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???org.dspace.app.webui.jsptag.ItemTag.dcfield??? | Value | Language |
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dc.contributor.advisor | 趙福杉 | |
dc.contributor.author | Chung-Hsuan Yang | en |
dc.contributor.author | 楊仲軒 | zh_TW |
dc.date.accessioned | 2021-06-15T00:28:37Z | - |
dc.date.available | 2010-02-03 | |
dc.date.copyright | 2009-02-03 | |
dc.date.issued | 2009 | |
dc.date.submitted | 2009-01-20 | |
dc.identifier.citation | [1] Rodgers A, Walker N, Schug S, et al., Reduction of postoperative mortality and morbidity with epidural or spinal anaesthesia: result from an overview of randomised trials. British Medical Journal 2000; 321: 1493-1497.
[2] Doss NW, Ipe J, Crimi T, et al., Continuous thoracic epidural anesthesia with 0.2% ropivacaine versus general anesthesia for perioperative management of modified radical mastectomy. Anesthesia and Analgesia 2001; 92: 1552-1557. [3] Gilbert HC, Complications and controversies in regional anesthesia. ASA Refresher Courses in Anesthesiology 2003; 31: 45-64. [4] Ayad S, Demian Y, Narouze SN, et al., Subarachnoid catheter placement after wet tap for analgesia in labor: influence on the risk of headache in obstetric patients. Regional Anesthesia and Pain Medicine 2003; 28: 512-515. [5] Arcand G, Girard F, McCormack M, et al., Bilateral sixth cranial nerve palsy after unintentional dural puncture. Canadian Journal of Anesthesia 2004; 51: 821-823. [6] Kasai T, Yaegashi K, Hirose M, et al., Spinal cord injury in a child caused by an accidental dural puncture with a single-shot thoracic epidural needle. Anesthesia and Analgesia 2003; 96: 65-67. [7] Dogliotte AM, A new method of block anesthesia: segmental peridural spinal anesthesia. American Journal of Surgery 1933; 20: 107-118. [8] Macdonald R, A dural puncture rate of 1 % is unacceptable in epidural practice. Controversies in Obstetric Anaesthesia. International Journal of Obstetric Anesthesia 1994; 3: 50-51. [9] Norris M, Grieco WM, Borkowski M, et al., Complications of labor analgesia: epidural versus combined spinal epidural techniques. Anesthesia and Analgesia 1994; 79: 529-537. [10] Wong CA, Spinal and epidural anesthesia. McGraw-Hill 2007. [11] 金華高,臨床麻醉學。國立編譯館,1975。 [12] Sicard JA, Forestier J, Méthode radiographique d'exploration de la cavité épidurale par le lipiodol. Neurol 1921; 37: 1264–1266. [13] Gutierrez A, Anesthesia metamerica peridural. Revista de Cirurgia de Buenos Aires 1932; 12: 665-685. [14] Macintosh RR, Extradural space indicator. Anaesthesia 1950; 5: 98-99. [15] Baraca A, Identification of the peridural space by a running infusion drip. British Journal of Anaesthesia 1972; 44: 122. [16] Brunner C, Ikle FA, Beitrag zur peridural anasthesie. Schweizerische Medizinische Wochenschrift 1949; 79: 799-801. [17] Dawkins M, The identification of the epidural space. Anaesthesia 1963; 18: 66-77. [18] Lin BC, Chen KB, Chang CS, et al., ‘Membrane in syringe’ technique that allows identification of the epidural space using saline and air can avoid injection of air into the epidural space. Acta Anaesthesiologica Sinica 2002; 40: 55-60. [19] Jacob S, Tierney E, A dual technique for identification of the epidural space. Anaesthesia 1997; 52: 141-143. [20] Lechner TJM, van-Wijk MGF, Maas AJJ, Clinical results with a new acoustic device to identify the epidural space. Anaesthesia 2002; 57: 768-772. [21] Lechner TJM, Maarten G, van-Wijk MGF, et al., Clinical results with the acoustic puncture assist device, a new acoustic device to identify the epidural space. Anesthesia and analgesia 2003; 96: 1183-1187. [22] Grau T, Leipold RW, Conradi R, et al., Ultrasound control for presumed difficult epidural puncture. Acta