前庭誘發肌性電位檢查之波形產生器

施雨萱; Yu-Hsuan Shih

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/96484

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	趙福杉	zh_TW
dc.contributor.advisor	Fu-Shan Jaw	en
dc.contributor.author	施雨萱	zh_TW
dc.contributor.author	Yu-Hsuan Shih	en
dc.date.accessioned	2025-02-19T16:10:49Z	-
dc.date.available	2025-02-20	-
dc.date.copyright	2025-02-19	-
dc.date.issued	2025	-
dc.date.submitted	2025-01-21	-
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Ear and hearing, 31(2), 283–288. [14]Iwasaki, S., Smulders, Y. E., Burgess, A. M., McGarvie, L. A., Macdougall, H. G., Halmagyi, G. M., & Curthoys, I. S. (2008). Ocular vestibular evoked myogenic potentials to bone conducted vibration of the midline forehead at Fz in healthy subjects. Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology, 119(9), 2135–2147. [15]Uchino, Y., Sato, H., Sasaki, M., Imagawa, M., Ikegami, H., Isu, N., & Graf, W. (1997). Sacculocollic reflex arcs in cats. Journal of neurophysiology, 77(6), 3003–3012. [16]Curthoys I. S. (2012). The interpretation of clinical tests of peripheral vestibular function. The Laryngoscope, 122(6), 1342–1352. [17]Curthoys, I. S., Manzari, L., Smulders, Y. E., & Burgess, A. M. (2009). A review of the scientific basis and practical application of a new test of utricular function--ocular vestibular-evoked myogenic potentials to bone-conducted vibration. Acta otorhinolaryngologica Italica : organo ufficiale della Societa italiana di otorinolaringologia e chirurgia cervico-facciale, 29(4), 179–186. [18]翁偉傑（2009）。前庭誘發肌性電位刺激及記錄系統之整合及研製〔碩士論文，國立臺灣大學醫學工程學研究所〕。〈https://doi.org/10.6342/NTU.2009.02345〉 [19]王守仁（2012）。短迴旋音與機械振動刺激衍生之眼性及頸性前庭誘發肌性電位〔博士論文，國立臺灣大學醫學工程學研究所〕。〈https://doi.org/10.6342/NTU.2012.11011〉 [20]林奎佑（2021）。振動、加速度、及共振對於耳石反射系的影響〔博士論文，國立臺灣大學醫學工程學研究所〕。〈https://doi.org/10.6342/NTU202100339〉 [21]陳子揚（2019）。頭部假體模型之加速度變化分析〔碩士論文，國立臺灣大學醫學工程學研究所〕。〈https://doi.org/10.6342/NTU201901000〉 [22]張碩庭（2024）。可攜式功率放大器應用於前庭誘發肌電位檢查﹝碩士論文，國立臺灣大學醫學工程學研究所﹞。〈https://doi.org/10.6342/NTU202400077〉 [23]Curthoys, I. S., Vulovic, V., Burgess, A. M., Sokolic, L., & Goonetilleke, S. C. (2016). The response of guinea pig primary utricular and saccular irregular neurons to bone-conducted vibration (BCV) and air-conducted sound (ACS). Hearing research, 331, 131–143. [24]Wu, C. H., & Murofushi, T. (1999). The effect of click repetition rate on vestibular evoked myogenic potential. Acta oto-laryngologica, 119(1), 29–32. [25]Lin, K. Y., Yeh, T. H., Jaw, F. S., & Young, Y. H. (2017). Role of the Frontal Sinus in Mediating Ocular Vestibular-Evoked Myogenic Potentials by Bone Vibration Stimuli Applied to the Forehead. Audiology & neuro-otology, 22(4-5), 272–281. [26]Oka, M., Ichijo, K., Koda, K., Kamogashira, T., Kinoshita, M., Igarashi, K., Kawahara, T., Takashima, I., Yamasoba, T., & Fujimoto, C. (2023). Preceding Balance Disorders Affect Vestibular Function in Persistent Postural-Perceptual Dizziness. Journal of clinical medicine, 12(7), 2589. [27]Tietze, U., & Schenk, C. (1991). Electronic circuits: Design and applications. Springer-Verlag.	-
