政大機構典藏-National Chengchi University Institutional Repository(NCCUR):Item 140.119/84957
English  |  正體中文  |  简体中文  |  Post-Print筆數 : 27 |  Items with full text/Total items : 112721/143689 (78%)
Visitors : 49511664      Online Users : 784
RC Version 6.0 © Powered By DSPACE, MIT. Enhanced by NTU Library IR team.
Scope Tips:
  • please add "double quotation mark" for query phrases to get precise results
  • please goto advance search for comprehansive author search
    •  Adv. Search
    HomeLoginUploadHelpAboutAdminister Goto mobile version


    Please use this identifier to cite or link to this item: https://nccur.lib.nccu.edu.tw/handle/140.119/84957


    Title: 以負向對比歷程探討酬賞價值降低之神經行為機制
    Investigation of the Neurobehavioral Mechanisms for Reward Reduction via Using the Procedure of Successive Contrast
    Authors: 莊豐榮
    Chuang, Feng-Jung
    Contributors: 廖瑞銘
    莊豐榮
    Chuang, Feng-Jung
    Keywords: 比較行為
    動機
    情緒
    邊緣系統
    抗焦慮症藥物
    Comparison behavior
    Motivation
    Emotion
    Limbic systems
    Anxiolytic
    Date: 2001
    Issue Date: 2016-04-15 16:03:13 (UTC+8)
    Abstract: 本研究以連續性負向對比(successive negative contrast, SNC)動物行為模式進行比較行為所涉及的心理歷程及神經生理系統之探究。實驗首先建立以大白鼠在舔舐不同濃度蔗糖液所引發的連續性負向對比效果之模式,繼而探討飢餓動機在此模式中所扮演的角色,並且以benzodiazepines受體促進劑diazepam進行週邊及中樞注射,期望對此模式之神經行為機制有進一步的發現,並釐清benzodiazepines在當中所扮演的角色。實驗一是為了建立本實驗室大白鼠在舔舐蔗糖液由較高濃度(32﹪)降為較低濃度(4﹪)時產生的連續性負向對比行為的表現,從結果發現剝奪吃食的大白鼠或自由吃食的大白鼠皆有連續性負向對比行為的效果產生,剝奪吃食的大白鼠在減抑負向對比的行為效果比自由吃食的大白鼠還快,而自由吃食的大白鼠在連續性負向對比的行為保持上會持續較久。實驗二是操弄吃食狀態的調換,以檢視大白鼠在負向對比效果表現是否隨飢餓驅力的高低而變化,就結果而言,剝奪吃食改為自由吃食組大白鼠之連續性負向對比行為的產生只發生在蔗糖液濃度變化後的第一、二天,而自由吃食改為剝奪吃食組大白鼠會發生在蔗糖液濃度變化後的四天。實驗三大白鼠進行diazepam腹腔注射,結果發現能有效減抑負向對比效果,但只發生在蔗糖液濃度改變後的第二天。實驗四進行大白鼠腹腔注射diazepam 5 mg/kg以檢視其是否因增加對蔗糖液的喜好因素而減抑了連續性負向對比的效果,結果顯示大白鼠在第一、二天負向對比的效果就不明顯,不過受藥物作用的影響,可以發現舔水次數或舔水量等指標都有增加趨勢,此可解釋為diazepam增加對蔗糖液的喜好得影響。實驗五進行了內側杏仁體及背側海馬體的diazepam微量注射,結果發現蔗糖液濃度改變後第一天,上述兩部位的藥物注射後皆產生負向對比效果,但第二天只有注射內側杏仁體大白鼠減抑了負向對比效果,而背側海馬體大白鼠則繼續保持負向對比效果。綜觀上述結果顯示以舔舐蔗糖液濃度差異所引發連續性負向對比效果所涉及的心理歷程及神經生理系統有其複雜性,benzodiazepines受體促進劑diazepam的藥物測試結果發現會影響此行為模式。
    The present study successive negative contrast (SNC) investigated what psychological processes and neural systems were involved in the comparison behavior. The SNC effect induced by rat’s licking different concentrations of sucrose solution was established and the effect in diazepam (a benzodiazepine agonist) as well as experimental manipulation of food deprivation were observed. In Experiment 1, the SNC effect was induced when the sucrose solution shifted from 32% down to 4%.This effect was observed across the consecutive 4 post-shift days in the free-feeding subjects; however, such effect was gradually diminished in the food-deprived subjects. Experiment 2 manipulated the food deprivation states to study how the hunger drive would affect the SNC. The results revealed that the food-deprived subjects in the pre-shift session show the SNC effect only on the second day of post-shift session with food supplied freely. However, the SNC effects were observed in the consecutive four post-shift days in the subject with free-feeding in the pre-shift session but was then altered into the state of food-deprivation. In Experiment 3, the SNC effect was attenuated by systemic injection of diazepam with the observation of the reduced licking suppression on the second post-shift day. In Experiment 4, with similar manipulation of food supply, diazepam was found to enhance the sucrose licking in addition to its reduction of the SNC effect. The central loci for diazepam to attenuate the SNC effect were investigated in Experiment 5. Although the SNC effect was attenuated by diazepam infused into the medial amygdala or the dorsal hippocampus, the time courses to observe such reduction were different for drug infused into both sites. The study indicates that(a)the SNC effect on licking can be reliably induced by decreasing the sucrose concentration,(b)such effect is attenuated by diazepam via central neural mechanisms. However, further research is needed to determine whether the attenuation of SNC by diazepam is based on the anxiety suppression or appetite enhancement process.
    Reference: Amsel, A. (1992). Frustration theory: An analysis of dispositional learning and memory. Combridge: Cambridge University Press.
    Becker, H. C., Jarvis, M. F., Wagner, G. C. & Flaherty C. F. (1984). Medial and lateral amygdalectomy differentially influences consummatory negative contrast. Physiology & behavior, 33, 707-712.
    Berridge, K. C. (1996). Food reward: Brain substrates for wanting and liking. Neuroscience and Biobehavioral Reviews, 20, 1-25.
    Berridge, K. C. & Pecina, S. (1995). Benzodiazepines, appetites, and taste palatability. Neuroscience and Biobehavioral Reviews, 19(1), 121-131.
    Berridge, K. C. & Treit, D. (1986). Chlordiazepoxide directly enhances positive ingestive reactions in rats. Pharmacology Biochemistry & Behavior, 24, 217-221.
    Braestrup, C. & Squires, R. F. (1977). Specific benzodiazepines receptors in rat brain characterized by high-affinity【3H】diazepam binding. Biochemistry, 74(9), 3805-3809.
    Cooper, S. J. (1980). Effects of chlordiazepoxide and diazepam on feeding performance in a food-preference test. Pscchopharmacology, 69, 73-78.
    Cooper, S. J. & Estall, L. B. (1985). Behavioural pharmacology of food, water and salt intake in relation to drug actions at benzodiazepines receptors. Neuroscience and Biobehavioral Review, 9, 5-19.
    Crespi, L. P. (1942). Quantitative variation in incentive and performance in the white rat. The American Journal of Psychology, 40, 467-517 .
