Mostrar el registro sencillo del documento

Endofenotipos neuropsicológicos y estudio de asociación de 4 polimorfismos -SNPS- en pacientes con diagnóstico de esquizofrenia en una muestra colombiana

dc.rights.licenseAtribución-NoComercial-SinDerivadas 4.0 Internacional
dc.contributor.advisorArboleda Granados, Humberto
dc.contributor.authorVanegas Torres, Marìa Teresa
dc.date.accessioned2020-08-07T03:39:16Z
dc.date.available2020-08-07T03:39:16Z
dc.date.issued2017-11-23
dc.identifier.citationVanegas,M. T. (2020).Endofenotipos neuropsicológicos y estudio de asociación de 4 polimorfismos -snps- en pacientes con diagnóstico de esquizofrenia en una muestra colombiana. [Tesis de maestría, Universidad Nacional de Colombia]. Repositorio Institucional UN. https://repositorio.unal.edu.co/ldap-login
dc.identifier.urihttps://repositorio.unal.edu.co/handle/unal/77978
dc.description.abstractDurante las últimas décadas se han realizado grandes esfuerzos para entender la etiología y patología de la esquizofrenia, sin embargo, en Colombia los estudios de investigación en genética de las enfermedades neuropsiquiátricas son escasos, y no correlacionan el déficit cognitivo presente en los pacientes, con la investigación básica de transmisión de la herencia biológica. En este sentido, se realizó la caracterización de endofenotipos neuropsicológicos y se estableció la asociación de los polimorfismos -SNPs- de los genes COMT (rs4680-Val158Met), GRM3 (rs6465084), NOTCH4 (rs3131296) y CACNA1C (rs2007044) en una muestra Colombiana de pacientes con diagnóstico de Esquizofrenia y un grupo control. Los sujetos fueron seleccionados de la Asociación Colombiana de personas con Esquizofrenia y sus Familias, de la Unidad de Servicios de Salud Santa Clara de la Subred Integrada de Servicios de Salud Centro Oriente E.S.E., y de la población general. La metodología fue consecuente con un diseño transversal con un alcance descriptivo, además, de una orientación epidemiológica de un estudio de asociación a través de un diseño de "Casos y Controles". El protocolo de evaluación estuvo integrado por la algunas subpruebas de la Entrevista Diagnóstica para Estudios Genéticos, que permitió realizar una caracterización de los sujetos explorando los datos personales, los antecedentes psiquiátricos y el tratamiento farmacológico; de igual manera, se realizó la caracterización de los endofenotipos neuropsicológicos mediante la Batería Neuropsicológica de Funciones Ejecutivas y lóbulos Frontales (BANFE -II), y se tomó la toma de una muestra de sangre para la obtención de ADN. Los resultados dejaron en evidencia que no hubo una asociación positiva entre los 4 polimorfismos y la esquizofrenia, ya que los niveles de significancia están por encima de p=>0,05 y predomina en ambos grupos el alelo ancestral para los polimorfismos estudiados. En cuanto al desempeño en las tareas que evalúan memoria de trabajo, flexibilidad cognitiva, control inhibitorio y toma de decisiones, relacionadas con el área orbitomedial y dorsolateral de la corteza prefrontal se observó diferencias estadísticamente significativas entre los casos y los controles, mostrando peor desempeño los participantes con esquizofrenia. Con respecto a la asociación de los resultados genéticos con el perfil cognitivo, se encontró una asociación (sin discriminar casos y controles) de ser portador del alelo A para el gen COMT (rs4680) con peor rendimiento en la prueba Stroop que evalúa la capacidad para inhibir respuestas automáticas.
dc.description.abstractDuring the last decades, great efforts have been made to understand the etiology and pathology of schizophrenia, however, in Colombia research studies in genetics of neuropsychiatric diseases are scarce, and do not correlate the cognitive deficit present in patients, with Basic research on transmission of biological inheritance. In this sense, the characterization of neuropsychological endophenotypes was carried out and the association of the polymorphisms -SNPs- of the COMT genes (rs4680-Val158Met), GRM3 (rs6465084), NOTCH4 (rs3131296) and CACNA1C (rs2007044) was established in a Colombian sample of patients diagnosed with schizophrenia and a control group. The subjects were selected from the Colombian Association of People with Schizophrenia and their Families, the Santa Clara Health Services Unit of the Integrated Center for Health Services E.S.E., and the general population. The methodology was consistent with a cross-sectional design with a descriptive scope, in addition to an epidemiological orientation of an association study through a "Cases and Controls" design. The evaluation protocol was made up of some subtests of the Diagnostic Interview for Genetic Studies, which allowed for a characterization of the subjects exploring personal data, psychiatric history and pharmacological treatment; Similarly, the characterization of the neuropsychological endophenotypes was carried out using the Neuropsychological Battery of Executive Functions and Frontal Lobes (BANFE-II), and a blood sample was taken to obtain DNA. The results showed that there was no positive association between the 4 polymorphisms and schizophrenia, since the levels of significance are above p => 0.05 and the ancestral allele for the polymorphisms studied predominates in male groups. Regarding the performance in the tasks that evaluate working memory, cognitive flexibility, inhibitory control and decision-making, related to the orbitomedial and dorsolateral area of the prefrontal cortex, statistically significant differences were observed between cases and controls, showing worse performance, participants with schizophrenia. Regarding the association of the genetic results with the cognitive profile, an association (without discriminating cases and controls) was found to be a carrier of the A allele for the COMT gene (rs4680) with worse performance in the Stroop test that assesses the ability to inhibit automatic responses
dc.format.extent154
dc.format.mimetypeapplication/pdf
dc.language.isospa
dc.rightsDerechos reservados - Universidad Nacional de Colombia
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4.0/
dc.subject.ddc610 - Medicina y salud
dc.subject.ddc615 - Farmacología y terapéutica
dc.titleEndofenotipos neuropsicológicos y estudio de asociación de 4 polimorfismos -SNPS- en pacientes con diagnóstico de esquizofrenia en una muestra colombiana
dc.title.alternativeNeuropsychological endophenotypes and association study of 4 polymorphisms -SNPS- in patients with diagnosis of schizophrenia in a colombian sample
dc.typeOtro
dc.rights.spaAcceso abierto
dc.description.commentsLa presente investigaciòn se realizò con la participaciòn de la Asociaciòn Colombiana de Personas con Esquizofrenia y sus familias y la -Unidad de Servicios de Salud Santa Clara de la Subred Integrada de Servicios de Salud Centro Oriente E.S.E.
dc.type.driverinfo:eu-repo/semantics/other
dc.type.versioninfo:eu-repo/semantics/acceptedVersion
dc.publisher.programBogotá - Medicina - Maestría en Neurociencias
dc.contributor.corporatenameUniversidad Nacional de Colombia
dc.description.degreelevelMaestría
dc.publisher.branchUniversidad Nacional de Colombia - Sede Bogotá
dc.relation.referencesAberg, K. A., Liu, Y., Bukszár, J., McClay, J. L., Khachane, A. N., Andreassen, O. A., ... & Ophoff, R. (2013). A comprehensive family-based replication study of schizophrenia genes. JAMA psychiatry, 70(6), 573-581.
