小腦經視丘至前扣帶迴皮質的神經連結

I-Chun Wu; 吳奕君

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/54902

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	嚴震東(Chen-Tung Yen)
dc.contributor.author	I-Chun Wu	en
dc.contributor.author	吳奕君	zh_TW
dc.date.accessioned	2021-06-16T03:41:07Z	-
dc.date.available	2020-03-13
dc.date.copyright	2015-03-13
dc.date.issued	2015
dc.date.submitted	2015-02-12
dc.identifier.citation	References Allen GI, Tsukahara N. 1974. Cerebrocerebellar communication systems. Physiol. Rev. 54:957–1006 Anand B.K., Malhotra C.L., Singh B., Dua S. 1959. Cerebellar projections to limbic system. J. Neurophysiol. 22:451–57 Aumaun T.D., Rawson J.A., Finkelstein D.I., Horne M.K. 1994. Projections From the Lateral and Interposed Cerebellar Nuclei to the Thalamus of the Rat: A Light and Electron Microscopic Study Using Single and Double Anterograde Labeling. The journal of comparative neurology 349~165-181 Aumaun T.D., Rawson J.A., Pichitpornchai C., Horne M.K. 1996. Projections From the Cerebellar Interposed and Dorsal Column Nuclei to the Thalamus in the Rat: A Double Anterograde Labeling Study. The journal of comparative neurology 368:608-619 Bailey A. et al. 1998. A clinicopathological study of autism. Brain 121,889–905 Barbas, H., Henion, T. H., and Dermon, C. R. 1991. Diverse thalamic projections to the prefrontal cortex in the rhesus monkey. J. Comp. Neurol. 313, 65–94. doi: 10.1002/cne.903130106 Berendse H.W., Groenewegen H.J. 1991. Restricted cortical termination ﬁelds of the midline and intralaminar thalamic nuclei in the rat. Neuroscience 42, 73–102 Brooks V.B., Thach W.T. 1981. Cerebellar control of posture and movement. In Handbook of physiology, Section1. The nervous system, ed. VB Brooks, Vol. 2, Motor Control, Part II, pp. 877–946. Bethesda: Am. Physiol.Soc. Berntson G.G., Potolicchio S.J. Jr, Miller N.E. 1973. Evidence for higher functions of the cerebellum: eating and grooming elicited by cerebellar stimulation in cats. Proc. Natl. Acad. Sci. USA 70:2497–99 Bissiere Stephanie, Plachta Nicolas, Hoyer Daniel, Olpe Hans-Rudolf, Grace Anthony A., Cryan John F. 2008. The Rostral Anterior Cingulate Cortex Modulates the Efficiency of Amygdala-Dependent Fear Learning. Biol Psychiatry. May 1; 63(9): 821–831 Chevalier G., Deniau J. M. 1982. Inhibitory nigral influence on cerebellar evoked responses in the rat ventromedial thalamic nucleus. Exp. Brain Res. 48: 369-376 Christianam Leonard. 1968. The Prefrontal Cortex of the Rat. Conde F., Audinat E., Maire-Lepoivre E., Crepel F. 1990. Afferent connections of the medial frontal cortex of the rat. A study using retrograde transport of ﬂuorescent dyes. I. Thalamic Afferents. BrainRes Bull 1990; 24:341–54 Conde F., Maire-Lepoivre E., Audinat E., Crepel F. 1995. Afferent connections of the medial frontal cortex of the rat. II. Cortical and subcortical afferent. J Comp Neurol; 352:567–93 Cornwall J., Phillipson O. T. 1988. Afferent projections to the dorsal thalamus of the rat as shown by retrograde lectin transport. II. The midline nuclei. Brain Res. Bull. 21, 147-161 Courchesne, E. et al. 1994. Cerebellar hypoplasia and hyperplasia in infantile autism. Lancet 343, 63–64 Decety, J., Jackson, P. L. 2004. The Functional Architecture of Human Empathy. Behavioral and Cognitive Neuroscience Reviews 3 (2): 71–100 Dostrovsky J.O., Guilbaud G. 1990. Nociceptive responses in medial thalamus of the normal and arthritic rat, Pain 40, 93–104 Duffy J.D., Campbell J.J. 1994. The regional prefrontal syndromes: a theoretical and clinical overview, J. Neuropsychiatry Clin. Neurosci.6, 379–387 Evarts E.V., Thach W.T. 1969. Motor mechanisms of the CNS: cerebrocerebellar interrelations. Annu