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Bibliografía Hadigan CM, Kissileff HR, Walsh BT (1989) Patterns of food selection during meals in women with bulimia. The American journal of clinical nutrition 50:759‐766. Hagan JJ, Leslie RA, Patel S, Evans ML, Wattam TA, Holmes S, Benham CD, Taylor SG, Routledge C, Hemmati P, Munton RP, Ashmeade TE, Shah AS, Hatcher JP, Hatcher PD, Jones DN, Smith MI, Piper DC, Hunter AJ, Porter RA, Upton N (1999) Orexin A activates locus coeruleus cell firing and increases arousal in the rat. Proceedings of the National Academy of Sciences of the United States of America 96:10911‐10916. Hahn TM, Breininger JF, Baskin DG, Schwartz MW (1998) Coexpression of Agrp and NPY in fasting‐activated hypothalamic neurons. Nature neuroscience 1:271‐272. Hajnal A, Smith GP, Norgren R (2004) Oral sucrose stimulation increases accumbens dopamine in the rat. American journal of physiology Regulatory, integrative and comparative physiology 286:R31‐37. Hamamura M, Leng G, Emson PC, Kiyama H (1991) Electrical activation and c‐fos mRNA expression in rat neurosecretory neurones after systemic administration of cholecystokinin. The Journal of physiology 444:51‐63. Harris GC, Wimmer M, Aston‐Jones G (2005) A role for lateral hypothalamic orexin neurons in reward seeking. Nature 437:556‐559. Hasue RH, Shammah‐Lagnado SJ (2002) Origin of the dopaminergic innervation of the central extended amygdala and accumbens shell: a combined retrograde tracing and immunohistochemical study in the rat. The Journal of comparative neurology 454:15‐ 33. Heinonen MV, Purhonen AK, Makela KA, Herzig KH (2008) Functions of orexins in peripheral tissues. Acta Physiol (Oxf) 192:471‐485. Herdegen T, Leah JD (1998) Inducible and constitutive transcription factors in the mammalian nervous system: control of gene expression by Jun, Fos and Krox, and CREB/ATF proteins. Brain research Brain research reviews 28:370‐490. Hernandez L, Hoebel BG (1988) Food reward and cocaine increase extracellular dopamine in the nucleus accumbens as measured by microdialysis. Life sciences 42:1705‐1712. Herrera DG, Robertson HA (1996) Activation of c‐fos in the brain. Progress in neurobiology 50:83‐107. Hersrud SL, Stoltenberg SF (2009) Epistatic interaction between COMT and DAT1 genes on eating behavior: a pilot study. Eating behaviors 10:131‐133. Hervieu GJ, Cluderay JE, Harrison DC, Roberts JC, Leslie RA (2001) Gene expression and protein distribution of the orexin‐1 receptor in the rat brain and spinal cord. Neuroscience 103:777‐797. Hewson AK, Dickson SL (2000) Systemic administration of ghrelin induces Fos and Egr‐1 proteins in the hypothalamic arcuate nucleus of fasted and fed rats. Journal of neuroendocrinology 12:1047‐1049. Hietala J, West C, Syvalahti E, Nagren K, Lehikoinen P, Sonninen P, Ruotsalainen U (1994) Striatal D2 dopamine receptor binding characteristics in vivo in patients with alcohol dependence. Psychopharmacology 116:285‐290. Hillman JB, Tong J, Tschop M (2011) Ghrelin biology and its role in weight‐related disorders. Discovery medicine 11:521‐528. Hollander JA, Carelli RM (2007) Cocaine‐associated stimuli increase cocaine seeking and activate accumbens core neurons after abstinence. The Journal of neuroscience : the official journal of the Society for Neuroscience 27:3535‐3539. 142
Bibliografía Hotta M, Ohwada R, Akamizu T, Shibasaki T, Takano K, Kangawa K (2009) Ghrelin increases hunger and food intake in patients with restricting‐type anorexia nervosa: a pilot study. Endocrine journal 56:1119‐1128. Howard AD, Feighner SD, Cully DF, Arena JP, Liberator PA, Rosenblum CI, Hamelin M, Hreniuk DL, Palyha OC, Anderson J, Paress PS, Diaz C, Chou M, Liu KK, McKee KK, Pong SS, Chaung LY, Elbrecht A, Dashkevicz M, Heavens R, Rigby M, Sirinathsinghji DJ, Dean DC, Melillo DG, Patchett AA, Nargund R, Griffin PR, DeMartino JA, Gupta SK, Schaeffer JM, Smith RG, Van der Ploeg LH (1996) A receptor in pituitary and hypothalamus that functions in growth hormone release. Science 273:974‐977. Hyman SE, Malenka RC, Nestler EJ (2006) Neural mechanisms of addiction: the role of rewardrelated learning and memory. Annual review of neuroscience 29:565‐598. Iemolo A, Blasio A, St Cyr SA, Jiang F, Rice KC, Sabino V, Cottone P (2013) CRF‐CRF1 receptor system in the central and basolateral nuclei of the amygdala differentially mediates excessive eating of palatable food. Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology 38:2456‐2466. Ikemoto S (2007) Dopamine reward circuitry: two projection systems from the ventral midbrain to the nucleus accumbens‐olfactory tubercle complex. Brain Res Rev 56:27‐78. Ikemoto S (2010) Brain reward circuitry beyond the mesolimbic dopamine system: a neurobiological theory. Neuroscience and biobehavioral reviews 35:129‐150. Ikemoto S, Panksepp J (1999) The role of nucleus accumbens dopamine in motivated behavior: a unifying interpretation with special reference to reward‐seeking. Brain research Brain research reviews 31:6‐41. Ikemoto S, Qin M, Liu ZH (2005) The functional divide for primary reinforcement of D‐ amphetamine lies between the medial and lateral ventral striatum: is the division of the accumbens core, shell, and olfactory tubercle valid? The Journal of neuroscience : the official journal of the Society for Neuroscience 25:5061‐5065. Ikemoto S, Qin M, Liu ZH (2006) Primary reinforcing effects of nicotine are triggered from multiple regions both inside and outside the ventral tegmental area. The Journal of neuroscience : the official journal of the Society for Neuroscience 26:723‐730. Inglis IR (1996) Foraging behaviour of wild rats (Rattus norvegicus) towards new foods and bait containers. Applied animal behavior science 47:175 – 190. Ito R, Robbins TW, Everitt BJ (2004) Differential control over cocaine‐seeking behavior by nucleus accumbens core and shell. Nature neuroscience 7:389‐397. Jasnow AM, Davis M, Huhman KL (2004) Involvement of central amygdalar and bed nucleus of the stria terminalis corticotropin‐releasing factor in behavioral responses to social defeat. Behavioral neuroscience 118:1052‐1061. Jerlhag E, Egecioglu E, Dickson SL, Douhan A, Svensson L, Engel JA (2007) Ghrelin administration into tegmental areas stimulates locomotor activity and increases extracellular concentration of dopamine in the nucleus accumbens. Addiction biology 12:6‐16. Jerlhag E, Egecioglu E, Dickson SL, Svensson L, Engel JA (2008) Alpha‐conotoxin MII‐sensitive nicotinic acetylcholine receptors are involved in mediating the ghrelin‐induced locomotor stimulation and dopamine overflow in nucleus accumbens. European neuropsychopharmacology : the journal of the European College of Neuropsychopharmacology 18:508‐518. Jerlhag E, Engel JA (2011) Ghrelin receptor antagonism attenuates nicotine‐induced locomotor stimulation, accumbal dopamine release and conditioned place preference in mice. Drug and alcohol dependence 117:126‐131. 143