    Flaherty, C. F. (1982). Incentive contrast: A review of behavioral changes following shifts in reward. Animal learning & behavior, 10, 409-440.
    Flaherty, C. F. (1996). Incentive relativity. New York: Cambridge University Press.
    Flaherty, C. F., Becker, H. C., Checke, S., Rowan, G. A. & Grigson, P. S. (1992). Effect of chlorpromazine and haloperidol on negative contrast. Pharmacology Biochemistry & Behavior, 42, 111-117.
    Flaherty, C. F., Coppotelli, C., Hsu, D. & Otto, T. (1998). Excitotoxic of the hippocampus disrupt runway but not consummatory contrast. Behavioural Brain Research, 93, 1-9.
    Flaherty, C. F. & Driscoll, C. D. (1980). Amobarbital sodium reduces successive gustatory contrast. Psychopharmacology, 69, 161-162.
    Flaherty, C. F., Greenwood, A., Martin, J. & Leszczuk, M. (1998). Relationship of negative contrast to animal models of fear and anxiety. Animal Learning & Behavior, 26(4), 397-407.
    Flaherty, C. F., Grigson, P. S., Demetrikopoulos, M. K., Weaver, M. S., Krauss K. L. & Rowan, G. A. (1990). Effect of serotonergic drugs on negative contrast in consummatory Behavior. Pharmacology Biochemistry & Behavior, 36, 799-806.
    Flaherty, C. F., Rowan, G. A., Emerich, D. F. & Walsh, T. J. (1989). Effects of Intrahippocampal administration of colchicine on incentive contrast on radial maze performance. Behavioral Neuroscience, 103(2), 319-328.
    Gray,J. A. (1987). The psychology of fear and stress. Combridge: Cambridge University Press.
    Grisson, P. S. & Flaherty, C. F. (1991). Cyproheptadine prevents the inital occurrence of successive negative contrast. Pharmacology Biochemistry & Behavior, 40, 433-442.
    Grigson, P. S., Spector, A. C. & Norgren, R. (1993). Microstructural analysis of successive negative contrast in free-feeding and deprived rats. Physiology & Behavior, 54, 909-916.
    Grigson, P. S., Spector, A. C. & Norgren, R. (1994). Lesions of the pontine parabrachial nuclei eliminate successive negative contrast in rats. Behavioral Neuroscience, 108(4), 714-723.
    Helmstetter, F. J. (1993). Stress-induced hypoalgesia and defensive freezing are attenuated by application of diazepam to the amygdala. Pharmacology Biochemistry & Behavior, 44, 433-438.
    Mitchell, C. & Flaherty, C. F. (1998). Temporal dynamics of corticosterone elevation in successive negative contrast. Physiology & Behavior, 64(3), 287-292.
    Nagy, J., Zambo, K. & Desci, L. (1979). Anti-anxiety action of diazepam after intra-amygdaloid application in the rat. Neuropharmacology, 18, 573-576.
    Niehoff, D. L. & Kuhar, M. J. (1983). Benzodiazepines receptors: localization in rat amygdala. The Journal of Neuroscience, 3(10), 2091-2097.
    Paxinos, G. & Watson, C. (1986). The rat brain in stereotaxic coordinates. Australia: Academic Press.
    Pecina, S. & Berridge, K. C. (1996). Brainstem mediates diazepam enhancement of palatability and feeding: microinjections into fourth ventricle versus lateral ventricle. Brain Research, 727, 22-30.
    Pecoraro, N. C., Timberlake W. D. & Tinsley, M. (1999). Incentive downshifts from evoke search repertoires in rats. Journal of Experimental Psychology, 25(2), 153-167.
    Petersen, E. N., Braestrup, C. & Jougen Scheel-Kruger. (1985). Evidence that the anticonflict of midazolam in amygdala is mediated by the specific benzodiazepines receptors. Neuroscience Letters, 53, 285-288.
    Rago, L. K., Kiivet, R. A. K. & Harro, J. E. (1986). Benzodiazepines binding sites in mice forebrain and kidneys: evidence for similar regulation by GABA agonists. Pharmacology Biochemistry & Behavior, 24, 1-3.
    Richard, J. G. & Mohler, H. (1984). Benzodiazepines receptors. Neuropharmacology, 23(2B), 233-242.
    Salinas, J. A., Parent, M. B. & McGaugh, J. L. (1996). Ibitenic acid lesions of the amygdala basolateral complex or central nucleus differentially effect the response to reductions in reward. Brain Research, 742, 283-293.
    Salinas, J. A. & White, N. (1998). Contributions of the hippocampus, amygdala, and striatum to the response elicited by reward reduction. Behavioral Neuroscience, 112(4), 812-826.
    Salminen, O., Lahtinen, S. & Ahtee, L. (1996). Expression of fos protein in various rat brain areas following acute nicotine and diazepam. Pharmacology Biochemistry & Behavior, 54(1), 241-248.
    Sandra, N. A., File, E., Fernandes, C., Gonzalez, L. E. & Barnes, N. M. (1997). Evidence that the median raphe nucleus-dorsal hippocampal pathway mediates diazepam withdrawal-induced anxiety. Psychopharmacology, 130, 228-234.
    Schwartz, G. J. & Grill, H. J. (1984). Relationships between taste reactivity and intake in the neurologucally intack rat. Chem. Senses, 9, 249-272.
    Shibata, K., Kataoka, Y., Gomita, Y. & Ueki, S. (1982). Localization of the site of the anticonflict of benzodiazepines in the amygdaloid nucleus of rats. Brain Research, 234, 442-446.
    Shibata, S., Yamashita, K., Yamamoto, E., Ozaki, T. & Ueki, S. (1989). Effects of benzodiazepines and GABA antagonists on anticonflict effects of antianxiety drugs injected into the rat amygdala in a water-lick supression test. Psychopharmacology, 54(1), 241-248.
    Souza, E. B., Goeders, N. E. & Kuhar, M. J. (1986). Benzodiazepines receptors in rat brain are altered by adrenalectomy. Brain Research, 381, 176-181.
    Treit, D., Berridge, K. C. & Schultz, C. (1987). The direct enhancement of positive palatability by chlordiazepoxide is antagonized by Ro 15-1788 and CGS 8216. Pharmacology Biochemistry & Behavior, 26, 709-714.
    Description: 碩士
    國立政治大學
    心理學系
    Source URI: http://thesis.lib.nccu.edu.tw/record/#A2002001148
    Data Type: thesis
    Appears in Collections:[Department of Psychology] Theses