Rev Physiol 31:451–498 Fuster J.M. 1988. The Prefrontal Cortex. Anatomy, Physiology and Neuropsychology of the Frontal Lobe, 2nd Edition, Raven Press, New York, pp. 136–138 Glickstein M., May J.G., Mercier B.E. 1985. Corticopontine projection in the macaque: the distribution of labeled cortical cells after large injections of horseradish peroxidase in the pontine nuclei. J. Comp. Neurol.235:343–59 Groenewegen, H. J. 1988.Organization of the afferent connections of the mediodorsal thalamic nucleus in the rat, related to the mediodorsal-prefrontal topography. Neuroscience 24, 379–431.doi: 10.1016/0306-452290339-9 Haines D.E., May P.J., Dietrichs E. 1990. Neuronal connections between the cerebellar nuclei and hypothalamus in Macaca fascicularis: cerebello-visceral circuits. J. Comp. Neurol. 299:106–22 Haroian Alan J., Massopust Leo C., and Young Paul A. 1981. Cerebellothalamic Projections in the Rat: An Autoradiographic and Degeneration Study. The Journal of Comparative Neurology 197:217-2:36 Herkenham M. 1979. The afferent and efferent connections of the ventromedial thalamic nucleus in the rat. J. Comp. Neural. 183: 487-518 Herkenham M. 1986. New perspectives on the organization and evolution of nonspecific thalamocortical projections. In Cerebral Cortex Vol. 5, Sensory-motor Areas and Aspects of Cortical connectivity feds Jones E.G. and Peters A.), pp.403-445. Plenum Press, New York. Heath R. G., Harper J. W. 1974. Ascending Projections of the Cerebellar Fastigial Nucleus to the Hippocampus, Amygdala, and Other Temporal Lobe Sites: Evoked Potential and Histological Studies in Monkeys and Cats. Experimental Neurology 45, 268-287 Hsu M.M., Kung J.C., Shyu B.C. 2000. Evoked responses of the anterior cingulate cortex to stimulation of the medial thalamus, Chin. J. Physiol. 43 (2000) 81–89 Jackson P.L., Brunet E., Meltzoff A.N., Decety J. 2006. Empathy examined through the neural mechanisms involved in imagining how I feel versus how you feel pain: An event-related fMRI study. Neuropsychologia 44: 752–61 Johansen J.P., Fields H.L., Manning B.H. 2001. The affective component of pain in rodents: direct evidence for a contribution of the anterior cingulate cortex. Proc Natl Acad Sci USA; 98:8077–82 Jones E. G., Leavitt R. Y. 1974. Retrograde axonal transport and the demonstration of non-specific projections to the cerebral cortex and striatum from thalamic intralaminar nuclei in the rat, cat and monkey. J. camp. Neural. 154, 349-378 Kaufmann, W.E. et al. 2003. Speciﬁcity of cerebellar vermian abnormalities in autism: a quantitative magnetic resonance imaging study. J. Child Neurol. 18, 463–470 Kaufman E. F. S. and Rosenquist A. C. 1985. Efferent projections of the thalamic intralaminar nuclei in the cat. Brain Res. 335, 257-279 Kaufman E. F. S., Rosenquist A. C. 1985. Afferent connections of the thalamic intralaminar nuclei in the cat. Brain Res. 335, 281-296 Kemper, T.L. and Bauman, M.L. 1993. The contribution of neuropathologic studies to the understanding of autism. Neurol.Clin. 11, 175–187 Koger S.M., Mair R.G. 1994. Comparison of the effects of frontal cortical and thalamic lesions on measures of olfactory learning and memory in rat. Behav. Neurosci. 108, 1088–1100 Krettek J.E., Price J.L. 1977. The cortical projections of the mediodorsal nucleus and adjacent thalamic nuclei in the rat. J Comp Neurol; 171:157–92 Lu Xiaofeng, Miyachi Shigehiro, and Takada Masahiko. 