dc.relation.referencesAkil, M., Kolachana, B. S., Rothmond, D. A., Hyde, T. M., Weinberger, D. R., & Kleinman, J. E. (2003). Catechol-O-methyltransferase genotype and dopamine regulation in the human brain. Journal of Neuroscience, 23(6), 2008-2013.
dc.relation.referencesAlexander GE, DeLong MR, & Strick PL (1986) Parallel organization of functionally segregated circuits linking basal ganglia and cortex. Annual Review of Neuroscience, 9, 357–381.
dc.relation.referencesAmerican Psychiatric Association (2013). Manual diagnóstico y estadístico de los trastornos mentales. DSM V. Médica Panamericana.
dc.relation.referencesAntonova, E., Sharma, T., Morris, R., & Kumari, V. (2004). The relationship between brain structure and neurocognition in schizophrenia: a selective review. Schizophrenia research, 70(2), 117-145.
dc.relation.referencesAron, AR, Robbins, TW y Poldrack, RA (2004). Inhibition and the rigth inferior frontal cortex. Trends in cognitive sciences, 8 (4), 170-177.
dc.relation.referencesAylward, E., Walker, E., & Bettes, B. (1984). Intelligence in schizophrenia: meta-analysis of the research. Schizophrenia Bulletin, 10(3), 430-459.
dc.relation.referencesBarch, D. M. (2005). The cognitive neuroscience of schizophrenia. Annu. Rev. Clin. Psychol., 1, 321-353.
dc.relation.referencesBarch, D. M., Treadway, M. T., & Schoen, N. (2014). Effort, anhedonia, and function in schizophrenia: reduced effort allocation predicts amotivation and functional impairment. Journal of abnormal psychology, 123(2), 387.
dc.relation.referencesBembenek, A. (2005). [Seasonality of birth in schizophrenia patients. Literature review]. Psychiatric rehabilitation in Poland, 39, 259-270.
dc.relation.referencesBergen, S. E., & Petryshen, T. L. (2012). Genome-wide association studies (GWAS) of schizophrenia: does bigger lead to better results?. Current opinion in psychiatry, 25(2), 76.
dc.relation.referencesBergen, S. E., O'dushlaine, C. T., Ripke, S., Lee, P. H., Ruderfer, D. M., Akterin, S., ... & Ösby, U. (2012). Genome-wide association study in a Swedish population yields support for greater CNV and MHC involvement in schizophrenia compared with bipolar disorder. Molecular psychiatry, 17(9), 880-886.
dc.relation.referencesBetz, L. T., Brambilla, P., Ilankovic, A., Premkumar, P., Kim, M. S., Raffard, S., ... & Koutsouleris, N. (2019). Deciphering reward-based decision-making in schizophrenia: A meta-analysis and behavioral modeling of the Iowa Gambling Task. Schizophrenia research, 204, 7-15.
dc.relation.referencesBobo, W. V., Rapoport, J. L., Abi‐Dargham, A., Hossein Fatemi, S., & Meltzer, H. Y. (2015). The Neurobiology of Schizophrenia. Psychiatry, Fourth Edition, 303-319.
dc.relation.referencesBosia, M., Buonocore, M., Bechi, M., Stere, LM, Silvestri, MP, Inguscio, E., ... y Cavallaro, R. (2019). Schizophrenia, cannabis use and Catecol-O-Metiltransferasa (COMT): Modeling the interplay on cognition. Progress in Neuro-Psychopharmacology and Biological Psychiatry , 92 , 363-368.
dc.relation.referencesBowie CR & Harvey PD (2005) Cognition in schizophrenia: impairments, determinants, and functional importance. Psychiatric Clinics of North America, 28, 613–633.
dc.relation.referencesBowie CR & Harvey PD (2005) Cognition in schizophrenia: impairments, determinants, and functional importance. Psychiatric Clinics of North America, 28, 613–633.
dc.relation.referencesBoydell, J., Van Os, J., McKenzie, K., & Murray, R. M. (2004). The association of inequality with the incidence of schizophrenia. Social psychiatry and psychiatric epidemiology, 39(8), 597-599.
dc.relation.referencesBraff DL, Freedman R, Schork NJ, Gottesman II (2007) Deconstructing schizophrenia: an overview of the use of endophenotypes in order to understand a complex disorder. Schizophr Bull 33: 21–32.
dc.relation.referencesBratti I, Bilder R (2006) Neurocognitive deficits and first episode schizophrenia: characterization and course. In: Sharma T, Harvey PD (eds) The early course of schizophrenia. Oxford University Press, Oxford.
dc.relation.referencesBrown, A. S. (2006). Prenatal infection as a risk factor for schizophrenia. Schizophrenia Bulletin, 32, 200-202.
dc.relation.referencesBrown, S. (1997). Excess mortality of schizophrenia. A meta-analysis. The British Journal of Psychiatry, 171(6), 502-508.
dc.relation.referencesBunney WE & Bunney BG (2000) Evidence for a compromised dorsolateral prefrontal cortical parallel circuit in schizophrenia. Brain Research Reviews, 31, 138–146.
dc.relation.referencesByrne, M. et al. (2003). Parental age and risk of schizophrenia: a case-control study. Archives of General Psychiatry, 60, 673-678
dc.relation.referencesCannon TD, Zorrilla LE, Shtasel D, Gur RE, Gur RC, Marco EJ, Moberg P, Price A (1994) Neuropsychological functioning in siblings discordant for schizophrenia and healthy volun teers. Arch Gen Psychiatry 51:651 661
dc.relation.referencesCannon, M., Jones, P. B., & Murray, R. M. (2002). Obstetric complications and schizophrenia: historical and meta-analytic review. American Journal of Psychiatry, 159(7), 1080-1092.
dc.relation.referencesCardno, A. G.; & Gottesman, I. I. (2000). Twin studies of schizophrenia: From bowand-arrow concordances to Star Wars Mx and functional genomics. American Journal of Medical Genetics Part A 97:12-17.
dc.relation.referencesCarletti, F., Woolley, J. B., Bhattacharyya, S., Perez-Iglesias, R., Poli, P. F., Valmaggia, L., ... & Williams, S. C. (2012). Alterations in white matter evident before the onset of psychosis. Schizophrenia bulletin, 38(6), 1170-1179.
dc.relation.referencesCatts, V. S., Fung, S. J., Long, L. E., Joshi, D., Vercammen, A., Allen, K. M., ... & Tiwari, Y. (2013). Rethinking schizophrenia in the context of normal neurodevelopment. Frontiers in cellular neuroscience, 7, 60.
