Relación entre estimulación ambiental, estrés y sexo en tareas de ansiedad, exploración y memoria en ratas Wistar

Bastidas Suárez, Douglas Mauricio

dc.contributor.advisor	García Becerra, Andrea Milena
dc.contributor.author	Bastidas Suárez, Douglas Mauricio
dc.date.accessioned	2019-02-18T16:41:35Z
dc.date.available	2019-02-18T16:41:35Z
dc.date.issued	2018-03-09
dc.identifier.uri	http://hdl.handle.net/10818/35011
dc.description	41	es_CO
dc.description.abstract	El uso de modelos animales, ha permitido una adecuada comprensión de diversos factores como el enriquecimiento ambiental, el estrés o la ansiedad. En este estudio se analizó el papel que cumple como modulador el enriquecimiento ambiental a temprana edad en ratas, sobre el efecto del estrés en comportamientos relacionados con ansiedad, exploración y memoria en ratas macho y hembras adultas, el enriquecimiento ambiental se realizó desde el día 8 de vida hasta el día 21, posteriormente fueron separadas aleatoriamente en ocho grupos (n=10), teniendo en cuenta condiciones de: 1. Protocolo de estrés, 2. Sexo, 3. Enriquecimiento ambiental.	es_CO
dc.format	application/pdf	es_CO
dc.language.iso	spa	es_CO
dc.publisher	Universidad de La Sabana	es_CO
dc.rights	Attribution-NonCommercial-NoDerivatives 4.0 International	*
dc.rights.uri	http://creativecommons.org/licenses/by-nc-nd/4.0/	*
dc.source	Universidad de La Sabana
dc.source	Intellectum Repositorio Universidad de La Sabana
dc.subject	Ratas Wistar	es_CO
dc.subject	Memoria	es_CO
dc.subject	Stress (Psicología)	es_CO
dc.title	Relación entre estimulación ambiental, estrés y sexo en tareas de ansiedad, exploración y memoria en ratas Wistar	es_CO
dc.type	masterThesis	es_CO
dc.publisher.program	Maestría en Psicología	es_CO
dc.publisher.department	Facultad de Psicología	es_CO
dc.identifier.local	268370
dc.identifier.local	TE09568
dc.type.hasVersion	publishedVersion	es_CO
dc.rights.accessRights	restrictedAccess	es_CO
dc.creator.degree	Magíster en Psicología	es_CO
dcterms.references	Ahmadalipour, A.; Sadeghzadeh, J.; Vafaei, A.; Bandegi, A.; Mohammadkhani, R. & Rashidy-Pour A. (2015). Effects of environmental enrichment on behavioral deficits and alterations in hippocampal BDNF induced by prenatal exposure to morphine in juvenile rats. Neuroscience 305. 372–383	eng
dcterms.references	Altemus M. 2006. Sex differences in depression and anxiety disorders: Potential biological determinants. Horm Behav 50:534–538.	eng
dcterms.references	Anderson, E. M., et al. Defensive burying as an ethological approach to studying anxiety: Influence of juvenile methamphetamine on adult defensive burying behavior in rats. Learning and Motivation (2017), http://dx.doi.org/10.1016/j.lmot.2017.02.001	eng
dcterms.references	Baddeley, A.; Allen, R.; Hitch, G. (2011). Binding in visual working memory: The role of the episodic buffer. Neuropsychologia 49, pp. 1393–1400. doi:10.1016/j.neuropsychologia.2010.12.042	eng
dcterms.references	Baumans, V. & Van Loo, P.L. (2013). How to improve housing condition of laboratory animals: The possibilities of environmental enrichment. Veterinary Journal, 195, 24-32.	eng
dcterms.references	Beishuizen A & Thijs LG. (2001) Relative adrenal insufficiency in intensive care: an identifiable problem requiring treatment? Best Pract Res Clin Endocrinol Metabol;15:513-31.	eng
dcterms.references	Bekinschtein P, Omen CA, Saksida LM, Bussey TJ (2011) Effects of environmental enrichment and voluntary exercise on neurogenesis, learning and memory, and pattern separation: BDNF as a critical variable? Sem Cell Dev Biol 22:536–542.	eng
