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Abstract Objective: This study aimed to correlate the genetic profile of the NUDT15 and TPMT genes with the side effects of the treatment of pediatric patients with acute lymphoid leukemia who were undergoing maintenance therapy at a tertiary care hospital in 2017. Methods: This was an analytical, longitudinal, observational study in which the genotypes of the genes of interest were determined by PCR allelic discrimination with TaqMan® probes in patients receiving chemotherapy during the maintenance phase in the Pediatric Hematology and Oncology Unit in 2017. Sociodemographic and clinical data corresponding to the first six months of their maintenance chemotherapy were collected, and the correlation between the genotypes obtained and the development of side effects during the maintenance phase of chemotherapy in these patients was evaluated. Results: Seventy pediatric patients were included in the study. Genetic analyses were carried out of these for NUDT15 and TPMT (rs1800462 and rs1800460) on 68 patients, while for the rs1142345 polymorphism, typing was achieved in 42 patients. 4/68 patients were heterozygous for NUDT15, and the same number of patients were heterozygous for rs1800462 and rs1142345, while for rs1800460, 6 heterozygous patients were identified. No statistically significant association was identified between the genetic variants and the outcomes of interest. Conclusion: Studies with a larger population size are needed and the evaluation of other genetic variants that may influence the development of side effects during maintenance chemotherapy.
Resumen Objetivo: la finalidad de este estudio fue evaluar las asociaciones entre los perfiles de los genes NUDT15 y TPMT con los efectos adversos del tratamiento de mantenimiento en pacientes pediátricos con Leucemia Linfoblástica Aguda atendidos en un hospital de referencia durante el 2017. Métodos: Este fue un estudio observacional analítico, de corte longitudinal en el que los genotipos de los genes de interés fueron determinados mediante PCR de discriminación alélica con sondas TaqMan® en pacientes que estaban recibiendo quimioterapia de mantenimiento en la Unidad de Oncohematología Pediátrica durante el 2017. Los datos clínicos y sociodemográficos correspondientes a los primeros 6 meses de sus tratamientos de mantenimiento fueron colectados, y se evaluó la correlación entre los genotipos identificados y el desarrollo de efectos secundarios en estos pacientes. Resultados: setenta pacientes fueron incluidos en el estudio, de estos, los análisis genéticos para NUDT15 y TPMT (rs1800462 and rs1800460) fueron realizados en 68 pacientes, en tanto que para el polimorfismo rs1142345 se logró la tipificación en 42 pacientes. 4/68 pacientes fueron heterocigotos para NUDT15 y el mismo número de pacientes fueron heterocigotos para rs1800462 and rs1142345, mientras que para rs1800460, 6 pacientes heterocigotos fueron identificados. No se identificaron asociaciones estadísticamente significantes entre las variants genéticas y los resultados clínicos de interés. Conclusiones: Estos hallazgos resaltan la importancia de realizar estudios de este tipo con un mayor número de sujetos de estudio, así como plantean la necesidad de evaluar otras variantes genéticas que podrían tener algún impacto en el desarrollo de efectos secundarios durante la quimioterapia de mantenimiento.
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RESUMEN El presente artículo es el resultado de una investigación, desde las perspectivas bioética y biojurídica, acerca de los lineamientos existentes en Colombia para el manejo de las pruebas farmacogenómicas y farmacogenéticas en los ensayos clínicos. La revisión de la legislación existente en nuestro medio se comparó con estándares internacionales y los propuestos por organismos supranacionales. Se encontró que en Colombia falta una regulación específica en esta área, lo que expone a una serie de riesgos bioéticos y jurídicos a los participantes e investigadores. No se deben subestimar estos riesgos, pues comprometen la viabilidad ética de la investigación clínica y básica en nuestro medio. Al final, desde la perspectiva de la ética de los principios, se proponen una serie de acciones para la creación y la promoción a escala nacional de lineamientos que sirvan para conformar una legislación aplicable a la protección de los datos genéticos y, por ende, los derechos de los sujetos que participan en esta clase de estudios de investigación en Colombia.
ABSTRACT This paper is the result of research, from the bioethics and bio-legal perspectives, on the existing guidelines in Colombia for the handling of pharmacogenomic and pharmacogenetic tests in clinical trials. Colombian legislation on this kind of research was reviewed and then compared with international and supranational standards. It was found that Colombia lacks specific legislation in this area, a situation that puts both participants and researchers at risk, from bioethical and legal perspectives. These risks should not be underestimated, as they compromise the ethical viability of clinical and basic research in our setting. In the end, a proposal, based on principles of ethics is made, proposing a series of actions for the creation and promotion nationwide of guidelines which can be used to shape legislation to be applied to protect the genetic data and the rights of subjects participating in these types of research studies in Colombia.