dc.relation.referencesClark, L., Chamberlain, S. R., & Sahakian, B. J. (2009). Neurocognitive mechanisms in depression: implications for treatment. Annual review of neuroscience, 32, 57-74
dc.relation.referencesColegio Colombiano de Psicológos. (2012). Deontología y Bioética del ejercicio de la Psicología en Colombia. Bogotá: Offsetgraf impresores S.A.S.
dc.relation.referencesCollin, G., & Keshavan, M. S. (2018). Connectome development and a novel extension to the neurodevelopmental model of schizophrenia. Dialogues in Clinical Neuroscience, 20(2), 101.
dc.relation.referencesCoronas, R., Arrufat, F. J., Domènech, C., & Cobo, J. V. (2002). Factores de riesgo de aparición de esquizofrenia. Psiquiatría Biológica, 9(3), 116-125.
dc.relation.referencesCorvin, A., & Sullivan, P. F. (2016). What Next in Schizophrenia Genetics for the Psychiatric Genomics Consortium?. Schizophrenia bulletin, 42(3), 538-541.
dc.relation.referencesCosgrove, D., Mothersill, O., Kendall, K., Konte, B., Harold, D., Giegling, I., ... & O’Donovan, M. C. (2017). Cognitive characterization of schizophrenia risk variants involved in synaptic transmission: evidence of CACNA1C's role in working memory. Neuropsychopharmacology, 42(13), 2612-2622.
dc.relation.referencesCreese, I., Burt, D. R., & Snyder, S. H. (1995). Dopamine receptor binding predicts clinical and pharmacological potencies of antischizophrenic drugs. The Journal of neuropsychiatry and clinical neurosciences, 8(2), 223-226.
dc.relation.referencesDavis, K. L., & Kahn, R. S. (1991). Dopamine in schizophrenia: a review and reconceptualization. The American journal of psychiatry, 148(11), 1474.
dc.relation.referencesDecreto 1571 de 1993 Nivel Nacional. Por el cual se Reglamenta Parcialmente el Título IX de la Ley 09 de 1979, en cuanto a Funcionamiento de Establecimientos Dedicados a la Extracción, Procesamiento, Conservación y Transporte de Sangre Total o de sus Hemoderivados, se Crean la Red Nacional de Bancos de Sangre y el Consejo Nacional de Bancos de Sangre y se dictan otras disposiciones sobre la materia. Fecha de Expedición, 12/08/1993. Medio de Publicación: Diario Oficial 40989 de agosto 12 de 1993.
dc.relation.referencesDi, F. M. et al. (2009). High-potency cannabis and the risk of psychosis. British Journal of Psychiatry, 195, 488-491.
dc.relation.referencesDickinson D, Ramsey ME, Gold JM (2007) Overlooking the obvious: a meta analytic comparison of digit symbol coding tasks and other cognitive measures in schizophrenia. Arch Gen Psychiatry 64:532 542
dc.relation.referencesDíez-Martín, J., Hoenicka, J., Martínez, I., Aragüés, M., Rodríguez-Jiménez, R., Jiménez-Arriero, M. Á., ... & Psychosis and Addiction Research Group. (2007). Polimorfismo Val158Met de COMT y esquizofrenia: estudio de asociación en una muestra de pacientes españoles. Medicina Clínica, 128(2), 41-44.
dc.relation.referencesDosing, A. (2010). Behavioral Neurobiology of Schizophrenia and Its Treatment.
dc.relation.referencesDouglas, K. S., Guy, L. S., & Hart, S. D. (2009). Psychosis as a risk factor for violence to others: a meta-analysis. Psychological bulletin, 135(5), 679.
dc.relation.referencesEgan, M. F., Goldberg, T. E., Kolachana, B. S., Callicott, J. H., Mazzanti, C. M., Straub, R. E., ... & Weinberger, D. R. (2001). Effect of COMT Val108/158 Met genotype on frontal lobe function and risk for schizophrenia. Proceedings of the National Academy of Sciences, 98(12), 6917-6922.
dc.relation.referencesEgan, MF, Straub, RE, Goldberg, TE, Yakub, I, Callicott, JH, Hariri, AR, Mattay, VS, Bertolino, A, Hyde, TM, Shannon-Weickert, C, Akil, M, Crook, J, Vakkalanka, RK, Balkissoon, R, Gibbs, RA, Kleinman, JE, Weinberger, DR (2004) Variation in GRM3 affects cognition, prefrontal glutamate, and risk for schizophrenia. Proc Natl Acad Sci USA 101: 12604–12609
dc.relation.referencesEisenberg, D. P., & Berman, K. F. (2010). Executive function, neural circuitry, and genetic mechanisms in schizophrenia. Neuropsychopharmacology, 35(1), 258-277.
dc.relation.referencesEttinger, U., Aichert, DS, Wöstmann, N., Dehning, S., Riedel, M. y Kumari, V. (2018). Response inhibition and interference control: Effects of schizophrenia, genetic risk, and schizotypy. Journal of neuropsychology, 12 (3), 484-510.
dc.relation.referencesFanous, A. H., Zhou, B., Aggen, S. H., Bergen, S. E., Amdur, R. L., Duan, J., ... & Amin, F. (2012). Genome-wide association study of clinical dimensions of schizophrenia: polygenic effect on disorganized symptoms. American Journal of Psychiatry, 169(12), 1309-1317.
dc.relation.referencesFarrell, M. S., Werge, T., Sklar, P., Owen, M. J., Ophoff, R. A., O'Donovan, M. C., ... & Sullivan, P. F. (2015). Evaluating historical candidate genes for schizophrenia. Molecular psychiatry, 20(5), 555-562.
dc.relation.referencesFatemi SH & Folsom TD (2009) The neurodevelopmental hypothesis of schizophrenia, revisited. Schizophrenia Bulletin, 35, 528–548
dc.relation.referencesFond, G., Bayard, S., Capdevielle, D., Del-Monte, J., Mimoun, N., Macgregor, A., ... & Raffard, S. (2013). A further evaluation of decision-making under risk and under ambiguity in schizophrenia. European archives of psychiatry and clinical neuroscience, 263(3), 249-257.
dc.relation.referencesFreedman, D., & Brown, A. S. (2011). The developmental course of executive functioning in schizophrenia. International Journal of Developmental Neuroscience, 29(3), 237
dc.relation.referencesGaribyan, L., & Avashia, N. (2013). Polymerase chain reaction. Journal of Investigative Dermatology, 133(3), 1-4.
dc.relation.referencesGeddes, J. R. et al. (1999). Schizophrenia and complications of pregnancy and labor: an individual patient data meta-analysis. Schizophrenia Bulletin, 25, 413-423.
dc.relation.referencesGlahn DC, Therman S, Manninen M, Huttunen M, Kaprio J, Lonnqvist J, Cannon TD (2003) Spatial working memory as an endophenotype for schizophrenia. Biol Psychiatry 53:624–626
dc.relation.referencesGoldberg, T. E., & Weinberger, D. R. (2004). Genes and the parsing of cognitive processes. Trends in cognitive sciences, 8(7), 325-335.