dcterms.references	Bennett, K., Manassis, K., Duda, S., Bagnell, A., Bernstein, G.A., Garland, E.J., Miller, L.D., Newton, A., Thabane, L. & Wilansky, P., (2016) Treating child and adolescent anxiety eff ectively: Overview of systematic reviews, Clinical Psychology Review. doi: 10.1016/j.cpr.2016.09.006	eng
dcterms.references	Bourin, M., & Hascoët, M. (2003). The mouse light/dark box test. European Journal of Pharmacology, 463, 55–65. https://doi.org/10.1016/S0014-2999(03)01274-3	eng
dcterms.references	Bourin, M., Petit-Demoulière, B., Dhonnchadha, B. N., & Hascöet, M. (2007). Animal models of anxiety in mice. Fundamental & Clinical Pharmacology, 21, 567–574 DOI: 10.1111/j.1472-8206.2007.00526.x	eng
dcterms.references	Cahill, L. (2000). Neurobiological mechanisms of emotionally influenced, long-term memory. Progress in Brain Research, Vol. 126, p. 29-37	eng
dcterms.references	Campos, A.; Fogaca, M.; Aguiar, D. & Guimaraes, F. (2013) Animal models of anxiety disorders and stress. Revista Brasileira de Psiquiatria. 35: p. 101–S11. doi:10.1590/1516-4446-2013-1139	eng
dcterms.references	Cardenas FP, Lamprea MR and Morato S (2001): XPloRat: freeware for animal recording, In press	eng
dcterms.references	Carobrez, A.P. & Bertoglio L.J.; (2005). Ethological and temporal analyses of anxiety-like behavior: the elevated plus-maze model 20 years on. Neuroscience and Biobehavioral Reviews 29: P.1193–1205	eng
dcterms.references	Carrillo, L., Lizarazo, I., Morales, F., Salgado, S. & Torres, D. (2014), Efecto del aislamiento social sobre la ansiedad y la memoria episódica en ratas wistar macho. Revista Laberinto, Vol. 14, No. 1, pp. 22-31.	eng
dcterms.references	Chang, Y.J., Yang, C.H., Liang, Y.C., Yeh, C.M., Huang, C.C., & Hsu, K. S. (2009). Estrogen modulates sexually dimorphic contextual fear extinction in rats through estrogen receptor β. Hippocampus, 19, 1142-1150.	eng
dcterms.references	Chen DY, Bambah-Mukku D, Pollonini G, Alberini CM (2012): Glucocorticoid receptors recruit the CaMKIIalphaBDNF-CREB pathways to mediate memory consolidation. Nat Neurosci 15:1707–1714. doi:10.1038/nn.3266	eng
dcterms.references	Cooper MS & Stewart PM (2003). Corticosteroid insufficiency in acutely ill patients. N Engl J Med; 348:727-34.	eng
dcterms.references	Dere, E., Kart-Teke, E., Huston, J., & De Souza Silva, M. (2006). !e case for episodic memory in animals. Neuroscience and Biobehavioural Reviews, 30, 1206-1224.	eng
dcterms.references	Devanand B, Shapira F, Petty G, Kramer L, FitzsimonsB, Lerer, Sackeim H. (1995), Effects of electroconvulsivetherapy on plasma GABA (A). Convulsive Therapy11, pp 3-13	eng
dcterms.references	Diaz, R.; Maidana, P.; Ferrary, B.; Deola, H.; Barbosa, S.; Padiha, M.; Cruz-Höfling, M. & Orlandi, L. (2016). Environmental enrichment attenuates the blood brain barrier dysfunction induced by the neonatal hypoxia-ischemia, International Journal of Developmental Neuroscience: P. 35-45.	eng
dcterms.references	Duffy SN, Craddock KJ, Abel TV, Nguyen P (2001) Environmental enrichment modifies the PKA-dependence of Hippocampal LTP and improves hippocampus-dependent memory. Learn Mem 8 (1):26–34.	eng
dcterms.references	Duval, F.; González, F. & Rabia, H. (2010). Neurobiología del estrés. Rev Chil NeuroPsiquiat 2010; 48 (4): 307-318	eng
dcterms.references	Garcia, L.I.; Garcia-Bañuelos, P.; Aranda-Abreu, G.E.; Herrera-Meza, G.; Coria-Avila, G.A. & Manzo, J. (2015) Activación del cerebelo por estimulación olfativa en ratas macho sexualmente inexpertas. Neurología 30(5): P. 264-269.	eng
dcterms.references	Goriounova, N. A., & Mansvelder, H. D. (2012). Short- and long-term consequences of nicotine exposure during adolescence for prefrontal cortex neuronal network function. Cold Spring Harbor perspectives in medicine, 2(12), a012120. doi:10.1101/cshperspect.a012120	eng