Subject(s)
Humans , Bioethics , Pharmacogenomic Testing , Psychiatry , Research , Social Control, Formal , Genome, Human , Colombia , Ethics, Research , Research SubjectsABSTRACT
Introducción: La farmacogenómica, como parte de la medicina de precisión, garantiza un tratamiento óptimo de los pacientes basado en su perfil genético. Objetivo: Describir los principales principios en que se sustenta la farmacogenómica y sus aplicaciones a la práctica clínica diaria. Materiales y Métodos: Se realizó una revisión crítica de la farmacogenómica en las bases de datos principales: SciELO, MedLine/PubMed/PMC y Scopus con los descriptores farmacogenómica/pharmacogenomics, farmacogenética/pharmacogenetics, medicina personalizada/personalized medicine y medicina de precisión/precision medicine. También en la biblioteca virtual de salud de Infomed. El periodo de búsqueda y localización de artículos: noviembre 2019-enero 2020. Se seleccionaron artículos publicados entre 2008 y enero de 2020. Resultados: Los principios de la farmacogenómica se basan en el conocimiento del genoma humano que permite determinar el perfil genético de los pacientes y la mejor respuesta al tratamiento medicamentoso con un mínimo de reacciones adversas. Se aplica en diferentes especialidades médicas como oncología, cardiología, medicina interna y endocrinología. Entre los biomarcadores farmacogenéticos estudiados están CACNA1S, RYR1, CYP2D6, SLCO1B1, CYP2C19, F5, CFTR, CYP2C9, CYP4F2, VKORC1, HLA-B, UGT1A1, IFNL3, CYP3A5, TPMT, G6PD, HLA-A, BRCA1, DPYD, RARG, SLC28A3, TPMT y UGT1A6. Conclusiones: Los biomarcadores farmacogenéticos constituyen valiosas herramientas para la identificación de genes implicados en la respuesta medicamentosa, importantes para aplicar una medicina personalizada que mejore la respuesta a los medicamentos y evite o minimice los efectos adversos, aunque quedan desafíos para convertirla en una herramienta de uso frecuente en la práctica médica(AU)
Introduction: Pharmacogenomics, as part of precision medicine, guarantees patients´ optimal treatment based on their genetic profile. Objective: To describe the principles of pharmacogenomics and its application in daily clinical practice. Materials and Methods: A critical review of pharmacogenomics was carried out in SciELO, MedLine/PubMed/PMC, Scopus databases and the Cuban Virtual Health Library using Spanish and English descriptors such as: farmacogenómica/pharmacogenomics, farmacogenética/pharmacogenetics, medicina personalizada/personalized medicine and medicina de precisión/precision medicine. The articles were searched and located during the period between November 2019 and January 2020. The articles published between 2008 and January 2020 were selected. Results: The principles of pharmacogenomics are based on the knowledge of the human genome that allows the determination of the genetic profile of patients and the best response to drug treatment with a minimum of adverse reactions. It is applied in different medical specialties such as Oncology, Cardiology, Internal Medicine and Endocrinology. The most studied pharmacogenetic biomarkers include: CACNA1S, RYR1, CYP2D6, SLCO1B1, CYP2C19, F5, CFTR, CYP2C9, CYP4F2, VKORC1, HLA-B, UGT1A1, IFNL3, CYP3A5, TPMT, G6PD, HLA-A, BRCA1, DPYD, RARG, SLC28A3, TPMT and UGT1A6. Conclusions: Pharmacogenetic biomarkers are valuable tools for the identification of genes involved in the drug response. They are very important in the application of personalized medicine which is intended to improve the response to drugs and avoid or minimize adverse effects. However, substantial challenges remain in respect of making it a frequently used tool in medical practice(AU)
Subject(s)
Humans , Biomarkers , Ryanodine Receptor Calcium Release Channel , Libraries, Digital , Precision MedicineABSTRACT
The Organizing Committee of the V International Congress on Immunopharmacology (Immunopharmacology 2020) organized by the Cuban Society of Pharmacology, BioCubaFarma and the International Union of Basic and Clinical Pharmacology (IUPHAR) would like to invite you to participate in this important event, scheduled for June 9 to 13, 2020 at the Convention Centre of the Melia Marina Varadero Hotel, Varadero Beach, Matanzas, Cuba. The Congress will be formed by different workshops and symposia such as: Fifth workshop on new advances in immunopharmacology Fifth workshop on neuroimmunology, neuroimmunopharmacology and neuroimmunomodulation. Immunopharmacology of brain tumors Symposium on hereditary ataxias Fifth symposium on pharmacology of cytochrome P450 and transporters Fourth symposium on inflammation and pain 2nd symposium on NFkB Synthetic peptides as immunopharmacological tools Novel designs in clinical trials. Biosimilar pharmaceuticals Pharmacogenetics, pharmacogenomics, proteomics and phosphoproteomics Immune response in cancer First symposium on business and international cooperation on biologics Immunopharmacology 2020 is sponsored by: Cuban Society of Pharmacology (SCF) International Union of Basic and Clinical Pharmacology (IUPHAR) Latin-American Association of Pharmacology (ALF) PAHO / WHO BioCubaFarma National research centers: Finlay Vaccine Institute (IFV); Center of Genetic Engineering and Biotechnology (CIGB); Center of Molecular Immunology (CIM); Center for Control of Drugs, Equipment and Medical Devices (CECMED); National Center for Animal and Plant Health (CENSA); Tropical Medicine Institute "Pedro Kourí" (IPK); National Center for Biopreparations (BioCEN); Center for Drug Research and Development (CIDEM); Center for Clinical Trials (CENCEC); among others International Manufacturers and Companies The key objectives of the Congress are: To provide a progressive state-of-the-art report for scientists, manufacturers, governmental authorities and healthcare workers, who need to be updated about the latest scientific developments for human vaccines, including basic science, product development, market introduction, immunization programs and epidemiological surveillance. To promote the scientific collaboration among experts and institutions through the experience exchange, the presentation of results and the discussion on the conference topics. To accelerate progress in the development of vaccines and the acceptance and introduction of new methods and technologies. Opening lectures, oral presentations and posters will provide you the opportunity to be involved in a high quality congress to discuss about the progress in the field of immunology and pharmacology sciences(AU)