2012. Anatomical evidence for the involvement of medial cerebellar output from the interpositus nuclei in cognitive functions. Macchi G., Bentivoglio M. 1986. The thalamic intralaminar nuclei and the cerebral cortex. In Cerebral Cortex. Vol. 5, Sensory-motor Areas and Aspects of Cortical Connectivity (eds Jones E. G. and Peters A.), pp. 355-401. Plenum Press, New York. McFarland, N. R., and Haber, S. N. 2002. Thalamic relay nuclei of the basal ganglia form both reciprocal and nonreciprocal cortical connections, linking multiple frontal cortical areas. J Neurosci. 2002 Sep 15; 22(18):8117-32 MacLeod N. K., James T. A. 1984. Regulation of cerebellocortical transmission in the rat ventromedial thalamic nucleus. Exp.Brain Res. 55: 535-552 Mair R.G., Lacourse D.M.1992. Radiofrequency lesions of the thalamus produce delayed-nonmatching-to-sample impairments comparable to pyrithiamine-induced encephalopathy in rats, Behav. Neurosci. 106, 634–645 Middleton F.A., Strick P.L. 2001. Cerebellar projections to the prefrontal cortex of the primate. J. Neurosci. 21:700–12 Milner B., Petrides M.1984. Behavioural effects of frontal-lobe lesions in man, Trends Neurosci. 7, 403–407 Mitchell Anna S., Chakraborty Subhojit. 2013. What does the mediodorsal thalamus do? Physiol Psychol 10: 2-12 Morgan M.A., LeDoux J.E. 1995. Differential contribution of dorsal and ventral medial prefrontal cortex to the acquisition and extinction of conditioned fear in rats. BehavNeurosci; 109:681–8 Owen A.M. 1997. The functional organization of working memory processes within human lateral frontal cortex: the contribution of functional neuroimaging, Eur. J. Neurosci. 9, 1329–1339 Palmen, S.J. et al. 2004. Neuropathological ﬁndings in autism. Brain127, 2572–2583 Paul G. Matteson, Jill L. Silverman, Julia M. Senerth, Samantha Kelly, Matthieu Genestine, James H. Millonig, Emanuel DiCicco-Bloom, Jacqueline N. Crawley. 2012. Autism-Relevant Social Abnormalities and Cognitive Deficits in Engrailed-2 Knockout Mice. PLoS One. doi: 10.1371 Ploghaus A., Tracey I., Gati J.S., Clare S., Menon R.S., Matthews P.M., Rawlins J.N. 1999. Dissociating pain from its anticipation in the human brain. Science 284:1979–1981 Powell T. P. S., Cowan W. M. 1954. The connections of the midline and intralaminar nuclei of the thalamus of the rat. J. Anal. 88, 307-319 Preuss T. M., Goldman-Rakic P.S. 1987. Crossed corticothalamic and thalamocortical connections of macaque prefrontal cortex. J. Comp. Neurol. 257, 269–281. Ray J.P., Price J.L. 1992. The organization of the thalamocortical connections of the mediodorsal thalamic nucleus in the rat, related to the ventral forebrain–prefrontal cortex topography. J Comp Neurol; 323:167–97 Reis D.J., Doba N., Nathan M.A. 1973. Predatory attack, grooming, and consummatory behaviors evoked by electrical stimulation of cat cerebellar nuclei. Science 82:845–47 Ritvo, E.R. et al. 1986. Lower Purkinje cell counts in the cerebella of four autistic subjects: initial ﬁndings of the UCLA-NSAC Autopsy Research Report. Am. J. Psychiatry 143, 862–866 Royce G. J., Bromley S., Gracco C., Beckstead R. M. 1989. Thalamocortical connections of the rostra1 intralaminar nuclei: an autoradiographic analysis in the cat. J. camp. Neural. 288, 555-582 Savage L.M., Sweet A.J., Castillo R., Langlais P.J. 1997. The effects of lesions to thalamic lateral internal medullary lamina and posterior nuclei on learning, memory and habituation in the rat, Behav. Brain Res. 82, 133–147 Schmahmann J.D. 1996. From movement to thought: anatomic substrates of the cerebellar contribution to cognitive processing. Hum. Brain Mapp. 4:174–98 Schmahmann J.D., Sherman J.C. 1998. The cerebellar cognitive affective syndrome. Brain 121: 561-579 Singer T., Seymour B., O’Doherty J., Kaube H., Dolan R., Frith C. 2004. Empathy for pain involves the affective but not sensory components of pain. Science 303:1157–1162 Snider RS., Maiti A. 1976. Cerebellar contributions to the Papez circuit. J. Neurosci. Res. 2:133–46 Stoodley Catherine J., Schmahmann Jeremy D. 2010. Evidence for topographic organization in the cerebellum of motor control versus cognitive and affective processing. Cortex. 