dc.relation.referencesGoldman-Rakic, P.S. (1999). The physiological approach: functional architecture of working memory and disordered cognition in schizophrenia. Biol. Psychiatry 46, 650–661.
dc.relation.referencesGottesman II, Gould TD (2003) The endophenotype concept in psychiatry: etymology and strategic intentions. Am J Psychiatry 160:636 645
dc.relation.referencesGreen MF (1996) What are the functional consequences of neurocognitive deficits in schizophre nia? Am J Psychiatry 153:321 330
dc.relation.referencesGreen, Olivier, B., Crawley, J. N., Penn, D. L., & Silverstein., S. (2005). Social Cognition in Schizophrenia: Recommendations from the Measurement and Treatment Research to Improve Cognition in Schizophrenia New Approaches Conference. Schizophrenia Bulletin, 31(4):882-884.
dc.relation.referencesGreening, S. G., Finger, E. C., & Mitchell, D. G. (2011). Parsing decision making processes in prefrontal cortex: response inhibition, overcoming learned avoidance, and reversal learning. Neuroimage, 54(2), 1432-1441.
dc.relation.referencesGreenwood TA, Braff DL, Light GA, Cadenhead KS, Calkins ME, et al. (2007) Initial heritability analyses of endophenotypic measures for schizophrenia: the consortium on the genetics of schizophrenia. Arch Gen Psychiatry 64: 1242–1250.
dc.relation.referencesGreenwood, T. A., Light, G. A., Swerdlow, N. R., Radant, A. D., & Braff, D. L. (2012). Association analysis of 94 candidate genes and schizophrenia-related endophenotypes. PloS one, 7(1), e29630.
dc.relation.referencesGresch, P. J., Strickland, L. V., & Sanders-Bush, E. (2002). Lysergic acid diethylamide-induced Fos expression in rat brain: role of serotonin-2A receptors. Neuroscience, 114(3), 707-713.
dc.relation.referencesGrot, S., Légaré, V. P., Lipp, O., Soulières, I., Dolcos, F., & Luck, D. (2017). Abnormal prefrontal and parietal activity linked to deficient active binding in working memory in schizophrenia. Schizophrenia research, 188, 68-74.
dc.relation.referencesGur RC, Ragland JD, Moberg PJ, Turner TB, Bilker WB, Kohler C, Siegel SJ, Gur RE (2001) Computerized neurocognitive scanning: I. Methodology and validation in healthy people. Neuropsychopharmacology 25:766 776
dc.relation.referencesHarrison, P. J., Lyon, L., Sartorius, L. J., Burnet, P. W. J., & Lane, T. A. (2008). Review: The group II metabotropic glutamate receptor 3 (mGluR3, mGlu3, GRM3): expression, function and involvement in schizophrenia. Journal of psychopharmacology, 22(3), 308-322.
dc.relation.referencesHarvey, P. D. (2013). Cognitive aspects of schizophrenia. Wiley Interdisciplinary Reviews: Cognitive Science, 4(6), 599-608.
dc.relation.referencesHarvey, P.D., Green, M.F., McGurk, S.R., and Meltzer, H.Y. (2003). Changes in cognitive functioning with risperidone and olanzapine treatment: a large-scale, double-blind, randomized study. Psychopharmacology (Berl.) 169, 404–411.
dc.relation.referencesHernández Sampieri, R., Fernández Collado, C. B. L., Valencia, M. D. P. M., Torres, S. M., Sampieri, C. P. H., Carlos Fernández Collado, M. D. P. B. L., & Collado, C. F. (2014). Metodología de la investigación (No. 303.1). McGraw-Hill Education.
dc.relation.referencesHoran WP, Braff DL, Nuechterlein KH, Sugar CA, Cadenhead KS, et al. (2008) Verbal working memory impairments in individuals with schizophrenia and their first-degree relatives: findings from the Consortium on the Genetics of Schizophrenia. Schizophr Res 103: 218–228
dc.relation.referencesHowes, O. D., & Kapur, S. (2009). The dopamine hypothesis of schizophrenia: version III—the final common pathway. Schizophrenia bulletin, 35(3), 549-562.
dc.relation.referencesHowes, O., McCutcheon, R., & Stone, J. (2015). Glutamate and dopamine in schizophrenia: an update for the 21st century. Journal of psychopharmacology, 29(2), 97-115.
dc.relation.referencesHuang, AS, Rogers, BP, Anticevic, A., Blackford, JU, Heckers, S. y Woodward, ND (2019). Brain function during stages of working memory in schizophrenia and psychotic bipolar disorder. Neuropsychopharmacology , 44 (12), 2136-2142.
dc.relation.referencesHuang, E., Zai, CC, Lisoway, A., Maciukiewicz, M., Felsky, D., Tiwari, AK, ... y Porcelli, S. (2016). Catecol-O-methyltransferase Val158Met Polymorphism and clinical response to antipsychotic treatment in Schizophrenia and Schizo-Affective disorder patients: a Meta-analysis. International journal of neuropsychopharmacology.
dc.relation.referencesIbarra, H. S. (2012). La Esquizofrenia de Kraepelin al DSM V. Santiago , Chile : Mediterráneo. Organización Panamericana de la Salud. (1995). Clasificación estadística internacional de enfermedades y problemas relacionados con la salud (Vol. 3). Pan American Health Org.
dc.relation.referencesIkemoto, S. (2007). Dopamine reward circuitry: two projection systems from the ventral midbrain to the nucleus accumbens–olfactory tubercle complex. Brain research reviews, 56(1), 27-78.
dc.relation.referencesIrish Schizophrenia Genomics Consortium, & Wellcome Trust Case Control Consortium 2. (2012). Genome-wide association study implicates HLA-C* 01: 02 as a risk factor at the major histocompatibility complex locus in schizophrenia. Biological psychiatry, 72(8), 620-628.
dc.relation.referencesJarskog LF, Miyamoto S & Lieberman JA (2007) Schizophrenia: new pathologicalinsightsandtherapies.AnnualReviewofMedicine,58,49–61.
dc.relation.referencesJavitt DC (2010) Glutamatergic theories of schizophrenia. Isr J Psychiatry Relat Sci 47: 4–16
dc.relation.referencesKapur, S., Mizrahi, R., & Li, M. (2005). From dopamine to salience to psychosis—linking biology, pharmacology and phenomenology of psychosis. Schizophrenia research, 79(1), 59-68.
dc.relation.referencesKeshavan, M. S., & Hogarty, G. E. (1999). Brain maturational processes and delayed onset in schizophrenia. Development and psychopathology, 11(03), 525-543.
dc.relation.referencesKew, J. N., & Kemp, J. A. (2005). Ionotropic and metabotropic glutamate receptor structure and pharmacology. Psychopharmacology, 179(1), 4-29.
dc.relation.referencesKim, L. H., Park, B. L., Cheong, H. S., Namgoong, S., Kim, J. O., Kim, J. H., ... & Choi, I. G. (2015). Genome‐wide association study with the risk of schizophrenia in a Korean population. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics.