Subject(s)
Humans , Male , Female , Pharmacogenetics , Pharmacology , Autoimmune Diseases , Spinocerebellar Degenerations , Neoplasms , Vaccines , CongressABSTRACT
Resumen El estudio de las variaciones de las secuencias de ADN y ARN en relación con la respuesta a diferentes fármacos, se ha convertido en un área de estudio particularmente prometedora para la aplicación en genómica clínica y estudios de genomas personalizados. Medicamentos de uso diario en el tratamiento de enfermedades cardiovasculares han demostrado variaciones en la respuesta en función de las variantes genéticas de los individuos. Dos fármacos han concentrado el interés mundial: la warfarina, un anticoagulante oral, y el clopidogrel, un antiagregante plaquetario, los cuales actúan alterando diferentes vías que conforman la cascada de la coagulación, ya sea limitando directamente la producción de trombina o bloqueando otros activadores de la ruta. Los cambios genéticos que se han asociado a la reducción de la actividad enzimática de estos fármacos ocurren en los genes, CYP2C19 para clopidogrel y CYP2C9 y VKORC1 para warfarina. Las variaciones genéticas identificadas para estos genes se relacionan con perfiles genotípicos que determinan la dosis requerida para el paciente. Es allí donde ciencias como la farmacogenómica tienen como fin brindar una ayuda diagnóstica más objetiva al optimizar tiempo y recursos, así como disminuir el riesgo del paciente a sufrir complicaciones que comprometan su vida.
Abstract The study of the variations in DNA and RNA sequencing as regards the response to different drugs has become a particularly promising area for their application in clinical genomics and personalised genome studies. Drugs of daily use in the treatment of cardiovascular diseases have shown variations in the response depending on the genetic variations of the individuals. Two drugs have gathered worldwide interest: warfarin, an oral anticoagulant, and clopidogrel, an antiplatelet drug, which act by altering different pathways that constitute the clotting cascade either by directly limiting the production of thrombin, or by blocking other activators of the pathway. The genetic changes that have been associated with the reduction in the enzyme activity of these drugs occur in the genes, CYP2C19 for clopidogrel, and the genes, CYP2C9 and VKORC1 for warfarin. The genetic variations identified for these genes are associated with genotype profiles that determine the dose required by the patient. It is from there, sciences like pharmacogenomics have as their aim to provide a more objective diagnostic aid in order to optimise time and resources, as well as to reduce the risk of the patient suffering complications that may compromise their life.
Subject(s)
Pharmacogenetics , Warfarin , DNA , RNA , Clopidogrel , NucleotidesABSTRACT
SUMMARY Introduction: Genetic variations have been related to risk and treatment efficacy. Many polymorphisms in breast cancer are known to influence susceptibility, breast cancer risk and treatment outcome. Polymorphisms vary among populations; therefore, local studies are necessary. Objective: To establish the frequency of polymorphisms associated to breast cancer risk and treatment pharmacogenomics in a group of Colombian individuals. Methods: Data from microarray profiles including gene polymorphisms associated with breast cancer treatment were retrospectively collected (Pathway Genomics®). The frequency of marker CYP2D6 rs3892097 and a breast cancer panel (CAS8 rs1045485, CHEK21100delC, ESR1 rs2046210, FGFR2 rs1219648, intergenic_2q35rs13387042, intergenic_8q24 rs13281615, MSRP30 rs10941679, TNRC9 rs3803662, AKAP9 rs6964587, LSP1 rs3817198, MAP3K1rs889312, PALBS1592 delT, ESR1 rs3020314) were studied. Results: Microarray data from 68 men and 92 women were analyzed. All polymorphisms were in Hardy-Weinberg equilibrium. Genotypic frequencies of CYP2D6 rs3892097 C/T, CAS8 rs1045485 G/C, and those of genes included in a breast cancer panel (CAS8 rs1045485, CHEK21100delC, FGFR2rs1219648, intergenic_2q35rs13387042, intergenic_8q24 rs13281615, MSRP30 rs10941679, TNRC9 rs3803662, LSP1 rs3817198, MAP3K1rs889312, PALBS1592 del T, ESR1rs3020314) did not significantly differ from previously published data. ESR1 rs2046210, with allele frequencies of C=0.04 and T=0.02, and AKAP9 rs6964587, with a frequency of A=0.005, were determined as rare. Conclusions: The population studied was not significantly different in allele distribution from previously reported data at HapMap. Genotypes in Colombian population are similar to other previously studied groups of healthy subjects. Extended use of genotyping pharmacogenetic polymorphisms will prevent toxicity and adverse effects in tamoxifen treatment (for example in CYP2D6 rs3892097). Therefore, therapeutic alternatives should be evaluated based on individual pharmacogenetic studies.