46(7): 831–844 Strick P.L., Dum R.P., Fiez J.A. 2009. Cerebellum and nonmotor function. Annu Rev Neurosci 32: 413-434 Sugimoto T., Hattori T., Mizuno N., Itoh K., Sato M. 1983. Direct projections from the centre median- parafascicular complex to the subthalamic nucleus in the cat and rat. J. camp. Neural. 214, 209-216 Uylings Harry B.M., Groenewegen Henk J., Kolb Bryan. 2003. Do rats have a prefrontal cortex? Behavioural Brain Research 146, 3–17 Van der Werf Ysbrand D., Witter Menno P., Groenewegen Henk J. 2002. The intralaminar and midline nuclei of the thalamus. Anatomical and functional evidence for participation in processes of arousal and awareness. Brain Research Reviews 39 (2002) 107–140 Van Eden C.G., Uylings H.B.M. 1985. Cytoarchitectonic development of the prefrontal cortex in the rat. J Comp Neurol; 241:253–67 Vertes R.P. 2002. Analysis of projections from the medial prefrontal cortex to the thalamus in the rat, with emphasis on nucleus reuniens. J Comp Neurol; 442:163–87 Vogt Brent A., Finch David M., Olson Carl R. 1992. Functional heterogeneity in cingulate cortex: the anterior executive and posterior evaluative regions. Cereb Cortex. 1992 Nov-Dec; 2(6):435-43 Yoshimura Shinpei , Okamoto Yasumasa , Onoda Keiichi , Matsunaga Miki , Ueda Kazutaka , Suzuki Shin-ichi , Yamawaki Shigeto. 2010. Rostral anterior cingulate cortex activity mediates the relationship between the depressive symptoms and the medial prefrontal cortex activity. J Affect Disord. 122(1-2):76-85 Young H.L., Stevens A.A., Converse E., Mair R.G. 1996. A comparison of temporal decay in place memory tasks in rats (Rattus nor-vegicus) with lesions affecting thalamus, frontal cortex, or the hippocampal system, Behav. Neurosci. 110, 1244–1260 Zanchetti A., Zoccolini A. 1954. Autonomic hypothalamic outbursts elicited by cerebellar stimulation. J. Neurophysiol. 17:475–83
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/54902	-
dc.description.abstract	小腦除了在運動功能上扮演重要角色，近期行為及電生理研究也發現小腦參與了認知和情緒等功能，但在解剖上的證據較不明確。本研究在大鼠腦中注射神經追蹤劑，來觀察小腦及和情緒功能高度相關的大腦邊緣系統之間的連結。本實驗分為四個部分：(1)在大鼠小腦深部核(deep cerebellar nuclei, DCN)注射順行性神經追蹤劑;(2)在大鼠視丘中央部位注射反行性神經追蹤劑;(3)在大鼠前扣帶迴皮質區(anterior cingulate cortex, ACC)注射反行性神經追蹤劑;(4)同時在大鼠小腦注射順行性神經追蹤劑，並在大腦邊前扣帶迴皮質區注射反行性神經追蹤劑。使存活一段時間後，將動物犧牲灌流並將腦固定後取出，以冷凍切片並進行觀察。在此研究中發現:(1)小腦除了投射至腹前側核(ventral anterior thalamic nucleus, VA),腹外側核(ventrolateral thalamic nucleus, VL),腹內側核(ventromedial, VM)等運動相關核區，也會投射到內背側核外側部分(lateral part of mediodorsal thalamic nucleus, MDL),中央旁核(paracentral thalamic nucleus, PC),中央外側核(centrolateral thalamic nucleus, CL),中央內側核(central medial thalamic nucleus, CM)等位於視丘的核區，其中以齒狀核(dentate nuclei, DN)的投射最多。(2)靠近尾端的內背側核, 板內側核(intralaminar nuclei, ILN)等視丘核區傾向投射到靠近頭側的前扣帶迴皮質區，而較頭側的視丘核區則會投射到靠近尾端的前扣帶皮質區。(3)在小腦及前扣帶迴皮質區分別注射順行及反行性的神經追蹤劑實驗中，發現在小腦齒狀核及中間核(interposed nuclei, IN)注射追蹤劑的大鼠中，可以在視丘內背側核外側部分,中央旁核,中央外側核等區域發現被標定的神經細胞被從小腦投射而來的軸突末端包圍。說明小腦中神經元可能通過丘腦中的這些核區作為中繼站進而和前扣帶迴皮質區進行連結與功能協調。本結果在解剖上提供小腦在認知、情緒等非運動功能上也扮演了協調的可能。	zh_TW