dc.relation.referencesKinoshita, A., Takizawa, R., Koike, S., Satomura, Y., Kawasaki, S., Kawakubo, Y., ... & Kasai, K. (2015). Effect of metabotropic glutamate receptor-3 variants on prefrontal brain activity in schizophrenia: an imaging genetics study using multi-channel near-infrared spectroscopy. Progress in Neuro-Psychopharmacology and Biological Psychiatry, 62, 14-21.
dc.relation.referencesKirov, G., Zaharieva, I., Georgieva, L., Moskvina, V., Nikolov, I., Cichon, S., ... & O'Donovan, M. C. (2009). A genome-wide association study in 574 schizophrenia trios using DNA pooling. Molecular psychiatry, 14(8), 796-803.
dc.relation.referencesKlanker, M., Feenstra, M., & Denys, D. (2013). Dopaminergic control of cognitive flexibility in humans and animals. Frontiers in neuroscience, 7, 201.
dc.relation.referencesKong SK, Thompson LL, Iverson GL, Heaton RK (2000) Wisconsin Card Sorting Test-64 Card Version. Lutz, FL: Psychological Assessment Resources, Inc.
dc.relation.referencesKrystal, JH, Bi-Saab, W, Perry, E, D’Souza, D, Liu, NJ, Gueorguieva, R, McDougall, L, Hunsberger, T, Belger, A, Levine, L, Breier, A (2005) Preliminary evidence of attenuation of the disruptive effects of the NMDA glutamate receptor antagonist, ketamine, on working memory by pretreatment with the group II metabotropic glutamate receptor agonist, LY354740, in healthy human subjects. Psychopharmacology 179: 303–30.
dc.relation.referencesLaruelle, M. (2014). Schizophrenia: from dopaminergic to glutamatergic interventions. Current opinion in pharmacology, 14, 97-102.
dc.relation.referencesLázaro, J. C. F., Solís, F. O., & Gutiérrez, A. L. (2008). Batería de funciones frontales y ejecutivas: presentación. Revista Neuropsicología, Neuropsiquiatría y Neurociencias, 8(1), 141-158.
dc.relation.referencesLenroot, R. K., & Giedd, J. N. (2008). The changing impact of genes and environment on brain development during childhood and adolescence: initial findings from a neuroimaging study of pediatric twins. Development and psychopathology, 20(4), 1161.
dc.relation.referencesLevinson, D. F., Shi, J., Wang, K., Oh, S., Riley, B., Pulver, A. E., ... & Owen, M. J. (2012). Genome-wide association study of multiplex schizophrenia pedigrees. American Journal of Psychiatry, 169(9), 963-973
dc.relation.referencesLevy R & Goldman-Rakic PS (2000) Segregation of working memory functions within the dorsolateral prefrontal cortex. Experimental Brain Research, 133, 23–32.
dc.relation.referencesLezak MD (2004) Neuropsychological assessment, 4th edn. Oxford University Press, New York, NY
dc.relation.referencesLi, L., Huang, G. M., Banta, A. B., Deng, Y., Smith, T., Dong, P., ... & Rowen, L. (1998). Cloning, characterization, and the complete 56.8-kilobase DNA sequence of the human NOTCH4 gene. Genomics, 51(1), 45-58.
dc.relation.referencesLidsky, T. I. (1995). Reevaluation of the mesolimbic hypothesis of antipsychotic drug action. Schizophrenia bulletin, 21(1), 67-74.
dc.relation.referencesLieberman, J. A., & First, M. B. (2018). Psychotic disorders. New England Journal of Medicine, 379(3), 270-280.
dc.relation.referencesLiley, H. (2006). Infectious diseases of the fetus and newborn infant. Journal of Paediatrics and Child Health, 42(4), 226-226.
dc.relation.referencesLópez-García, P., Young, L., Marín, J., Molero, P., & Ortuño, F. (2015). Influencia del polimorfismo Val158Met COMT en el procesamiento de contexto en pacientes del espectro de la esquizofrenia y en sus familiares. Schizophrenia research: cognition, 2(4), 204-209.
dc.relation.referencesLymer, G. K. S., Job, D. E., William, T., Moorhead, J., McIntosh, A. M., Owens, D. G., ... & Lawrie, S. M. (2006). Brain–behaviour relationships in people at high genetic risk of schizophrenia. Neuroimage, 33(1), 275-285.
dc.relation.referencesMaj, C., Minelli, A., Giacopuzzi, E., Sacchetti, E., & Gennarelli, M. (2016). The role of metabotropic glutamate receptor genes in schizophrenia. Current neuropharmacology, 14(5), 540-550.
dc.relation.referencesMarenco, S., & Weinberger, D. R. (2000). The neurodevelopmental hypothesis of schizophrenia: following a trail of evidence from cradle to grave. Development and psychopathology, 12(03), 501-527.
dc.relation.referencesMatsuzaka, CT, Christofolini, D., Ota, VK, Gadelha, A., Berberian, AA, Noto, C., ... & Melaragno, MI (2017). Catechol-O-methyltransferase (COMT) polymorphisms modulate working memory in individuals with schizophrenia and healthy controls. Brazilian journal of psychiatry. Revista Brasileña de Psiquiatría, 39 (4), 302-308.
dc.relation.referencesMattay, V. S., Goldberg, T. E., Fera, F., Hariri, A. R., Tessitore, A., Egan, M. F., ... & Weinberger, D. R. (2003). Catechol O-methyltransferase val158-met genotype and individual variation in the brain response to amphetamine. Proceedings of the National Academy of Sciences, 100(10), 6186-6191.
dc.relation.referencesMatzke, D., Hughes, M., Badcock, J. C., Michie, P., & Heathcote, A. (2017). Failures of cognitive control or attention? The case of stop-signal deficits in schizophrenia. Attention, Perception, & Psychophysics, 79(4), 1078-1086.
dc.relation.referencesMcGirr, A., & Turecki, G. (2008). What is specific to suicide in schizophrenia disorder? Demographic, clinical and behavioural dimensions. Schizophrenia research, 98(1), 217-224.
dc.relation.referencesMcGrath, J., Saha, S., Chant, D., & Welham, J. (2008). Schizophrenia: a concise overview of incidence, prevalence, and mortality. Epidemiologic reviews, 30 (1), 67-76.
dc.relation.referencesMednick, S. A., Machon, R. A., Huttunen, M. O., & Bonett, D. (1988). Adult schizophrenia following prenatal exposure to an influenza epidemic. Archives of general psychiatry, 45(2), 189-192.
dc.relation.referencesMei, L., & Xiong, W. C. (2008). Neuregulin 1 in neural development, synaptic plasticity and schizophrenia. Nature Reviews Neuroscience, 9(6), 437-452.