Anaesthesiologica Scandinavica 2001; 45: 766-771. [23] Cork RC, Kryc JJ, Vaughan RW, Ultrasonic localization of the lumbar epidural space. Anesthesiology 1980; 52: 513-516. [24] Cochran S, Corner GA, Kirk KJ, et al., Design and validation of an ultrasound array optimized for epidural needle guidance. IEEE Ultrasonics Symposium 2007; 2255-2258. [25] Wantman A, Hancox N, Howell PR, Techniques for identifying the epidural space: a survey of practice amongst anaesthetists in the UK. Anaesthesia 2006; 61: 370-375. [26] Blamey PJ, Cowan RS, Alcantara JI, et al., Speech perception using combinations of auditory, visual, and tactile information. Journal of Rehabilitation Revalidation and Development 1989; 26: 15-24. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/41713 | - |
dc.description.abstract | 硬脊膜外腔麻醉手術是一種常見的麻醉手術,而該麻醉手術最常出現的意外是不小心穿破硬脊膜。為了避免這類意外,正確定位硬脊膜外腔是手術成敗的關鍵。傳統的阻力消失法是最常見的硬脊膜外腔定位技術,但實際執行時卻需要麻醉醫師良好的觸覺感知能力及經驗。近年來有許多新技術被提出來,這些技術提供了額外的視覺或聽覺的輔助訊號以精確鑑定硬脊膜外腔之位置,然而與傳統的方式相比較之後,卻因為太過於複雜而沒有被廣泛接受。
本研究設計了一個新穎的硬脊膜外腔之定位裝置,藉由在一般硬脊膜外腔定位針筒的末端裝上一個壓阻式力量感測器,可以同時產生聲音和視覺的輔助訊號。本裝置具有體積小、成本低的優點,且使用上與傳統阻力消失法方式一致,較容易為麻醉科醫師所接受。此外,由於力量感測器位於針筒外部,與其他將感測器裝於針筒內部的方法比較起來更可降低與患者體液直接接觸而造成感染的風險。 | zh_TW |
dc.description.abstract | Epidural anesthesia is a widely accepted procedure. Since accidental dural puncture is the common accident, identifying epidural space during the procedure is the most important thing. Traditional technique, namely loss of resistance, is commonly used to detect the epidural space. However, this technique requires well tactile perception of an experienced anesthetist. Several devices were proposed to improve the technique by supplying additional visual or acoustic signals while the epidural space is arrived. Yet these devices are seldom used due to their complexity.
By using a piezo-resistive force sensor placed at the bottom of the epidural syringe, a novel auxiliary device that can generate visual as well as acoustic signals was proposed. The device is small, low cost and mimic to the traditional loss of resistance technique. Furthermore, the force sensor will not direct contact with the subjects and hence greatly reduce the risk of infection. | en |
dc.description.provenance | Made available in DSpace on 2021-06-15T00:28:37Z (GMT). No. of bitstreams: 1 ntu-98-R96548006-1.pdf: 1757132 bytes, checksum: 242d4be39942e0d2a7d925f9cc23dc3b (MD5) Previous issue date: 2009 | en |
dc.description.tableofcontents | 誌謝 i
目錄 ii 圖目錄 iv 表目錄 v 中文摘要 vi 英文摘要 vii 第一章序論 1.1 研究背景與動機 1 1.2 硬脊膜外腔解剖與生理 2 1.3 硬脊膜外腔定位技術 2 1.4 系統設計之目標 4 第二章 研究方法與系統設計 2.1 系統架構 6 2.2 力量感測器 7 2.3 信號調控單元 10 2.3.1 電導電壓換能器 11 2.3.2 濾波器 12 2.3.3 電壓-頻率轉換器 13 2.4 資料擷取單元 14 2.5 使用者介面 15 2.6 輸入輸出特性量測方法 17 第三章 研究結果 3.1 裝置外觀 18 3.2 輸入輸出特性量測 19 3.3 硬脊膜外腔定位模擬測試 20 第四章 討論 4.1 總結 27 4.1硬脊膜外腔輔助定位裝置特性討論 27 4.2與其他硬脊膜外腔定位方式之比較 28 參考文獻 30 | |
dc.language.iso | zh-TW | |
dc.title | 不同組織間定位輔助裝置之研製—以硬脊膜外腔定位為例 | zh_TW |
dc.title | Device for the identification of different tissue types –on the example of identifying epidural space | en |
dc.type | Thesis | |
dc.date.schoolyear | 97-1 | |
dc.description.degree | 碩士 | |
dc.contributor.coadvisor | 吳啟誠 | |
dc.contributor.oralexamcommittee | 郭德盛,黃基礎,謝建興 | |
dc.subject.keyword | 硬脊膜外腔麻醉,阻力消失法,壓阻式力量感測器, | zh_TW |
dc.subject.keyword | epidural anesthesia,loss of resistance technique,piezo-resistive force sensor, | en |
dc.relation.page | 33 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2009-01-20 | |
dc.contributor.author-college | 工學院 | zh_TW |
dc.contributor.author-dept | 醫學工程學研究所 | zh_TW |
Appears in Collections: | 醫學工程學研究所 |
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ntu-98-1.pdf Restricted Access | 1.72 MB | Adobe PDF |
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