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UNIVERSIDAD NACIONAL DE LA PLATA FA
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Índice Abreviaturas……………
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5
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Introducción específicas como el
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Introducción Dentro de cada aspect
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Introducción Las neuronas de los n
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Introducción varios núcleos, como
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Introducción que eventualmente lle
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Introducción datos sugieren que la
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Introducción ACe, áreas corticale
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Introducción La ghrelina es secret
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Introducción Como se mencionó ant
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Introducción muy frecuentes, es de
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Introducción Por otro lado, se ha
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Introducción 4. MODELOS EXPERIMENT
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Introducción Hietala et al., 1994,
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Objetivos OBJETIVO GENERAL El objet
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35
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Materiales y Métodos la Comisión
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Materiales y Métodos − − Tioni
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Materiales y Métodos (Perello et a
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Materiales y Métodos una cámara c
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Materiales y Métodos inyectados bi
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Materiales y Métodos derecha para
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Materiales y Métodos 6.2.4 IHQ flu
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Materiales y Métodos 6.3 Análisis
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Materiales y Métodos corregidos po
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Materiales y Métodos Para comparar
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Resultados 1. ESTUDIO DE LOS CIRCUI
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Resultados 59
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Resultados 61
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Resultados En el AVT, también se o
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Resultados 1.3 Un único evento de
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Resultados el HLat fueron las que s
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Resultados 1.5 El bloqueo del recep
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Resultados Además de afectar la ca
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Resultados 1.6 Las neuronas product
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Resultados 75
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Resultados − Utilización de rato
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Resultados Con el objetivo de deter
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Resultados Por último, para determ
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Resultados 2. ESTUDIO DE LOS CIRCUI
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Resultados 2.2 La actividad locomot
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Resultados 87
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Resultados 89
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Page 95 and 96: Resultados [caparazón medial: t(5)
Page 97 and 98: Resultados que para los animales de
Page 99 and 100: Resultados 2.9 La administración d
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Page 107 and 108: Discusión saciados, y que la expos
Page 109 and 110: Discusión mRNA de neuropéptidos y
Page 111 and 112: Discusión alimentación (Palmiter,
Page 113 and 114: Discusión neuronas productoras de
Page 115 and 116: Discusión 2004, Kelley et al., 200
Page 117 and 118: Discusión orexina no afectó el es
Page 119 and 120: Discusión ingirieron DRG en cuatro
Page 121 and 122: Discusión utilizadas, como el tipo
Page 123 and 124: Discusión Actualmente, existe evid
Page 125 and 126: Discusión La ingesta de DRG en for
Page 127 and 128: Discusión neuronas CRF de la amíg
Page 129 and 130: Discusión el sistema ghrelina‐GH
Page 131 and 132: Conclusiones En conclusión, los re
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Page 135 and 136: Bibliografía receptor‐mediated i
Page 137 and 138: Bibliografía Bugnon C, Fellmann D,
Page 139 and 140: Bibliografía Davis C, Levitan RD,
Page 141: Bibliografía Gama Sosa MA, De Gasp
Page 145 and 146: Bibliografía Kojima S, Nakahara T,
Page 147 and 148: Bibliografía Mason BL, Wang Q, Zig
Page 149 and 150: Bibliografía Palmiter RD (2007) Is
Page 151 and 152: Bibliografía Saper CB (1982) Conve
Page 153 and 154: Bibliografía Swart I, Jahng JW, Ov
Page 155 and 156: Bibliografía Zahm DS (2000) An int
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