RESUMEN Introducción: las variaciones genéticas se han relacionado con el riesgo y la eicacia del tratamiento. Es sabido que muchos polimorfismos en cáncer de mama influyen en la susceptibilidad, el riesgo de cáncer y el resultado del tratamiento. Los polimorfismos varían entre las poblaciones, y por tanto, es necesario realizar estudios locales. Objetivo: establecer la frecuencia de polimorismos asociados al riesgo de cáncer de mama y la farmacogenómica del tratamiento en un grupo de individuos colombianos. Métodos: los datos de los perfiles de microarreglos, incluidos los polimorismos genéticos asociados con el tratamiento del cáncer de mama, se obtuvieron de forma retrospectiva (Pathway Genomics®). Se estudiaron la frecuencia del marcador CYP2D6 rs3892097 y un panel de cáncer de mama (CAS8 rs1045485, CHEK21100delC, ESR1 rs2046210,FGFR2 rs1219648, intergenic_2q35rs13387042, intergenic_8q24 rs13281615, MSRP30 rs10941679, TNRC9 rs3803662, AKAP9 rs6964587, LSP1 rs3817198, MAP3K1rs889312, PALBS1592 delT, ESR1 rs3020314). Resultados: se analizaron los datos de microarreglos de 68 hombres y 92 mujeres. Todos los polimorfismos siguieron el equilibrio Hardy-Weinberg. Las frecuencias fenotípicas de CYP2D6 rs3892097 C/T, CAS8 rs1045485 G/C, y aquellas de los genes incluidos en un panel de cáncer de mama (CAS8 rs1045485, CHEK21100delC, FGFR2rs1219648, intergenic_2q35rs13387042, intergenic_8q24 rs13281615, MSRP30 rs10941679, TNRC9 rs3803662, LSP1 rs3817198, MAP3K1rs889312, PALBS1592 del T, ESR1rs3020314) no difirieron significativamente de los datos publicados previamente. ESR1 rs2046210, con frecuencias alélicas de C = 0,04 y T = 0,02, y AKAP9 rs6964587, con una frecuencia de A = 0,005, se determinaron como raras.
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RESUMEN Introducción: La variabilidad genética individual favorece que la capacidad de respuesta y toxicidad a los fármacos sea diferente en cada persona. En la artritis reumatoide se reportan índices de respuesta a los medicamentos etanercept, infliximab, adalimumab y metotrexato cercanos al 60%. Esta variabilidad puede explicarse por polimorfismos genéticos característicos de cada paciente. Objetivo: Identificar polimorfismos genéticos reportados en artículos científicos que pueden afectar la farmacocinética y la farmacodinámica de etanercept, infliximab, adalimumab y metotrexato, y su respuesta en pacientes con artritis reumatoide. Materiales y método: Se realizó una búsqueda sistemática en PubMed/Medline, con los términos clave: «rheumatoid arthritis¼ and «pharmacogenomic¼ and «polymorphisms¼ and «metotrexato¼ and «infliximab¼ and «adalimumab¼ and «etanercept¼ obteniendo 164 artículos, 117 no duplicados y 19 artículos que cumplieron los criterios de inclusión. Resultados: De los 19 artículos, 2 reportaron polimorfismos que afectan la farmacocinética de infliximab, adalimumab, etanercept y metotrexato, y 17, la farmacodinámica. En los 19 artículos se identificaron 23 polimorfismos de relevancia clínica en población europea, japonesa, jordana e india. Conclusiones: Se identifican 23 polimorfismos de relevancia clínica, los cuales podrían ser el soporte para el diseño de un test de secuenciación específica en pacientes con artritis reumatoide, en los que se considere la utilización de infliximab, adalimumab, etanercept o metotrexato. La utilidad práctica de este tipo de estrategia requiere ser evidencia en estudios clínicos específicos, relacionados con una prescripción orientada por test genéticos y personalizada, y su efecto sobre la efectividad y seguridad de la farmacoterapia con estos medicamentos.