dc.relation.referencesMeltzer, H. Y., Li, Z., Kaneda, Y., & Ichikawa, J. (2003). Serotonin receptors: their key role in drugs to treat schizophrenia. Progress in Neuro-Psychopharmacology and Biological Psychiatry, 27(7), 1159-1172.
dc.relation.referencesMeyer-Lindenberg, A., & Weinberger, D. R. (2006). Intermediate phenotypes and genetic mechanisms of psychiatric disorders. Nature Reviews Neuroscience, 7(10), 818-827.
dc.relation.referencesMillan, M. J., Agid, Y., Brüne, M., Bullmore, E. T., Carter, C. S., Clayton, N. S., ... & Dubois, B. (2012). Cognitive dysfunction in psychiatric disorders: characteristics, causes and the quest for improved therapy. Nature reviews Drug discovery, 11(2), 141-168.
dc.relation.referencesMiller DW and Abercrombie ED (1996) Effects of MK-801 on spontaneous and amphetamine-stimulated dopamine release in striatum measured with in vivo microdialysis in awake rats. Brain Res Bull 40: 57–62.
dc.relation.referencesMinisterio de la Protección Social. (2003). Estudio Nacional de Salud Mental Colombia. Ministerio de la Protección Social – Fundación FES Social.
dc.relation.referencesMinisterio de la Protección Social. (2015). Estudio Nacional de Salud Mental Colombia. Colciencias, Pontificia Universidad Javeriana.
dc.relation.referencesMinisterio de Salud. No, R. 8430 de 1993 (4 de octubre de 1993). Por la cual se establecen las normas científicas, técnicas y administrativas para la investigación en salud.
dc.relation.referencesMiranda, A. L., López Jaramillo, C., García Valencia, J., & Ospina Duque, J. (2003). El uso de endofenotipos en el estudio del componente genético de la esquizofrenia. Revista colombiana de psiquiatría, 32(3), 237-248.
dc.relation.referencesMoghaddam B, Adams B, Verma A, et al. (1997) Activation of glutamatergic neurotransmission by ketamine: A novel step in the pathway from NMDA receptor blockade to dopaminergic and cognitive disruptions associated with the prefrontal cortex. J Neurosci 17:2921–2927.
dc.relation.referencesMokhtari, R., & Lachman, H. M. (2016). The major histocompatibility complex (MHC) in schizophrenia: a review. Journal of clinical & cellular immunology, 7(6).
dc.relation.referencesMoon, A. L., Haan, N., Wilkinson, L. S., Thomas, K. L., & Hall, J. (2018). CACNA1C: association with psychiatric disorders, behavior, and neurogenesis. Schizophrenia bulletin, 44(5), 958-965.
dc.relation.referencesMurray, R. M., & Lewis, S. W. (1987). Is schizophrenia a neurodevelopmental disorder?. British Medical Journal (Clinical Research Ed.), 295(6600), 681.
dc.relation.referencesNie, F., Wang, X., Zhao, P., Yang, H., Zhu, W., Zhao, Y., ... & Ma, J. (2015). Genetic analysis of SNPs in CACNA1C and ANK3 gene with schizophrenia: A comprehensive meta‐analysis. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 168(8), 637-648.
dc.relation.referencesNiznikiewicz, M. A., Kubicki, M., & Shenton, M. E. (2003). Recent structural and functional imaging findings in schizophrenia. Current Opinion in Psychiatry, 16(2), 123-147.
dc.relation.referencesNorton, N., Williams, H. J., Dwyer, S., Ivanov, D., Preece, A. C., Gerrish, A., ... & Owen, M. J. (2005). No evidence for association between polymorphisms in GRM3 and schizophrenia. BMC psychiatry, 5(1), 23.
dc.relation.referencesNovella, E. J., & Huertas, R. (2010). El síndrome de Kraepelin-Bleuler-Schneider y la conciencia moderna: Una aproximación a la historia de la esquizofrenia. Clínica y Salud, 21(3), 205-219.
dc.relation.referencesNusbbaum, R. L., McInnes, R., & Willard, H. F. (2016). Thompson & Thompson. Genetics in medicine.
dc.relation.referencesObermair, G. J., Tuluc, P., & Flucher, B. E. (2008). Auxiliary Ca 2+ channel subunits: lessons learned from muscle. Current opinion in pharmacology, 8(3), 311-318.
dc.relation.referencesO'donovan, M. C., Craddock, N., Norton, N., Williams, H., Peirce, T., Moskvina, V., ... & Dwyer, S. (2008). Identification of loci associated with schizophrenia by genome-wide association and follow-up. Nature genetics, 40(9), 1053-1055.
dc.relation.referencesOhi, K., Sumiyoshi, C., Fujino, H., Yasuda, Y., Yamamori, H., Fujimoto, M., ... & Hashimoto, R. (2018). Genetic overlap between general cognitive function and schizophrenia: a review of cognitive GWASs. International journal of molecular sciences, 19(12), 3822.
dc.relation.referencesPalacio, C. A., García, J., Arbeláez, M. P., Sánchez, R., Aguirre, B., Garcés, I. C., ... & Calle, J. J. (2004). Validación de la entrevista diagnóstica para estudios genéticos (DIGS) en Colombia. Biomédica, 24(1), 56-62.
dc.relation.referencesPark S, Holzman PS (1992) Schizophrenics show spatial working memory deficits. Arch Gen Psychiatry 49:975–982
dc.relation.referencesPark, S., & Gooding, D. C. (2014). Working memory impairment as an endophenotypic marker of a schizophrenia diathesis. Schizophrenia Research: Cognition, 1(3), 127-136.
dc.relation.referencesPrasad, S., Bhatia, T., Kukshal, P., Nimgaonkar, V. L., Deshpande, S. N., & Thelma, B. K. (2017). Attempts to replicate genetic associations with schizophrenia in a cohort from north India. NPJ schizophrenia, 3(1), 1-8.
dc.relation.referencesPrasad, S., Chowdari, K. V., Wood, J., Bhatia, T., Deshpande, S. N., Nimgaonkar, V. L., & Thelma, B. K. (2004). Association analysis of NOTCH 4 polymorphisms with schizophrenia among two independent family based samples. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 131(1), 6-9.
dc.relation.referencesPurcell, S. M., Wray, N. R., Stone, J. L., Visscher, P. M., O'donovan, M. C., Sullivan, P. F., ... & O’Dushlaine, C. T. (2009). Common polygenic variation contributes to risk of schizophrenia and bipolar disorder. Nature, 460(7256), 748-752.
dc.relation.referencesPycock, C. J., Kerwin, R. W., & Carter, C. J. (1980). Effect of lesion of cortical dopamine terminals on subcortical dopamine receptors in rats. Nature, 286(5768), 74-77.
dc.relation.referencesRajagopal, V. M., Rajkumar, A. P., Jacob, K. S., & Jacob, M. (2018). Gene–gene interaction between DRD4 and COMT modulates clinical response to clozapine in treatment-resistant schizophrenia. Pharmacogenetics and genomics, 28(1), 31-35.
