脈衝電刺激調變於小鼠出血性中風模型的效能評估

Hung-Tse Chen; 陳宏澤

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/56491

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	林啟萬(Chii-Wann Lin)
dc.contributor.author	Hung-Tse Chen	en
dc.contributor.author	陳宏澤	zh_TW
dc.date.accessioned	2021-06-16T05:31:13Z	-
dc.date.available	2020-01-01
dc.date.copyright	2014-08-21
dc.date.issued	2014
dc.date.submitted	2014-08-13
dc.identifier.citation	[1] A. S. Go, D. Mozaffarian, V. L. Roger, E. J. Benjamin, J. D. Berry, M. J. Blaha, et al., 'Heart disease and stroke statistics--2014 update: a report from the American Heart Association,' Circulation, vol. 129, pp. e28-e292, Jan 21 2014. [2] M. Writing Group, D. Lloyd-Jones, R. J. Adams, T. M. Brown, M. Carnethon, S. Dai, et al., 'Heart disease and stroke statistics--2010 update: a report from the American Heart Association,' Circulation, vol. 121, pp. e46-e215, Feb 23 2010. [3] J. Broderick, S. Connolly, E. Feldmann, D. Hanley, C. Kase, D. Krieger, et al., 'Guidelines for the management of spontaneous intracerebral hemorrhage in adults: 2007 update: a guideline from the American Heart Association/American Stroke Association Stroke Council, High Blood Pressure Research Council, and the Quality of Care and Outcomes in Research Interdisciplinary Working Group,' Circulation, vol. 116, pp. e391-413, Oct 16 2007. [4] A. I. Qureshi, A. D. Mendelow, and D. F. Hanley, 'Intracerebral haemorrhage,' Lancet, vol. 373, pp. 1632-44, May 9 2009. [5] S. Sacco, C. Marini, D. Toni, L. Olivieri, and A. Carolei, 'Incidence and 10-year survival of intracerebral hemorrhage in a population-based registry,' Stroke, vol. 40, pp. 394-9, Feb 2009. [6] C. L. MacLellan, R. Paquette, and F. Colbourne, 'A critical appraisal of experimental intracerebral hemorrhage research,' J Cereb Blood Flow Metab, vol. 32, pp. 612-27, Apr 2012. [7] J. P. Broderick, T. G. Brott, J. E. Duldner, T. Tomsick, and G. Huster, 'Volume of intracerebral hemorrhage. A powerful and easy-to-use predictor of 30-day mortality,' Stroke, vol. 24, pp. 987-93, Jul 1993. [8] S. A. Mayer and F. Rincon, 'Treatment of intracerebral haemorrhage,' Lancet Neurol, vol. 4, pp. 662-72, Oct 2005. [9] F. Rincon and S. A. Mayer, 'Clinical review: Critical care management of spontaneous intracerebral hemorrhage,' Crit Care, vol. 12, p. 237, 2008. [10] S. Holmin and T. Mathiesen, 'Intracerebral administration of interleukin-1beta and induction of inflammation, apoptosis, and vasogenic edema,' J Neurosurg, vol. 92, pp. 108-20, Jan 2000. [11] S. M. Davis, J. Broderick, M. Hennerici, N. C. Brun, M. N. Diringer, S. A. Mayer, et al., 'Hematoma growth is a determinant of mortality and poor outcome after intracerebral hemorrhage,' Neurology, vol. 66, pp. 1175-81, Apr 25 2006. [12] R. R. Bhasin, G. Xi, Y. Hua, R. F. Keep, and J. T. Hoff, 'Experimental intracerebral hemorrhage: effect of lysed erythrocytes on brain edema and blood-brain barrier permeability,' Acta Neurochir Suppl, vol. 81, pp. 249-51, 2002. [13] R. F. Keep, J. Xiang, S. R. Ennis, A. Andjelkovic, Y. Hua, G. Xi, et al., 'Blood-brain barrier function in intracerebral hemorrhage,' Acta Neurochir Suppl, vol. 105, pp. 73-7, 