ABSTRACT Introduction: Individual genetic variability favours the capacity of response and toxicity to the drugs is different in each person. Rheumatoid arthritis reported rates of response to the drugs etanercept, infliximab, adalimumab and methotrexate is close to 60%. This variability can be explained by genetic polymorphisms characteristic of each patient. Objective: To identify genetic polymorphisms reported in scientific articles that may affect the pharmacokinetics and pharmacodynamics of etanercept, infliximab, adalimumab, and methotrexate, and their response in patients with rheumatoid arthritis. Materials and method: A systematic search was performed in PubMed and Medline, with the key terms: "rheumatoid arthritis" and "pharmacogenomic" and "polymorphisms" and "methotrexate" and "infliximab" and "adalimumab" and "etanercept", obtaining 164 articles, 117 non-duplicates, and 19 articles that met the inclusion criteria. Results: Of the 19 articles, 2 reported polymorphisms affecting the pharmacokinetics of infliximab, adalimumab, etanercept, methotrexate, and 17, pharmacodynamics. In the 19 articles, 23 polymorphisms of clinical relevance were identified in European, Japanese, Jordanian, and Indian populations. Conclusions: A total of 23 polymorphisms with clinical relevance were identified, which could be the basis for the design of a specific test sequencing in rheumatoid arthritis patients being considered for treatment with infliximab, adalimumab, etanercept, or methotrexate. The practical usefulness of this strategy requires evidence in specific clinical studies, associated with a targeted and personalised genetic test, and its effect on the effectiveness and safety of drug therapy with these drugs prescription.
Subject(s)
Humans , Pharmacogenetics , Infliximab , Etanercept , Arthritis, Rheumatoid , Methotrexate , AdalimumabABSTRACT
Resumen: En paralelo al proyecto de la secuenciación del genoma humano, se han desarrollado varias plataformas tecnológicas que están permitiendo ganar conocimiento sobre la estructura del genoma de las entidades humanas, así como evaluar su utilidad en el abordaje clínico del paciente. En la leucemia linfoblástica aguda (LLA), el cáncer infantil más común, las herramientas genómicas prometen ser útiles para detectar a los pacientes con alto riesgo de recaída, ya sea al diagnóstico o durante el tratamiento (enfermedad mínima residual), además de que permiten identificar los casos en riesgo de presentar reacciones adversas a los tratamientos antineoplásicos y ofrecer una medicina personalizada con esquemas terapéuticos diseñados a la medida del paciente. Un ejemplo claro de esto último es la identificación de polimorfismos de un solo nucleótido (SNPs) en el gen de la tiopurina metil transferasa (TPMT), donde la presencia de dos alelos nulos (homocigotos o heterocigotos compuestos) indica la necesidad de reducir la dosis de la mercaptopurina hasta en un 90% para evitar efectos tóxicos que pueden conducir a la muerte del paciente. En esta revisión se proporciona una visión global de la genómica de la LLA, describiendo algunas estrategias que contribuyen a la identificación de biomarcadores con potencial utilidad en la práctica clínica.
Abstract: In parallel to the human genome sequencing project, several technological platforms have been developed that let us gain insight into the genome structure of human entities, as well as evaluate their usefulness in the clinical approach of the patient. Thus, in acute lymphoblastic leukemia (ALL), the most common pediatric malignancy, genomic tools promise to be useful to detect patients at high risk of relapse, either at diagnosis or during treatment (minimal residual disease), and they also increase the possibility to identify cases at risk of adverse reactions to chemotherapy. Therefore, the physician could offer patient-tailored therapeutic schemes. A clear example of the useful genomic tools is the identification of single nucleotide polymorphisms (SNPs) in the thiopurine methyl transferase (TPMT) gene, where the presence of two null alleles (homozygous or compound heterozygous) indicates the need to reduce the dose of mercaptopurine by up to 90% to avoid toxic effects which could lead to the death of the patient. In this review, we provide an overview of the genomic perspective of ALL, describing some strategies that contribute to the identification of biomarkers with potential clinical application.