dc.relation.referencesRapoport, J. L., Addington, A. M., Frangou, S., & Psych, M. R. C. (2005). The neurodevelopmental model of schizophrenia: update 2005.
dc.relation.referencesRapoport, J. L., Giedd, J. N., & Gogtay, N. (2012). Neurodevelopmental model of schizophrenia: update 2012. Molecular psychiatry, 17(12), 1228-1238.
dc.relation.referencesReichenberg A, Harvey PD (2007) Neuropsychological impairments in schizophrenia: integration of performance based and brain imaging findings. Psychol Bull 133:833 858.
dc.relation.referencesReynolds GP, Templeman LA & Zhang ZJ (2005) The role of 5-HT2C receptor polymorphisms in the pharmacogenetics of antipsychotic drug treatment. Progress in Neuropsychopharmacology and Biological Psychiatry,29, 1021–1028.
dc.relation.referencesRipke, S., O'Dushlaine, C., Chambert, K., Moran, J. L., Kähler, A. K., Akterin, S., ... & Kim, Y. (2013). Genome-wide association analysis identifies 13 new risk loci for schizophrenia. Nature genetics, 45(10), 1150-1159.
dc.relation.referencesRobbins, T. W., Gillan, C. M., Smith, D. G., de Wit, S., & Ersche, K. D. (2012). Neurocognitive endophenotypes of impulsivity and compulsivity: towards dimensional psychiatry. Trends in cognitive sciences, 16(1), 81-91
dc.relation.referencesRoss, C. A., Margolis, R. L., Reading, S. A., Pletnikov, M., & Coyle, J. T. (2006). Neurobiology of schizophrenia. Neuron, 52(1), 139-153.
dc.relation.referencesSaini, S. M., Mancuso, S. G., Mostaid, M. S., Liu, C., Pantelis, C., Everall, I. P., & Bousman, C. A. (2017). Meta-analysis supports GWAS-implicated link between GRM3 and schizophrenia risk. Translational psychiatry, 7(8), e1196-e1196.
dc.relation.referencesSaiz Ruiz, J., Sánchez, V., Diego, C., & Sánchez Páez, P. (2010). Bases neurobiológicas de la Esquizofrenia. Clínica y Salud, 21(3), 235-254.
dc.relation.referencesSalunkhe, G., Feige, B., Saville, C. W. N., Lancaster, T. M., Stefanou, M. E., Bender, S., ... & Klein, C. (2019). The impact of the COMT genotype and cognitive demands on facets of intra-subject variability. Brain and cognition, 132, 72-79.
dc.relation.referencesScatton, B., Worms, P., Lloyd, K. G., & Bartholini, G. (1982). Cortical modulation of striatal function. Brain research, 232(2), 331-343.
dc.relation.referencesSchizophrenia Psychiatric Genome-Wide Association Study (GWAS) Consortium. (2011). Genome-wide association study identifies five new schizophrenia loci. Nature genetics, 43(10), 969-976
dc.relation.referencesSchizophrenia Working Group of the Psychiatric Genomics Consortium (2014) Biological insights from 108 schizophrenia-associated genetic loci. Nature 511: 421–427
dc.relation.referencesSchwartz, R. C., & Smith, S. D. (2004). Suicidality and psychosis: the predictive potential of symptomatology and insight into illness. Journal of psychiatric research, 38(2), 185-191.
dc.relation.referencesSeeman, P., & Lee, T. (1975). Antipsychotic drugs: direct correlation between clinical potency and presynaptic action on dopamine neurons. Science, 188(4194), 1217-1219.
dc.relation.referencesSepehry, A. A. et al. (2007). Selective serotonin reuptake inhibitor (SSRI) add-on therapy for the negative symptoms of schizophrenia: a metaanalysis. Journal of Clinical Psychiatry, 68, 604- 610.
dc.relation.referencesSesack SR and Pickel VM (1992) Prefrontal cortical efferents in the rat synapse on unlabeled neuronal targets of catecholamine terminals in the nucleus accumbens septi and on dopamine neurons in the ventral tegmental area. J Comp Neurol 320: 145–160. expression in rat brain: role of serotonin-2A receptors. Neuroscience, 114(3), 707-713.
dc.relation.referencesShayevitz, C., Cohen, O. S., Faraone, S. V., & Glatt, S. J. (2012). A re‐review of the association between the NOTCH4 locus and schizophrenia. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 159(5), 477-483.
dc.relation.referencesShi, J., Levinson, D. F., Duan, J., Sanders, A. R., Zheng, Y., Pe’Er, I., ... & Olincy, A. (2009). Common variants on chromosome 6p22. 1 are associated with schizophrenia. Nature, 460(7256), 753-757.
dc.relation.referencesSiegelbaum, S. A., & Hudspeth, A. J. (2000). Principles of neural science (Vol. 4, pp. 1227-1246). E. R. Kandel, J. H. Schwartz, & T. M. Jessell (Eds.). New York: McGraw-hill.
dc.relation.referencesSimeone, J. C., Ward, A. J., Rotella, P., Collins, J., & Windisch, R. (2015). An evaluation of variation in published estimates of schizophrenia prevalence from 1990─ 2013: a systematic literature review. BMC psychiatry, 15(1), 193.
dc.relation.referencesSingh SM, McDonald P, Murphy B, et al. (2004) Incidental neurodevelopmental episodes in the etiology of schizophrenia: an expanded model involving epigenetics and development. Clinical Genetics, 65, 435–440
dc.relation.referencesSnitz, B.E., Macdonald, A.W., III, and Carter, C.S. (2006). Cognitive deficits in unaffected first-degree relatives of schizophrenia patients: a meta-analytic review of putative endophenotypes. Schizophr. Bull. 32, 179–194
dc.relation.referencesSporns, O., & Betzel, R. F. (2016). Modular brain networks. Annual review of psychology, 67, 613-640.
dc.relation.referencesStefansson, H., Ophoff, R. A., Steinberg, S., Andreassen, O. A., Cichon, S., Rujescu, D., ... & Sigurdsson, E. (2009). Common variants conferring risk of schizophrenia. Nature, 460(7256), 744-747.
dc.relation.referencesStephan, KE, Friston, KJ y Frith, CD (2009). Disconexión en la esquizofrenia: de plasticidad sináptica anormal a fallas de autocontrol. Boletín de esquizofrenia , 35 (3), 509-527
dc.relation.referencesStiles, J., & Jernigan, T. L. (2010). The basics of brain development. Neuropsychology review, 20(4), 327-348
dc.relation.referencesStone WS, Giuliano AJ, Tsuang MT, Braff DL, Cadenhead KS, et al. (2011) Group and site differences on the California Verbal Learning Test in persons with schizophrenia and their first-degree relatives: findings from the Consortium on the Genetics of Schizophrenia (COGS). Schizophr Res 128: 102–110
dc.relation.referencesStrauss E, Sherman EMS, Spreen O (2006) A compendium of neuropsychological tests: adminis tration, norms, and commentary, 3rd edn. Oxford University Press, New York, NY.