dcterms.references	Hamrahian AH, Oseni TS & Arafah (2004). Measurements of serum free cortisol in critically ill patients. N Engl J Med;350: 1629-38.	eng
dcterms.references	Hernández-Arteaga, E.; Hernández-González, M.; Ramírez- Rentería, M.; AlmanzaSepúlveda, M.; Guevara, M.; Arteaga Silva. M. & Bonilla Jaime, H. (2016). Prenatal stress alters the developmental pattern of behavioral indices of sexual maturation and copulation in male rats. Physiology & Behavior 163 p. 251–257.	eng
dcterms.references	Hughes RN & Collins MA (2010) Enhanced habituation and decreased anxiety by environmental enrichment and possible attenuation of these effects by chronic alpha-tocopherol (vitamin E) in aging male and female rats. Pharmacol Biochem Behav 94:534–542	eng
dcterms.references	Jun-Hong Dong, Yi-Jing Wang, Min Cui, Xiao-Jing Wang, Wen-Shuai Zheng, Ming-Liang Ma, Fan Yang, Dong-Fang He, Qiao-Xia Hu, Dao-Lai Zhang, Shang-Lei Ning, Chun-Hua Liu, Chuan Wang, Yue Wang, Xiang-Yao Li, Fan Yi, Amy Lin, Alem W. Kahsai, Thomas Joseph Cahill III, Zhe-Yu Chen, Xiao Yu, & Jin-Peng Sun (2017). Adaptive Activation of a Stress Response Pathway Improves Learning and Memory Through Gs and β-Arrestin-1–Regulated Lactate Metabolism. Biological Psychiatry April 15; 81:654–670. https://doi.org/10.1016/j.biopsych.2016.09.025	eng
dcterms.references	Jurney TH, Cockrell JL Jr, Lindberg JS, Lamiell JM & Wade CE (1987). Spectrum of serum cortisol response to ACTH in ICU patients. Correlation with degree of illness and mortality. Chest;92:292-5.	eng
dcterms.references	Kass MD, Rosenthal MC, Pottackal J, McGann JP (2013): Fear learning enhances neural responses to threat-predictive sensory stimuli. Science 342:1389–1392. DOI: 10.1126/science.1244916	eng
dcterms.references	Lavilla Cerdán, L. (2011) La memoria en el proceso de enseñanza/aprendizaje. Pedagogía Magna, febrero 11; pp. 311-319. www.pedagogiamagna.com	spa
dcterms.references	Leger M, Quiedeville A, Paizanis E, Natkunarajah S, Freret T, Boulouard M, SchumannBard P (2012) Environmental enrichment enhances episodic-like memory in association with a modified neuronal activation profile in adult mice. PLoS One 7: e48043.	eng
dcterms.references	Leira Permuy M.S. (2011). Manual de bases biológicas del comportamiento humano. Universidad de la República. ISBN: 978-9974-0-0846-5. Montevideo – Uruguay	spa
dcterms.references	Leon, D. y Dueñas, Z. (2012). Efectos de la separación materna temprana sobre el desempeño en el laberinto en cruz elevado en ratas adultas. Acta biol. Colomb., Vol. 17 n.º 1, 129 – 142	spa
dcterms.references	Leussism M. P. & Andersen, S. L. (2008). Is adolescence a sensitive period for depression? Behavorial and neuroanatomical findings from a social stress model. Synapse, Vol. 62, pp. 22-30	eng
dcterms.references	Maheu,F.; Joober, R.; Lupien, S. (2005) Declarative Memory after Stress in Humans: Differential Involvement of the β -Adrenergic and Corticosteroid Systems. J Clin Endocrinol Metab, 90(3):1697–1704	eng
dcterms.references	Manzo, J.; Miquel, M.; Toledo, R.; Mayor-Mar, J.; Garcia, L.; Aranda-Abreu, G.; Cabra, M. & Hernandez, M. E. (2008). Fos expression at the cerebellum following noncontact arousal and mating behavior in male rats. Physiology and behavior (93), P. 357-363.	eng
dcterms.references	Martínez-Díaz, García, Hernández & Aranda-Abreu (2015). Effects on locomotion and memory in 2 models of cerebral hypoperfusion in male wistar rats. Neurología 30(7): P. 407-415.	eng
dcterms.references	Mauss, I. y Robinson, M. (2009) Measures of emotion: A review. Cogn Emot. February 1; 23(2): 209–237. doi:10.1080/02699930802204677.	eng