    Files in This Item:

    File SizeFormat
    index.html0KbHTML2245View/Open


    All items in 政大典藏 are protected by copyright, with all rights reserved.


    社群 sharing

    著作權政策宣告 Copyright Announcement
    1.本網站之數位內容為國立政治大學所收錄之機構典藏,無償提供學術研究與公眾教育等公益性使用,惟仍請適度,合理使用本網站之內容,以尊重著作權人之權益。商業上之利用,則請先取得著作權人之授權。
    The digital content of this website is part of National Chengchi University Institutional Repository. It provides free access to academic research and public education for non-commercial use. Please utilize it in a proper and reasonable manner and respect the rights of copyright owners. For commercial use, please obtain authorization from the copyright owner in advance.

    2.本網站之製作,已盡力防止侵害著作權人之權益,如仍發現本網站之數位內容有侵害著作權人權益情事者,請權利人通知本網站維護人員(nccur@nccu.edu.tw),維護人員將立即採取移除該數位著作等補救措施。
    NCCU Institutional Repository is made to protect the interests of copyright owners. If you believe that any material on the website infringes copyright, please contact our staff(nccur@nccu.edu.tw). We will remove the work from the repository and investigate your claim.
    DSpace Software Copyright © 2002-2004  MIT &  Hewlett-Packard  /   Enhanced by   NTU Library IR team Copyright ©   - Feedback