Subject(s)
Child , Humans , Genomics/methods , Precursor Cell Lymphoblastic Leukemia-Lymphoma/genetics , Antimetabolites, Antineoplastic/administration & dosage , Recurrence , Biomarkers, Tumor/metabolism , Neoplasm, Residual/genetics , Polymorphism, Single Nucleotide , Precursor Cell Lymphoblastic Leukemia-Lymphoma/pathology , Precursor Cell Lymphoblastic Leukemia-Lymphoma/drug therapy , Mercaptopurine/administration & dosage , Mercaptopurine/adverse effects , Methyltransferases/genetics , Antimetabolites, Antineoplastic/adverse effectsABSTRACT
La fase clínica de desarrollo de medicamentos para el tratamiento de enfermedades multifactoriales es larga y costosa. La farmacogenómica ayuda ese proceso mediante un mejor diseño de los ensayos clínicos y la selección de los pacientes con mayor probabilidad de responder con efectividad y menos reacciones adversas a los candidatos terapéuticos. Los objetivo de la presente revisión bibliográfica es exponer las ventajas de las pruebas farmacogenómicas en los ensayos clínicos de desarrollo de medicamentos, explicar las consecuencias éticas, legales y psicosociales de su aplicación y proponer algunas medidas para contrarrestar los riesgos psicosociales. Las pruebas farmacogenómicas fueron evaluada de manera simple, múltiple y combinada y cumplieron varios objetivos y funciones en las diferentes de fases de los ensayos clínicos de medicamentos. La realización del consentimiento informado de los sujetos participantes en los ensayos clínicos y su evaluación por los Comité de Ética y Revisión, las acciones de las autoridades regulatorias nacionales, el cumplimiento de las regulaciones ministeriales en salud pública, la aplicación de los principios bioéticos internacionales y el análisis de cada dilema ético según sus particularidades, son medidas que buscaron favorecer el respeto a la dignidad, la autonomía e intimidad de los sujetos de investigación y facilitar la aplicación de la farmacogenómica en los ensayos clínicos de medicamentos.
The clinical phase in the development of drugs for the treatment of multifactorial diseases is both lengthy and costly. Pharmacogenomics aids this process by providing a better design of clinical trials as well as a selection of patients with a greater probability to effectively respond and fewer adverse reactions to therapeutic candidates. The present bibliographic review is intended to reveal the advantages of pharmacogenomic tests in clinical trials for drug development, explain the ethical, legal and psychosocial consequences of their application, and propose some measures to counteract psychosocial risks. Pharmacogenomic tests were evaluated in a simple, multiple and combined manner, and fulfilled several objectives and functions at the various phases of clinical trials of drugs. Informed consent from the subjects participating in the clinical trials and their evaluation by the Ethical Review Board, actions taken by national regulatory authorities, compliance with public health ministerial regulations, application of international bioethical principles, and analysis of each ethical dilemma according to its specific characteristics, are all measures aimed at enhancing respect for dignity, autonomy and privacy of research subjects and facilitating the application of pharmacogenomics to clinical trials of drugs.
Subject(s)
Humans , Pharmacogenetics/ethics , Pragmatic Clinical TrialABSTRACT
El alcoholismo es una patología psiquiátrica compleja y de origen multifactorial en la que el factor genético explica alrededor del 50 % del fenómeno. Son numerosos los genes que se han asociado a esta enfermedad, pero su aporte individual es mínimo y contradictorio. Estos genes operan a través de características intermedias como la impulsividad y la sensibilidad al alcohol, lo que hace compleja la definición del fenotipo del alcoholismo. Los estudios de asociación de SNPs, de asociación a todo el genoma, de expresión y epigenéticos han identificado una amplia gama de variantes genéticas y epigenéticas, blancos para los estudios de susceptibilidad, diagnóstico y tratamiento farmacológico. Actualmente se comprenden mucho más estas relaciones y el desarrollo rápido de nuevas metodologías de estudio promete continuar este proceso, así como la generación de algoritmos de diagnóstico, prevención y tratamientos más acertados y confiables.
Alcoholism is a complex and multifactorial psychiatric pathology in which the genetic factor explains about 50% of the phenomenon. Numerous genes have been associated with the disease, but their individual contribution is minimal and contradictory. These genes operate through intermediate characteristics such as impulsivity and sensitivity to alcohol, which makes the definition of alcoholism phenotype a complex one. Association of SNPs, genome-wide association, expression and epigenetic studies have identified a wide range of genetic and epigenetic variants, targets for susceptibility studies, diagnosis and drug treatment. Currently, there is much more understanding of these relationships, and the rapid development of new methods of study promises to continue this process as well as the generation of algorithms for diagnosis, prevention and successful reliable treatments.
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Introducción: Existen muchos factores, tales como la relación médico-paciente, cuestiones educacionales, socio-culturales, económicas y orgánicas, entre otras, que pueden determinar a un acto terapéutico como exitoso o no. Objetivos: Ahondar en las cuestiones farmacogenéticas como un factor más de influencia en los tratamientos con medicación psiquiátrica. Material y Método: Revisión bibliográfica sobre principales revistas internaciones y libros referidos al tema. Resultados:Si bien los psicofármacos disponibles son muy eficaces en muchos individuos, en otros no lo son y hasta pueden provocar importantes efectos adversos tanto reversibles como irreversibles. Conclusiones: La posibilidad de secuenciar el genoma y objetivar variaciones interindividuales ofrece una nueva herramienta para entender (y hasta predecir) la respuesta individual a los tratamientos psicofarmacológicos, constituyendo un rol determinante en el resultado terapéutico.