dcterms.references	Moreno, L., Lamprea, M. & Duenas, Z. (2009). Diferencias en los comportamientos asociados con la ansiedad de ratas macho y hembra expuestas a un protocolo de estrés crónico por separación maternal temprana. Suma Psicológica, Vol. 16 N° 1, Junio, pp. 31-43, ISSN 0121-4381	spa
dcterms.references	Morgan, C., Novak, I., & Badawi, N. (2013). Enriched environments and motor outcomes in cerebral palsy: systematic review and meta-analysis. Pediatrics, 132(3), e735- 746. doi:10.1542/peds.2012-3985	eng
dcterms.references	Mumby, D. (2001). Perspectives on object-recognition memory following hippocampal damage: Lessons from studies in rats. Behavioural Brain Research, 127, 159–181	eng
dcterms.references	Nemeroff CB, Bremner JD, Foa EB, Mayberg HS, North CS, Stein MB. 2006. Posttraumatic stress disorder: A state-of-the-science review. J Psychiatr Res 40:1–21.	eng
dcterms.references	Ozer, E. M., Adams, S. H., Gardner, L. R., Mailloux, D. E., Wibbelsman, C.J., Irwin, C.E. (2004). Provider Self-Efficacy and the Screening of Adolescents for Risky Health Behaviors. Journal of adolescent health, 35:101–107.	eng
dcterms.references	Patel, T. R. (2012). Environmental enrichment: aging and memory. The Yale journal of biology and medicine, 85(4), 491-500.	eng
dcterms.references	Pizzorusso T, Berardi N, Maffei L (2007) A richness that cures. Neuron 54:508–510	eng
dcterms.references	Prut, L., & Belzung, C. (2003). The open field as a paradigm to measure the effects of drugs on anxiety-like behaviors: A review. European Journal of Pharmacology, 463, 3–33	eng
dcterms.references	Radahmandi, M.; Alaei, H.; Reza Sharifi, M. & Hosseini, N. (2017) Stress biomarker responses to different protocols of forced exercise in chronically stressed rats. Journal of Bodywork & Movement Therapies 21, p. 63 – 68	eng
dcterms.references	Redolat, R. & Mesa-Gresa, P. (2012) Potential Benefits and Limitations of Enrichment Environments and Cognitive Activity on Age-Related Behavioural Decline. Curr Topics Behav Neurosci (2012) 10: 293–316, DOI: 10.1007/7854_2011_134	eng
dcterms.references	Rodgers, RJ, Cao, C-J, Dalvi, A. & Holmes, A. (1997) Animal models of anxiety: an ethological perspective. Brazilian Journal of Medical and Biological Research 30 (3): 289-304	eng
dcterms.references	Sale A, Berardi N, Maffei L (2014) Environment and brain plasticity: towards an endogenous pharmacotherapy. Phisiol Rev 94:189–234	eng
dcterms.references	Sanz, N.; Leret, M. & Rúa, C. (2014) Efecto del estrés postnatal temprano en los procesos cognitivos en rata: estudio morfo funcional (Tesis de Doctorado). Universidad Complutense de Madrid. Madrid - España	spa
dcterms.references	Schuetz P & Müller B (2006). The hypothalamic-pituitary-adrenal axis in critical illness. Acute endocrinology. Endocrinol Metabol Clin North Am: 35:823-38.	eng
dcterms.references	Shukla, R.; Gupta, R.; Srivastava, P.; Dhuriya, Y.; Singh, A.; Chandravanshi, L.; Kumar, A.; Haris Saddiqui, M.; Parmar, D.; Pant, A. & Khanna, V. (2016). Brain Cholinergic alterations in rat subjected to repeated immobilization or forced swim stress on lambda-cyhalothrin exposure. Neurochemestry international 93: P. 51-63.	eng
dcterms.references	Sierra, J. C.; Ortega, V. y Zubeidat, I. (2003). Ansiedad, angustia y estrés: tres conceptos a diferenciar. revista mal-estar e subjetividade, Fortaleza – Brasil, Vol. 3, No. 1, pp. 10 – 59	spa
dcterms.references	Simpson, J. & Kelly, J. P. (2011). The impact of environmental enrichment in laboratory rats—Behavioural and neurochemical aspects. Behavioural Brain Research 222 pp. 246–264.	eng
dcterms.references	Soares, R.; Oliveira, L.; Marchini, J.; Rodrigues, J.; Elias, L. & Almeida, S. (2013). Effects of early protein malnutrition and environmental stimulation on behavioral and biochemical parameters in rats submitted to the elevated plus-maze test. Nutritional Neuroscience: P. 104-112.	eng