2008. [14] P. M. Meyers, H. C. Schumacher, E. S. Connolly, Jr., E. J. Heyer, W. A. Gray, and R. T. Higashida, 'Current status of endovascular stroke treatment,' Circulation, vol. 123, pp. 2591-601, Jun 7 2011. [15] T. Baba, M. Kameda, T. Yasuhara, T. Morimoto, A. Kondo, T. Shingo, et al., 'Electrical Stimulation of the Cerebral Cortex Exerts Antiapoptotic, Angiogenic, and Anti-Inflammatory Effects in Ischemic Stroke Rats Through Phosphoinositide 3-Kinase/Akt Signaling Pathway,' Stroke, vol. 40, pp. e598-e605, November 1, 2009 2009. [16] D. A. Nowak, C. Grefkes, M. Ameli, and G. R. Fink, 'Interhemispheric Competition After Stroke: Brain Stimulation to Enhance Recovery of Function of the Affected Hand,' Neurorehabilitation and Neural Repair, vol. 23, pp. 641-656, September 1, 2009 2009. [17] M. Sluijter and G. Racz, 'Technical Aspects of Radiofrequency,' Pain Practice, vol. 2, pp. 195-200, 2002. [18] C. E. Sluijter ME, Rittman WB III, van Kleef M., 'The effects of pulsed radiofrequency field applied to the dorsal root ganglion—A preliminary report,' Pain Clinic, vol. 11, pp. 109-117, 1998. [19] R. Slappendel, B. J. P. Crul, G. J. J. Braak, J. W. M. Geurts, L. H. D. J. Booij, V. F. Voerman, et al., 'The efficacy of radiofrequency lesioning of the cervical spinal dorsal root ganglion in a double blinded randomized study: no difference between 40°C and 67°C treatments,' Pain, vol. 73, pp. 159-163, 1997. [20] R. Munglani, 'The longer term effect of pulsed radiofrequency for neuropathic pain,' Pain, vol. 80, pp. 437-439, 1999. [21] J. Van Zundert, S. Brabant, E. Van de Kelft, A. Vercruyssen, and J.-P. Van Buyten, 'Pulsed radiofrequency treatment of the Gasserian ganglion in patients with idiopathic trigeminal neuralgia,' Pain, vol. 104, pp. 449-452, 2003. [22] J. Van Zundert, I. E. Lame, A. De Louw, J. Jansen, F. Kessels, J. Patijn, et al., 'Percutaneous Pulsed Radiofrequency Treatment of the Cervical Dorsal Root Ganglion in the Treatment of Chronic Cervical Pain Syndromes: A Clinical Audit,' Neuromudulation: Technology at the Neural Interface, vol. 6, pp. 6-14, 2003. [23] A. Cahana, J. Van Zundert, L. Macrea, M. Van Kleef, and M. Sluijter, 'Pulsed Radiofrequency: Current Clinical and Biological Literature Available,' Pain Medicine, vol. 7, pp. 411-423, 2006. [24] Y. Higuchi, B. S. J. Nashold, M. Sluijter, E. Cosman, and R. D. Pearlstein, 'Exposure of the Dorsal Root Ganglion in Rats to Pulsed Radiofrequency Currents Activates Dorsal Horn Lamina I and II Neurons,' Neurosurgery, vol. 50, pp. 850-856, 2002. [25] A. Cahana, L. Vutskits, and D. Muller, 'Acute differential modulation of synaptic transmission and cell survival during exposure to pulsed and continuous radiofrequency energy,' The Journal of Pain, vol. 4, pp. 197-202, 2003. [26] M. Protasoni, M. Reguzzoni, S. Sangiorgi, C. Reverberi, E. Borsani, L. F. Rodella, et al., 'Pulsed radiofrequency effects on the lumbar ganglion of the rat dorsal root: a morphological light and transmission electron microscopy study at acute stage,' European Spine Journal, vol. 18, pp. 473-478, 2009. [27] R. Vallejo, R. M. Benyamin, and L. Aliaga, 'Radiofrequency vs. pulse radiofrequency: The end of the controversy,' Techniques in Regional Anesthesia and Pain Management, vol. 14, pp. 128-132, 2010. [28] R. S. Burnham, S. Holitski, and I. Dinu, 'A Prospective Outcome Study on the Effects of Facet Joint Radiofrequency Denervation on Pain, Analgesic Intake, Disability, Satisfaction, Cost, and Employment,' Archives of Physical Medicine and Rehabilitation, vol. 90, pp. 201-205, 2009. [29] K. Van Boxem, M. Van Eerd, T. Brinkhuize, J. Patijn, M. Van Kleef, and J. Van Zundert, 'Radiofrequency and Pulsed Radiofrequency Treatment of Chronic Pain Syndromes: The Available Evidence,' Pain Practice, vol. 8, pp. 385-393, 2008. [30] C. L. MacLellan, G. Silasi, C. C. Poon, C. L. Edmundson, R. Buist, J. Peeling, et al., 'Intracerebral hemorrhage models in rat: comparing collagenase to blood infusion,' J Cereb Blood Flow Metab, vol. 28, pp. 516-25, Mar 2008. [31] J. Chen, Y. Li, L. Wang, Z. Zhang, D. Lu, M. Lu, et al., 'Therapeutic Benefit of Intravenous Administration of Bone Marrow Stromal Cells After Cerebral Ischemia in Rats,' Stroke, vol. 32, pp. 1005-1011, April 1, 2001 2001. [32] H. Monai, M. Inoue, H. Miyakawa, and T. Aonishi, 'Low-frequency dielectric dispersion of brain tissue due to electrically long neurites,' Physical Review E, vol. 86, p. 061911, 12/26/ 2012. [33] Y. Gong, Y. Hua, R. F. Keep, J. T. Hoff, and G. Xi, 'Intracerebral hemorrhage: effects of aging on brain edema and neurological deficits,' Stroke, vol. 35, pp. 2571-5, Nov 2004. [34] M. F. Anderson, F. Blomstrand, C. Blomstrand, P. S. Eriksson, and M. Nilsson, 'Astrocytes and stroke: networking for survival?,' Neurochem Res, vol. 28, pp. 293-305, Feb 2003. [35] R. J. Ilmoniemi, J. Virtanen, J. Ruohonen, J. Karhu, H. J. Aronen, R. N tanen, et al., 'Neuronal responses to magnetic stimulation reveal cortical reactivity and connectivity,' NeuroReport, vol. 8, pp. 3537-3540, 1997. [36] E. J. Tehovnik, A. S. Tolias, F. Sultan, W. M. Slocum, and N. K. Logothetis, 'Direct and indirect activation of cortical neurons by electrical microstimulation,' J Neurophysiol, vol. 96, pp. 512-21, Aug 2006.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/56491	-
dc.description.abstract	現行對於中風治療多以藥物或手術來進行，若是缺血性中風是以取栓或溶栓，缺血性中風則是利用手術引流血塊來達到醫療的行為，但藥物或手術有其執行的黃金時期，若超過則治療效果大大降低，對於往後的治療方式就要依賴冗長且枯燥的復健行為了。在文獻探討中，發現Transcranial Direct Current Stimulation (tDCS)在臨床上對於中風病患在復健過程中，有明顯的行為上治療效果；此外根據文獻探討，2Hz方波對於缺血性中風小鼠的凋亡細胞，具有明顯的抑制效果，因此我想探討2Hz方波是否在出血性中風上也具有類似的效果；另外，由我們實驗室開發的脈衝式射頻電刺激，目前應用於止痛治療，而利用脈衝式射頻電刺激來探討對於中風的療效，目前仍未有相關的研究。因此本實驗的電刺激參數有三種：2Hz方波、2Hz弦波與200KHz PRF，並進一步進行動物實驗，驗證這三組參數的有效性與可行性。本實驗結果發現，在電刺激的第五天，單純執行出血性腦中風老鼠在Neurological Severity Scores的行為表現上，進步比例為20.66%，而200KHz PRF組別為30.8%，比例明顯較高，再利用one-way ANOVA統計方式，之間P值也都小於0.05；而200KHz PRF與2Hz方波間也有明顯的差異，這有兩種原因，第一，200KHz PRF在Neurological Severity Scores的行為評估中，確實有改善的效果；第二，相較於控制組，在2Hz方波的電刺激下，小鼠的行為有退步的情形。此外在切片染色的結果中，200KHz PRF組別在抑制星狀細胞上有明顯的效果，進而減少中風後的腦部發炎情形。綜上所述，證明200KHz PRF在出血中風後的Neurological Severity Scores行為表現上，具有改善效果，且有術後發炎反應的抑制效果。	zh_TW