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/96484	-
dc.description.abstract	由於維持身體平衡對於個人生活及日常活動是很關鍵的一部分，因此眩暈隨之產生的平衡障礙將嚴重影響患者的日常生活及心理狀態，同時也將帶給醫療保健系統巨大負擔。眩暈的症狀在臨床上極為常見，全球約有20 % ~ 30 %的人曾受到眩暈的影響，而其成因大多源自於周邊性的內耳前庭神經疾病。前庭系統為人體維持平衡的重要系統，其中負責感知頭部線性加速度的耳石器官可經由前庭誘發肌性電位檢查（Vestibular Evoked Myogenic Potential, VEMP）進行篩檢。近年來，因考量到人口老化速度急劇上升且眩暈症在老年人口發生率較高，因此為降低老年患者進行VEMP檢查的困難度，本研究期望能改善現今VEMP檢查僅能於醫院實行的缺點，提升VEMP檢查的便利性，使的VEMP檢查能讓醫師執行於偏鄉地區，甚至整合成為居家醫療的項目之一。本研究將著重於設計一波形產生器，以應用於利用骨導振動進行VEMP檢查時用以驅動振動器產生振動刺激之輸入訊號，此裝置所選用之元件及各部分電路配置皆以低功耗、體積小、重量輕為主要設計考量，如此所達成之可攜性及便利性將有利於醫院外環境所使用。另外，為達到足夠的電流以驅動振動器產生振動刺激，本研究所設計之波形產生器將連接至之前已開發完成之功率放大器，整體裝置可由單顆鋰電池進行供電，靜態電流僅2.75 mA且同時具有體積小、重量輕的特點，未來經過整合後，除了可提升攜帶之便利性外，同時亦將使得醫師能更加簡單的操作，進而有效改善VEMP檢查受限於醫療院所之環境的缺點。	zh_TW
dc.description.abstract	Since maintaining body balance is a critical part of personal life and daily activities, the balance disorder caused by vertigo will seriously affect patients’ daily life and psychological state, and will also place a huge burden on the health care system. Vertigo is a extremely common clinical symptom, about 20% to 30% of people worldwide have been affected by vertigo, and most of its causes originate from peripheral inner ear vestibular nerve disease. The vestibular system is an important system for maintaining human body balance, and the otolith organ in the vestibular system, which is responsible for sensing linear acceleration of the head can be screened through the Vestibular Evoked Myogenic Potential(VEMP) examination. In recent years, taking into account the rapid increase in the aging of the population and the higher incidence of vertigo in the elderly population, in order to reduce the difficulty of performing VEMP examination for elderly patients, this study hopes to improve the shortcomings of current VEMP examination that can only be performed in hospitals, improve the convenience of VEMP examination and enable doctors to perform it in rural areas, and even integrate it into one of the medical home projects. This study will focus on the design of a pattern generator for the input signal used to drive the vibrator to generate vibration stimulation during VEMP examination using bone conducted vibration. The components used and the circuit configuration of this device were more about low power consumption, small size, and light weight. The portability and convenience achieved in this way will be beneficial to apply this device in environments outside the hospital. In addition, in order to supply sufficient current to drive the vibrator, the pattern generator designed will be connected to the power amplifier developed previously. The entire device can be powered by a single lithium battery, with the quiescent current of only 2.75 mA, and it also has the characteristic of small size and light weight. After integration, it will not only improve the portability, but also make it easier for doctors to operate it, and thereby effectively overcome the difficulty of VEMP examination that has to be restricted in the environment of medical institutions.	en