Introduction: There are many factors such as the patient physiciansocio-cultural, economic and organic relationship, educational issues, among others, which can determine a therapeutic act as successful or not. Objectives: To deepen pharmacogenetic issues as a factor ofinfluence on psychiatric medication treatments. Material y method: Literature review on major internationalperiodicals and books on the subject.Results: Although psychotropic drugs available are veryeffective in many individuals, others are not and may evencause significant both reversible and irreversible adverseeffects. Conclusions: The ability to sequence the genome and objectify interindividual variations offers a new way to understand (andeven predict) the individual response to psychopharmacological treatments, constituting a decisive role in the therapeutic outcome.
Subject(s)
Humans , Pharmacogenetics/trends , Pharmacology, Clinical , PsychiatryABSTRACT
Las enfermedades cardiovasculares constituyen un importante problema de salud pública al ser la principal causa de morbilidad y mortalidad en el mundo. Por ello, existe la creciente necesidad de tratamientos farmacoterapéuticos más eficaces y seguros. Sin embargo, a pesar de que los médicos prescriben fármacos sobre la base de las características farmacológicas del medicamento y la probabilidad de obtener resultados clínicamente reproducibles, muchos de los fármacos son eficaces sólo entre 25-60% de los pacientes. En este sentido es que la Farmacogenómica, a través del estudio de variantes genéticas de proteínas involucradas en la farmacocinética y farmacodinamia de los medicamentos, persigue maximizar su eficacia y seguridad, Este trabajo pretende dar una visión general acerca de farmacogenómica cardiovascular y la posibilidad de utilizar, en la consulta clínica, herramientas genéticas para apoyar la decisión farmacoterapéutica, con el objeto de mejorar la respuesta al tratamiento de enfermedades cardiovasculares, un paso hacia la medicina personalizada en Chile.
Cardiovascular disease is a major public health problem being the leading cause of morbidity and mortality worldwide. Therefore, there is a growing need for safer and more effective pharmacotherapeutic treatments. However, although physicians prescribe drugs based on pharmacological properties of each drug and the probability of obtaining clinically reproducible results, many drugs are effective only in 25-60% of patients. In this respect, pharmacogenomics, through the study of genetic variants of proteins involved in the pharmacokinetics and pharmacodynamics of drugs, pursues to maximize their efficacy and safety, This paper aims to give an overview of cardiovascular pharmacogenomics and the possibility to use, in clinical practice, genetic tools to support pharmacotherapeutical decisions, in order to improve the response to treatment of cardiovascular diseases, a step toward personalized medicine in Chile.
Subject(s)
Humans , Pharmacogenetics , Cardiovascular Agents/therapeutic use , Cardiovascular Diseases/drug therapy , Cardiovascular Agents/pharmacokinetics , Cardiovascular Diseases/epidemiology , Risk Factors , Hydroxymethylglutaryl-CoA Reductase Inhibitors/therapeutic use , Hydroxymethylglutaryl-CoA Reductase Inhibitors/pharmacokinetics , Anticoagulants/therapeutic use , Anticoagulants/pharmacokineticsABSTRACT
Debido a la inespecificidad de los síntomas, el cáncer gástrico (CG) es diagnosticado frecuentemente en etapas avanzadas, lo que da cuenta de los altos índices de mortalidad debido a esta neoplasia a nivel mundial. El esquema de tratamiento adyuvante o neoadyuvante en los países occidentales incluye el uso de fluoropirimidinas citotóxicas y compuestos de platino formadores de aductos en el ADN. La respuesta clínica al tratamiento con estos fármacos depende principalmente de la sensibilidad del tumor, la cual a su vez está condicionada por el nivel de expresión de los blancos terapéuticos y de las enzimas de reparación del ADN. Sumado a esto, algunos polimorfismos de línea germinal en genes asociados al metabolismo y a la respuesta a estos fármacos, han mostrado asociación con respuestas pobres y con el desarrollo de eventos adversos, incluso con resultados fatales. La identificación de biomarcadores genómicos, en la forma de polimorfismos genéticos o la expresión diferencial de genes específicos asociados a la respuesta quimioterapeútica ha sido motivo de intensa investigación como base para la aplicación de la farmacogenómica en el establecimiento de una terapia farmacológica racional y personalizada del CG. Sin embargo, ante la eventual aplicación de la farmacogenómica en el ámbito clínico, es necesario establecer el valor pronóstico real de dichos biomarcadores mediante los estudios de asociación genotipo-fenotipo, así como su prevalencia en el contexto de cada población de pacientes. Estos aspectos son indispensables al evaluar la relación costo-efectividad de la introducción de los productos de la medicina genómica predictiva en el tratamiento del CG.
