that the velocity, step length, and cadence of both groups were significantly improved after the practice (p<0.05). Significant differences were found between the groups in velocity and cadence (p<0.05) as well as with respect to the change rate (p<0.05) after practice. The results showed that MI practice in conjunction with rTMS is more effective in improving gait ability than MI practice alone.