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dc.description.tableofcontents	誌謝………………………………………………………………………………………i 中文摘要………………………………….……………………………………………..ii Abstract…………………………………………………………………………….…iii 圖次…………………………………………………………………………………..viii 表次…………………………………………………………………………………….xi 第一章、緒論…………………………………………………………………………...1 1.1 研究背景………………………………………………………………………1 1.2 研究動機及目的………………………………………………………………5 第二章、研究方法與系統設計………………………………………………………...7 2.1 系統架構………………………………………………………………………7 2.2 設計考量………………………………………………………………………9 2.2.1 VEMP刺激訊號之頻率選擇…………………………………………..9 2.2.2 VEMP刺激頻率之選擇……………………………………………….10 2.2.3 VEMP刺激訊號振幅大小之考量…………………………………….10 2.2.4 穩壓電路之設計考量………………………………………………...11 2.3 元件與儀器之選擇…………………………………………………………..12 2.3.1 運算放大器…………………………………………………………...12 2.3.2 D型正反器（D Flip-Flop）…………………………………………...12 2.3.3 計時器（Timer）……………………………………………………..12 2.3.4 數位邏輯元件………………………………………………………...13 2.3.5 類比開關（Analog Switch）………………………………………...13 2.3.6 參考電壓源（Voltage Reference）…………………………………..13 第三章、研究結果…………………………………………………………………….15 3.1 波形產生器之電路設計……………………………………………………..15 3.1.1 正弦波振盪器………………………………………………………...17 3.1.2 非反向施密特觸發器………………………………………………...18 3.1.3 D型正反器……………………………………………………………19 3.1.4 計時器………………………………………………………………...20 3.1.5 AND閘……….………………………………………………………..22 3.1.6 類比開關……………………………………………………………...22 3.2 穩壓電路之電路設計………………………………………………………..23 3.2.1 正負電壓電路設計…………………………………………………...23 3.2.2 穩壓電路實際量測結果……………………………………………...25 3.3 波形產生器與功率放大器進行整合………………………………………..26 3.3.1 波形產生器之輸出規格……………………………………………...26 3.3.2 波形產生器輸出端加上緩衝電路…………………………………...27 3.3.3 整合至功率放大器後之實際輸出結果……………………………...27 3.4 裝置之外觀………………………………………………………………….29 第四章、討論………………………………………………………………………….31 4.1 選擇適當運算放大器之重要性……………………………………………..31 4.2 同步電路之必要性…………………………………………………………..31 4.3 設定非穩態振盪電路電容起始電壓之重要性……….…………………….32 4.4 增加非穩態振盪電路輸出脈波寬度不一致之容忍度……………………..35 4.5 非反向施密特觸發器輸出端電阻對靜態電流之影響……………………..37 4.6 VEMP檢查之應用…………………………………………………………...37 4.7 未來研究方向………………………………………………………………..37 第五章、結論………………………………………………………………………….39 參考文獻……………………………………………………………………………….40	-
dc.language.iso	zh_TW	-
dc.subject	前庭誘發肌性電位檢查	zh_TW
dc.subject	低功耗電路	zh_TW
dc.subject	骨導振動	zh_TW
dc.subject	波形產生器	zh_TW
dc.subject	振盪器	zh_TW
dc.subject	multivibrator	en
dc.subject	Vestibular Evoked Myogenic Potential (VEMP)	en
dc.subject	pattern generator	en
dc.subject	bone conducted vibration	en
dc.subject	low power consumption circuit	en
dc.title	前庭誘發肌性電位檢查之波形產生器	zh_TW
dc.title	Pattern Generator for Vestibular Evoked Myogenic Potential Examination	en
dc.type	Thesis	-
dc.date.schoolyear	113-1	-
dc.description.degree	碩士	-
dc.contributor.coadvisor	林奎佑	zh_TW
dc.contributor.coadvisor	Kuei-You Lin	en
dc.contributor.oralexamcommittee	曾乙立;高瑀絜;陳芝萍	zh_TW
dc.contributor.oralexamcommittee	Yi-Li Tseng;Yu-Chieh Kao;Chih-Ping Chen	en
dc.subject.keyword	骨導振動,低功耗電路,振盪器,前庭誘發肌性電位檢查,波形產生器,	zh_TW
dc.subject.keyword	bone conducted vibration,low power consumption circuit,multivibrator,Vestibular Evoked Myogenic Potential (VEMP),pattern generator,	en
dc.relation.page	43	-
dc.identifier.doi	10.6342/NTU202500228	-
dc.rights.note	未授權	-
dc.date.accepted	2025-01-21	-
dc.contributor.author-college	工學院	-
dc.contributor.author-dept	醫學工程學系	-
dc.date.embargo-lift	N/A	-
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