dcterms.references	Soares, R.; Oliveira, L.; Marchini, J.; Rodrigues, J.; Elias, L. & Almeida, S. (2015). Environmental enrichment reverses reduction in glucocorticoid receptor expression in the hippocampus of and improves behavioral responses of anxiety in early malnourished rats. Brain research: 32-41.	eng
dcterms.references	Spear, L. P. (2000). The adolescent brain and age-related behavioral manifestations. Neuroscience and biobehavioral reviews, 24(4), 417-463.	eng
dcterms.references	Steimer T. (2002) The biology of fear- and anxiety-related behaviors. Dialogues Clin Neurosci. 4 p. 123-137.	eng
dcterms.references	Steimer, T. (2011) Animal models of anxiety disorders in rats and mice: some conceptual issues. Dialogues Clin Neurosci. 13 p. 495-506.	eng
dcterms.references	Tang, X.; Li, J.; Jiang, T.; Shu-Hui, H. & Dong-Yuan, Y. (2017) Experimental occlusal disharmony – A promoting factor for anxiety in rats under chronic psychological stress. Progress in Neuro-Psychopharmacology & Biological Psychiatry 75 p. 165– 175.	eng
dcterms.references	Thiel, K. J., Pentkowski, N. S., Peartree, N. A., Painter, M. R., & Neisewander, J. L. (2010). Environmental living conditions introduced during forced abstinence alter cocaine-seeking behavior and Fos protein expression. Neuroscience, 171(4), 1187- 1196. doi:10.1016/j.neuroscience.2010.10.001	eng
dcterms.references	Torres, A., Vargas, V., Múnera, A. & Lamprea, M. (2007). Evaluación de preferencia por la forma o la textura de dos tipos de objetos en ratas Wistar. Revista colombiana de psicología no. 16 ISSN 0121-5469 Bogotá Colombia pp. 49 – 56	spa
dcterms.references	Van Praag H, Kempermann G, Gage FH (2000) Neural consequences of environmental enrichment. Nature Rev Neurosci 1:191–198.	eng
dcterms.references	Walf, A. A., & Frye, C. A. (2007). The use of the elevated plus maze as an assay of anxiety-related behavior in rodents. Nature Protocols, 2, 322–328	eng
dcterms.references	Watt, M. J., Burke, A. R., Renner, K. J., & Forster, G. L. (2009). Adolescent male rats exposed to social defeat exhibit altered anxiety behavior and limbic monoamines as adults. Behavioral neuroscience, 123(3), 564-576. doi:10.1037/a0015752	eng
dcterms.references	Weintraub, A., Singaravelu, J., & Bhatnagar, S. (2010). Enduring and sex-specific effects of adolescent social isolation in rats on adult stress reactivity. Brain research, 1343, 83-92. doi:10.1016/j.brainres.2010.04.068	eng
dcterms.references	Xiao R. Sun; Hui Zhang; Hong T. Zhao; Mu H. Ji; Hui H. Li; Jing Wu; Kuan Y. Li & Jian J. Yang. (2016). Amelioration of oxidative stress-induced phenotype loss of parvalbumin interneurons might contribute to the beneficial effects of environmental enrichment in a rat model of post-traumatic stress disorder. Behavioural Brain Research 312. 84–92	eng
dcterms.references	Yildirim, E., Erol, K. & Ulupinar E. (2012). Effects of sertraline on behavioral alterations caused by environmental enrichment and social isolation. Pharmacology, Biochemistry and Behavior 101, 278–287.	eng
dcterms.references	Zaidan, H. & Gaisler-Salomon, I. (2015). Prereproductive stressin adolescent female rats affect behavior and corticosterone levels in second-generation offspring. Psychoneuroendocrinology 58: P. 120-129.	eng
dcterms.references	Zeeb, F. D., Wong, A. C., & Winstanley, C. A. (2013). Differential effects of environmental enrichment, social-housing, and isolation-rearing on a rat gambling task: dissociations between impulsive action and risky decision-making. Psychopharmacology, 225(2), 381-395. doi:10.1007/s00213-012-2822-x	eng