以微型化多孔道玻璃電極探討愷他命對於大鼠視丘觸覺神經元之影響

Chih-Ting Wu; 吳致廷

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/68016

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	趙福杉
dc.contributor.author	Chih-Ting Wu	en
dc.contributor.author	吳致廷	zh_TW
dc.date.accessioned	2021-06-17T02:11:17Z	-
dc.date.available	2019-02-26
dc.date.copyright	2018-02-26
dc.date.issued	2017
dc.date.submitted	2018-01-17
dc.identifier.citation	Brady, R. J., & Swann, J. W. (1986). KETAMINE SELECTIVELY SUPPRESSES SYNCHRONIZED AFTERDISCHARGES IN IMMATURE HIPPOCAMPUS. Neuroscience Letters, 69(2), 143-149. doi:10.1016/0304-3940(86)90593-8 Briano, R. A. (1983). A REPRODUCIBLE TECHNIQUE FOR BREAKING GLASS MICROPIPETS OVER A WIDE-RANGE OF TIP DIAMETERS. Journal of Neuroscience Methods, 9(1), 31-34. doi:10.1016/0165-0270(83)90106-1 Chen, C.-P. (2011). Nociceptive responses of the posterior thalamic nucleus to peripheral noxious stimuli in anesthetized rats. (Ph.D), National Taiwan University. Dawson, N., Morris, B. J., & Pratt, J. A. (2013). Subanaesthetic Ketamine Treatment Alters Prefrontal Cortex Connectivity With Thalamus and Ascending Subcortical Systems. Schizophrenia Bulletin, 39(2), 366-377. doi:10.1093/schbul/sbr144 Francis, J. T., Xu, S., & Chapin, J. K. (2008). Proprioceptive and cutaneous representations in the rat ventral posterolateral thalamus. Journal of Neurophysiology, 99(5), 2291-2304. doi:10.1152/jn.01206.2007 Frohlich J, V. H. J. (2014). REVIEWING THE KETAMINE MODEL FOR SCHIZOPHRENIA. Journal of psychopharmacology, 28, 287-302. Hasselmann, H. W. W. (2014). Ketamine as Antidepressant? Current State and Future Perspectives. Current Neuropharmacology, 12(1), 57-70. doi:10.2174/1570159x113119990043 Jaw, F. S., Kao, Y. C., Chen, C. P., Lee, C. Y., & Chen, Y. Y. (2008). High-fidelity evoked potential for mapping the rat tail in thalamus. Neuroscience, 155(1), 277-282. doi:10.1016/j.neuroscience.2008.05.034 Jiang, H. J., Chen, K. H., & Jaw, F. S. (2015). Deep-Brain Electrical Microstimulation Is an Effective Tool to Explore Functional Characteristics of Somatosensory Neurons in the Rat Brain. Plos One, 10(2). doi:10.1371/journal.pone.0117289 Kao, Y.-C. (2012). Ensemble Recording in Rat Somatosensory Cortex for Laminar Activities of Touch and First Component of Nociception. (Ph.D), National Taiwan University. Kayama, Y., & Iwama, K. (1972). The EEG, evoked potentials, and single-unit activity during ketamine anesthesia in cats. Anesthesiology, 36, 316-328. Lalley, P. M. (1999). Microiontophoresis and Pressure Ejection: Modern Technique in Neuroscience Liao, W.-L. (2004). Analysis of cortical noxious responses caused by CO2 laser stimulation in the tail of the rat and Development of a mechanical noxious stimulator. (Master's thesis), National Taiwan University. Liu, X. B. (1997). Subcellular distribution of AMPA and NMDA receptor subunit immunoreactivity in ventral posterior and reticular nuclei of rat and cat thalamus. Journal of Comparative Neurology, 388(4), 587-602. doi:10.1002/(sici)1096-9861(19971201)388:4<587::aid-cne7>3.0.co;2-z Lu, P.-L. (2013). Electrophysiological study of alarm function of medial thalamic nuclei of rats. (Ph.D), National Taiwan University. Macdonald, J. F., Bartlett, M. C., Mody, I., Pahapill, P., Reynolds, J. N., Salter, M. W., . . . Pennefather, P. S. (1991). ACTIONS OF KETAMINE, PHENCYCLIDINE AND MK-801 ON NMDA RECEPTOR CURRENTS IN CULTURED MOUSE HIPPOCAMPAL-NEURONS. Journal of Physiology-London, 432, 483-508. Retrieved from <Go to ISI>://WOS:A1991ET45600024 Miyasaka, M., & Domino, E. F. (1968). NEURONAL MECHANISMS OF KETAMINE-INDUCED ANESTHESIA. International Journal of Neuropharmacology, 7(6), 557-&. Retrieved from <Go to ISI>://WOS:A1968C098000010 Patel, I. M., & Chapin, J. K. (1990). KETAMINE EFFECTS ON SOMATOSENSORY CORTICAL SINGLE NEURONS AND ON BEHAVIOR IN RATS. Anesthesia and Analgesia, 70(6), 635-644. Retrieved from <Go to ISI>://WOS:A1990DF19400010 R.E. McCaman, D. G. M., J.K. Ono. (1977). A pressure system for intracellular and extracellular ejections of picoliter volumes. Brain Research Bulletin, 136, 141-147. Thomson, A. M., West, D. C., & Lodge, D. (1985). AN N-METHYLASPARTATE RECEPTOR-MEDIATED SYNAPSE IN RAT CEREBRAL-CORTEX - A SITE OF ACTION OF KETAMINE. Nature, 313(6002), 479-481. doi:10.1038/313479a0 Tsai, M.-F. (2000). Quantitative Mechanical and Thermal Stimulators. (Master's thesis), National Taiwan University. Veith, V. K., Quigley, C., & Treue, S. (2016). A Pressure Injection System for Investigating the Neuropharmacology of Information Processing in Awake Behaving Macaque Monkey Cortex. Jove-Journal of Visualized Experiments(109). doi:10.3791/53724
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/68016	-
dc.description.abstract	過去二十年以來，我們實驗室致力於研究大鼠觸覺與痛覺神經訊號的傳遞，而這些基礎研究讓我們萌發探討藥物如愷他命對於這兩條神經路徑傳導有何影響的想法。為了達到這個目的，我們必須同時紀錄大鼠皮質與視丘之神經訊號，並在此兩腦區給予定量藥物注射。然而，當今的壓力注射藥物系統大多十分龐大，加上大鼠大腦空間有限，因此儀器的架設限制住此實驗的可行性。為了解決這個挑戰，在這篇論文中提供一簡單的方法製造出一微電極不但能紀錄神經訊號，還能注射定量藥物於紀錄腦區中。由於此微電極所佔實驗空間很小，故能解決上述之問題。此外，我們利用此電極探討愷他命對於大鼠視丘觸覺神經元的影響，期盼不只能驗證此微電極能否應用至動物實驗中，也能一窺愷他命對於視丘觸覺神經元的直接影響。由實驗結果，我們觀察到在注射兩次定量的愷他命後，神經活性等比例的抑制，證明了此電極的可行性。而在神經恢復期間，神經活性呈現不規則的活性變化，並且，愷他命對於觸覺神經元的抑制效果也不盡相同。因此，我們認為這些現象或許能夠解釋為什麼愷他命吸食者會產生幻覺以及與現實脫離的感覺。	zh_TW