dc.relation.referencesSu, L., Long, J., Liang, B., Gu, L., Pan, R., Li, L., ... & Wei, B. (2014). Association between the NOTCH4 gene rs3131296 polymorphism with schizophrenia risk in the Chinese Zhuang population and Chinese Han population. Acta neuropsychiatrica, 26(04), 240-245.
dc.relation.referencesSullivan, P. F., Lin, D., Tzeng, J. Y., van den Oord, E. J. C. G., Perkins, D., Stroup, T. S., ... & Liu, W. (2008). Genomewide association for schizophrenia in the CATIE study: results of stage 1. Molecular psychiatry, 13(6), 570-584.
dc.relation.referencesSun, Z., Zhang, Z., Mao, P., Ma, Y., Li, W., Li, J., ... & Tang, Y. (2018). Association between COMT gene polymorphisms, clinical symptoms, and cognitive functions in Han Chinese patients with schizophrenia. Psychiatric genetics, 28(3), 47-54.
dc.relation.referencesSutcliffe, G., Harneit, A., Tost, H., & Meyer-Lindenberg, A. (2016). Neuroimaging intermediate phenotypes of executive control dysfunction in schizophrenia. Biological Psychiatry: Cognitive Neuroscience and Neuroimaging, 1(3), 218-229.
dc.relation.referencesSutcliffe, G., Harneit, A., Tost, H., & Meyer-Lindenberg, A. (2016). Neuroimaging intermediate phenotypes of executive control dysfunction in schizophrenia. Biological Psychiatry: Cognitive Neuroscience and Neuroimaging, 1(3), 218-229.
dc.relation.referencesTao, B., Xiao, Y., Hu, N., Shah, C., Liu, L., Gao, X., ... & Hua, J. (2019). Reduced cortical thickness related to single nucleotide polymorphisms in the major histocompatibility complex region in antipsychotic‐naive schizophrenia. Brain and behavior, 9(5), e01253.
dc.relation.referencesThermo Fisher Scientific Inc.(2018) Introduction to Gene Expression. Getting Started Guide. Scotland, United Kingdom
dc.relation.referencesTownsend LA & Norman RM (2004) Course of cognitive functioning in first episode schizophrenia spectrum disorders. Expert Review of Neurotherapeutics, 4, 61–68.
dc.relation.referencesTunbridge, E. M., Bannerman, D. M., Sharp, T., & Harrison, P. J. (2004). Catechol-o-methyltransferase inhibition improves set-shifting performance and elevates stimulated dopamine release in the rat prefrontal cortex. Journal of Neuroscience, 24(23), 5331-5335.
dc.relation.referencesUrrego, D. Z., & Cocoma, J. C. (1999). Por la salud mental. Revista de Salud Pública, 1(1), 58-67.
dc.relation.referencesVerdoux, H. y Sutter, A. L. (2002). Perinatal risk factors for schizophrenia: diagnostic specificity and relationships with maternal psychopathology. American Journal of Medical Genetics, 114, 898- 905.
dc.relation.referencesWaltz, J. A. (2017). The neural underpinnings of cognitive flexibility and their disruption in psychotic illness. Neuroscience, 345, 203-217.
dc.relation.referencesWassink, T. H., Nopoulos, P., Pietila, J., Crowe, R. R., & Andreasen, N. C. (2003). NOTCH4 and the frontal lobe in schizophrenia. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 118(1), 1-7.
dc.relation.referencesWeinberger, D. R. (1996). On the plausibility of “the neurodevelopmental hypothesis” of schizophrenia. Neuropsychopharmacology, 14(3), 1S-11S.
dc.relation.referencesWeinberger, D. R. y Lipska, B. K. (1995). Cortical maldevelopment, anti-psychotic drugs, and schizophrenia: a search for common ground. Schizophrenia Research, 16, 87-110.
dc.relation.referencesWhiteford, H. A., Degenhardt, L., Rehm, J., Baxter, A. J., Ferrari, A. J., Erskine, H. E., ... & Burstein, R. (2013). Global burden of disease attributable to mental and substance use disorders: findings from the Global Burden of Disease Study 2010. The Lancet, 382 (9904), 1575-1586.
dc.relation.referencesWong, E. H., So, H. C., Li, M., Wang, Q., Butler, A. W., Paul, B., ... & Garcia-Barcelo, M. M. (2014). Common variants on Xq28 conferring risk of schizophrenia in Han Chinese. Schizophrenia bulletin, 40(4), 777-786.
dc.relation.referencesXu, C., Aragam, N., Li, X., Villla, E. C., Wang, L., Briones, D., ... & Mao, C. (2013). BCL9 and C9orf5 are associated with negative symptoms in schizophrenia: meta-analysis of two genome-wide association studies. PLoS One, 8(1), e51674.
dc.relation.referencesZammit, S. et al. (2003). Paternal age and risk for schizophrenia. British Journal of Psychiatry, 183, 405-408.
dc.relation.referencesZheng, F., Cui, Y., Yan, H., Liu, B., & Jiang, T. (2016). The effects of a genome-wide supported variant in the CACNA1C gene on cortical morphology in schizophrenia patients and healthy subjects. Scientific Reports, 6.
dc.relation.referencesZornberg, G. L., Buka, S. L., & Tsuang, M. T. (2000). Hypoxic-ischemia-related fetal/neonatal complications and risk of schizophrenia and other nonaffective psychoses: a 19-year longitudinal study. American Journal of Psychiatry, 157(2), 196-202.
dc.rights.accessrightsinfo:eu-repo/semantics/openAccess
dc.subject.proposalesquizofrenia
dc.subject.proposalschizophrenia
dc.subject.proposalendofenotipos neuropsicológicos
dc.subject.proposalneuropsychological endophenotypes
dc.subject.proposalfunciones ejecutivas
dc.subject.proposalexecutive functions
dc.subject.proposalestudio de asociación
dc.subject.proposalassociation study
dc.subject.proposalgenes and polymorphisms
dc.subject.proposalgenes y polimorfismos
dc.type.coarhttp://purl.org/coar/resource_type/c_1843
dc.type.coarversionhttp://purl.org/coar/version/c_ab4af688f83e57aa
dc.type.contentText
oaire.accessrightshttp://purl.org/coar/access_right/c_abf2


Archivos en el documento

Thumbnail
Nombre:
license_rdf
Tamaño:
811bytes
Formato:
application/rdf+xml
Descargar
Thumbnail
Nombre:
1024488516.2020.pdf
Tamaño:
3.331Mb
Formato:
PDF
Descargar

Este documento aparece en la(s) siguiente(s) colección(ones)

Mostrar el registro sencillo del documento

Atribución-NoComercial-SinDerivadas 4.0 InternacionalEsta obra está bajo licencia internacional Creative Commons Reconocimiento-NoComercial 4.0.Este documento ha sido depositado por parte de el(los) autor(es) bajo la siguiente constancia de depósito