dc.description.abstract	Nowadays, there are two most used treatments for the acute patients, Drugs and Surgery. An ischemic stroke patients can go through thrombolysis and hemicraniectomy, and a intracerebral hemorrhage stroke can use surgery to relieve the brain pressure. However, there are a time window for the drug and surgery. If you miss the golden window, you will experience a long and boring rehabilitation. According to literatures, Transcranial Direct Current Stimulation (tDCS) has the clinical effect for the stroke patients during the rehabilitation process. And 2Hz square wave can decrease the apoptosis in the ischemic rats. Therefore, I want to study whether there will have the same effect for applying 2Hz square stimulation on the intracerebral hemorrhage rats. Besides, I will discuss the effect of pulsed-radiofrequency stimulation originated from my lab on the intracerebral hemorrhage rats cause of there are still no research talking about high frequency stimulations on stroke animal models. As a result, I will use three different stimulus parameters to verify their efficacy and feasibility. In line with the experiment results, 200KHz PRF group have better performance compared to the control groups in the Neurological Severity Scores tests(P < 0.05). 200KHz PRF group also have critically effects on suppressing astrocytes proliferation, then creating the anti-inflammatory response. In summary, it proves the efficacy of 200KHz PRF on the stroke mices’ behavior and suppressing the inflammatory cells.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T05:31:13Z (GMT). No. of bitstreams: 1 ntu-103-R01548024-1.pdf: 2215133 bytes, checksum: beab0981f05b98b0361278155e23ee17 (MD5) Previous issue date: 2014	en
dc.description.tableofcontents	口試委員會審定書 # 誌謝 i 中文摘要 ii ABSTRACT iii 目錄 iv 表目錄 viii 第一章緒論 1 1.1研究背景 1 1.2 研究動機 2 1.3研究目的 3 第二章射頻與脈衝射頻電刺激 4 2.1 射頻與脈衝射頻電刺激 4 2.2 射頻與脈衝射頻電刺激於臨床應用 4 第三章實驗方法與研究材料 6 3.1 動物實驗 6 3.1.1 腦出血中風模型 6 3.1.2 中風程度評估 8 3.1.2.1行為觀察 8 3.1.2.2 切片染色 9 3.1.2.2.1 Cresyl Violet Staining 11 3.1.2.2.2 FJB Staining 11 3.1.2.2.3 GFAP Staining 12 3.2 電刺激器 15 3.2.1 軟體撰寫 15 3.2.2 硬體設計 16 3.2.2.1電子電路設計 16 3.2.2.2電極製作 20 3.2.3 電刺激模擬 23 第四章結果討論 25 4.1 行為觀察 25 4.1.1 Rotarod 25 4.1.2 Beam Walk 27 4.1.3 Neurological Severity Scores 28 4.2 切片染色 30 4.2.1 Cresyl Violet Staining 30 4.2.2 Fluoro-Jade B(FJB) Staining 32 4.2.3Glial Fibrillary Acidic Protein(GFAP) Staining 33 第五章未來工作 34 5.1 多組實驗數據 34 5.2 參數調變 34 第六章參考資料 35
dc.language.iso	zh-TW
dc.subject	凋亡細胞	zh_TW
dc.subject	出血性中風	zh_TW
dc.subject	電刺激	zh_TW
dc.subject	脈衝式射頻電刺激	zh_TW
dc.subject	星狀細胞	zh_TW
dc.subject	astrocytes	en
dc.subject	pulsed-radiofrequency	en
dc.subject	stimulation	en
dc.subject	apoptosis	en
dc.subject	intracerebral hemorrhage	en
dc.title	脈衝電刺激調變於小鼠出血性中風模型的效能評估	zh_TW
dc.title	Efficacy Study of Pulsed Stimulation on The Intracerebral Hemorrhage Mice Model	en
dc.type	Thesis
dc.date.schoolyear	102-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	陳思甫(Szu-Fu Chen),陳建成,劉子銘
dc.subject.keyword	凋亡細胞,出血性中風,電刺激,脈衝式射頻電刺激,星狀細胞,	zh_TW
dc.subject.keyword	apoptosis,intracerebral hemorrhage,stimulation,pulsed-radiofrequency,astrocytes,	en
dc.relation.page	37
dc.rights.note	有償授權
dc.date.accepted	2014-08-13
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	醫學工程學研究所	zh_TW
顯示於系所單位：	醫學工程學研究所

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