dc.description.abstract	In our lab, we have dedicated to investigate signal transmissions of the touch and nociception for more than two decades. Now, the agent effects on these two signal pathways are needed to be explored. However, since pressure-injection systems commercially available are bulky and expensive, it is hardly possible to construct recording-injection microelectrode with multiple channels at multisite to both record neuronal responses and to deliver agents in the brain of a small animal, such as the rat. To overcome this challenge, an innovative miniaturized recording-injection microelectrode was constructed in this thesis. The injection system was built by sealing a tapped polyethylene tube, connected with a Hamilton syringe, into one barrel of the microelectrode with super glue, so the proposed electrode can save much operational space in animal experiences. Our results also support that it is reliable to inject quantitative drugs. First, the r-squared of the calibration line between the output volume of the syringe and the really ejected volume reached 0.99. Secondly, the numbers of the evoked action potentials of rat thalamic tactile neurons were decreased proportionally after the injection of two times same amount of ketamine. Besides that, we observed the differential inhibitory effect of ketamine on these neurons and the fluctuations of neuronal activities during the recovery. These phenomena might partially explain the dissociative effect of ketamine and the ketamine-induced hallucination but the further researches are still required to uncovering the underlying mechanism of these interesting situations. In conclusion, the miniature recording-injection microelectrode was proved to be a reliable tool to conduct more delicate neuropharmacological studies in small animals. After all, the proportional inhibitory local effect of ketamine on rat thalamic tactile neurons was directly demonstrated.	en
dc.description.provenance	Made available in DSpace on 2021-06-17T02:11:17Z (GMT). No. of bitstreams: 1 ntu-106-R05548021-1.pdf: 12137446 bytes, checksum: 746734b8c3c068f65174341fbda467e2 (MD5) Previous issue date: 2017	en
dc.description.tableofcontents	Contents 中文摘要............................................................................................................................i Abstract.............................................................................................................................ii List of Figures..................................................................................................................vi 1. Introduction...................................................................................................................1 1.1 Background.............................................................................................................1 1.2 The aim of this study...............................................................................................4 2. Materials and Methods..................................................................................................5 2.1 Miniature recording-injection microelectrode.........................................................5 2.2 Experiment procedures............................................................................................6 2.3 Animal preparation..................................................................................................7 2.4 Signal recording and drug injection........................................................................8 2.5 Data analysis............................................................................................................9 3. Results.........................................................................................................................16 3.1 Drug injection of miniature microelectrode in vitro..............................................16 3.2 Local effect of 10 µl volume on thalamic tactile neurons.....................................16 3.3 Local effect of ketamine on thalamic tactile neurons............................................17 4. Discussion....................................................................................................................28 4.1 Evaluation of miniature microelectrode................................................................28 4.2 Local effect of ketamine on thalamic tactile neurons............................................29 5. Conclusion...................................................................................................................32 References.......................................................................................................................33
dc.language.iso	en
dc.title	以微型化多孔道玻璃電極探討愷他命對於大鼠視丘觸覺神經元之影響	zh_TW
dc.title	Exploring ketamine effect on thalamic tactile neurons in rats by using novel multi-barrel microelectrode	en
dc.type	Thesis
dc.date.schoolyear	106-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	陳右穎,高瑀絜,陳芝萍
dc.subject.keyword	多孔道紀錄注射微電極,愷他命,觸覺神經元,視丘,大鼠,	zh_TW
dc.subject.keyword	Multi-barrel recording-injection microelectrode,Ketamine,Tactile neurons,Thalamus,Rat,	en
dc.relation.page	35
dc.identifier.doi	10.6342/NTU201800078
dc.rights.note	有償授權
dc.date.accepted	2018-01-18
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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