dc.description.abstract	Cerebellum has long been thought as a main area for motor executive control. Recent studies of electrophysiology and behavior reveal that cerebellum also participates in cognitive and emotional functions. However, there is still no sufficient anatomical evidence. The study includes four parts: we (1) injected anterograde neuronal tracer in the rat deep cerebellar nuclei (DCN); (2) injected retrograde tracer in the mid thalamus; (3) injected retrograde tracer in anterior cingulate cortex (ACC); (4) simultaneously injected anterograde tracer in the DCN and retrograde tracer in ACC. After several days of survival, the animal was sacrificed for perfusion and the brain was fixed and removed for further frozen section. The results show: (1) Except for ventral anterior thalamic nucleus (VA), ventrolateral thalamic nucleus (VL) and ventromedial thalamic nucleus (VM), cerebellar also projects to non-motor nuclei, such as lateral part of mediodorsal thalamic nucleus (MDL), paracentral thalamic nucleus (PC), centrolateral thalamic nucleus (CL) and central medial thalamic nucleus (CM), and dentate nuclei (DN) is the main output. (2) The retrograde tracing of ACC injection of fluoro-gold shows a tendency that rostral medial thalamus preferentially projects to A2 and caudal medial thalamus to A4 level of ACC. (3) In MDL, PC, and CL, many retrograde tracer labeled neurons can be seen and anterograde tracer labeled axon fiber and boutons around those neurons. Our results indicate that the cerebellum may have connections with anterior cingulate cortex through mediodorsal thalamic nucleus, paracentral nucleus, or central lateral nucleus and provide anatomical data showing the role of emotional coordination by the cerebellum.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T03:41:07Z (GMT). No. of bitstreams: 1 ntu-104-R01b41014-1.pdf: 7568099 bytes, checksum: c14c75ea9cba6c23fd70b7d8a368c49c (MD5) Previous issue date: 2015	en
dc.description.tableofcontents	Table of Contents 誌謝………………………………………………………………………ii 摘要…………………………………………………………………iii Abstract………………………………………………………………iv Abbreviations……………………………………………………………1 1. Introduction……………………………………………………….2 1.1 Cerebellum and non-motor functions………………………………………2 1.2 Cerebellum output and connections with the cerebrum……………………3 1.3 Anterior cingulate cortex and its connections ……………………………..4 1.4 Connections of cerebellum and anterior cingulate cortex………………………. 6 1.5 Aims and experimental design………………………………………………….7 2. Materials and Methods……………………………………………8 2.1 Animals…………………………………………………………………….8 2.2 Surgery…………………………………………………………………….8 2.3. Histology………………………………………………………………...10 2.4 Data Analysis……………………………………………………………..11 3. Results…………………………………………………………….13 3.1 Anterograde tracing from deep cerebellar nuclei to thalamus…………….13 3.2 Retrograde tracing from MD and Intralaminar nuclei to DCN……………14 3.3 Retrograde tracing from ACC to thalamus…………………………………15 3.4 Double tracing of ACC and DCN…………………………………………17 4. Discussions………………………………………………………..19 References……………………………………………………………25 Tables…………………………………………………………………32 Figures………………………………………………………………..35
dc.language.iso	en
dc.subject	神經追蹤劑	zh_TW
dc.subject	小腦深部核	zh_TW
dc.subject	板內側核	zh_TW
dc.subject	視丘內背側核	zh_TW
dc.subject	邊緣系統	zh_TW
dc.subject	deep cerebellar nuclei	en
dc.subject	intralaminar nuclei	en
dc.subject	mediodorsal thalamic nucleus	en
dc.subject	neuronal tracer	en
dc.subject	limbic cortex	en
dc.title	小腦經視丘至前扣帶迴皮質的神經連結	zh_TW
dc.title	An anatomical study of cerebellum projection to anterior cingulate cortex through thalamus	en
dc.type	Thesis
dc.date.schoolyear	103-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	陳瑞芬(Ruei-Feng Chen),蔡孟利(Meng-Li Tsai),高淑芬(Shur-Fen Gau),賴文崧(Wen-Sung Lai)
dc.subject.keyword	小腦深部核,邊緣系統,神經追蹤劑,視丘內背側核,板內側核,	zh_TW
dc.subject.keyword	deep cerebellar nuclei,limbic cortex,neuronal tracer,mediodorsal thalamic nucleus,intralaminar nuclei,	en
dc.relation.page	74
dc.rights.note	有償授權
dc.date.accepted	2015-02-13
dc.contributor.author-college	生命科學院	zh_TW
dc.contributor.author-dept	生命科學系	zh_TW
顯示於系所單位：	生命科學系

文件中的檔案：

檔案	大小	格式
ntu-104-1.pdf 未授權公開取用	7.39 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。