Gastric cancer (GC) is often diagnosed at later stages due to the lack of specificity of symptoms associated with the neoplasm, causing high mortality rates worldwide. The first line of adjuvant and neoadjuvant treatment includes cytotoxic fluoropyrimidines and platin-containing compounds which cause the formation of DNA adducts. The clinical outcome with these antineoplastic agents depends mainly on tumor sensitivity, which is conditioned by the expression level of the drug targets and the DNA-repair system enzymes. In addition, some germ line polymorphisms, in genes linked to drug metabolism and response to chemotherapy, have been associated with poor responses and the development of adverse effects, even with fatal outcomes in GC patients. The identification of genomic biomarkers, such as individual gene polymorphisms or differential expression patterns of specific genes, in a patient-by-patient context with potential clinical application is the main focus of current pharmacogenomic research, which aims at developing a rational and personalized therapy (i.e., a therapy that ensures maximum efficacy with no predictable side effects). However, because of the future application of genomic technologies in the clinical setting, it is necessary to establish the prognostic value of these genomic biomarkers with genotype-phenotype association studies and to evaluate their prevalence in the population under treatment. These issues are important for their cost-effectiveness evaluation, which determines the feasibility of using these medical genomic research products for GC treatment in the clinical setting.
Subject(s)
Humans , Antineoplastic Agents/pharmacokinetics , Antineoplastic Combined Chemotherapy Protocols/therapeutic use , Stomach Neoplasms/drug therapy , Antineoplastic Agents/adverse effects , Antineoplastic Agents/classification , Biomarkers , Biological Transport/genetics , Biotransformation/genetics , Combined Modality Therapy , Drug Combinations , Deoxycytidine/adverse effects , Deoxycytidine/analogs & derivatives , Deoxycytidine/pharmacokinetics , Deoxycytidine/therapeutic use , Drug Resistance, Neoplasm/genetics , Enzymes/genetics , Ethnicity/genetics , Fluorouracil/adverse effects , Fluorouracil/analogs & derivatives , Fluorouracil/pharmacokinetics , Fluorouracil/therapeutic use , Gastrectomy , Mexico , Molecular Targeted Therapy , Organoplatinum Compounds/pharmacokinetics , Oxonic Acid/pharmacokinetics , Patient Selection , Pharmacogenetics , Precision Medicine , Prodrugs/pharmacokinetics , Stomach Neoplasms/genetics , Stomach Neoplasms/surgery , Tegafur/pharmacokineticsABSTRACT
La enfermedad cardiovascular representa la primera causa de morbimortalidad a nivel mundial. Actualmente, la evidencia que sustenta la implementación de determinadas intervenciones terapéuticas se origina a partir de datos provenientes de grupos poblacionales. Sin embargo, los pacientes presentan variaciones interindividuales relacionadas tanto con la eficacia como con la toxicidad ante un mismo tratamiento farmacológico. Estas variaciones pueden ser explicadas principalmente por diferencias en la adherencia, interacciones no reconocidas y diferencias genéticas. Las alteraciones en el genoma explican entre un 20 y un 95% de la variabilidad interindividual tanto en la disponibilidad como en la respuesta a fármacos. En el tratamiento de las enfermedades cardiovasculares existen diversos ejemplos de dicha variabilidad genética interindividual y su impacto en la eficacia o toxicidad de diferentes fármacos. La variabilidad genética que determina la respuesta al clopidogrel radica fundamentalmente en el polimorfismo del citocromo (CYP) 2C19. Los polimorfismos en los genes CYP 2C9 y VKORC1 explican gran parte de la variabilidad en la respuesta a los anticoagulantes dicumarínicos. Con respecto al tratamiento hipolipidemiante, el polimorfismo del gen SLCO1B1 se ha asociado a la aparición de miopatía en pacientes tratados con simvastatina. Muchos otros polimorfismos han sido postulados pero sin un impacto clínico definido hasta la fecha. La utilización de la farmacogenómica en la práctica cotidiana ofrece la oportunidad de poder predecir toxicidad o eficacia terapéutica.
Cardiovascular disease remains a major cause of morbidity and mortality worldwide. Current medical practice takes into account information based on population studies and benefits observed in large populations or cohorts. However, individual patients present great differences in both toxicity and clinical efficacy that can be explained by variations in adherence, unknown drug to drug interactions and genetic variability. The latter seems to explain from 20% up to 95% of patient to patient variability. Treating patients with cardiovascular disorders faces the clinician with the challenge to include genomic analysis into daily practice. There are several examples within cardiovascular disease of treatments that can vary in toxicity or clinical usefulness based on genetic changes. One of the main factors affecting the efficacy of Clopidogrel is the phenotype associated with polymorphisms in the gene CYP 2C9. Furthermore, regarding oral anticoagulants, changes in CYP2C9 and VKORC1 play an important role in changing the clinical response to anticoagulation. When analyzing statin treatment, one of their main toxicities (myopathy) can be predicted by the SLCO1B1 polymorphism. The potential for prediction of toxicity and clinical efficacy from the use of genetic analysis warrants further studies aiming towards its inclusion in daily clinical practice.
Subject(s)
Humans , Cardiovascular Diseases/genetics , Cardiovascular Diseases/drug therapy , Polymorphism, Genetic , Ticlopidine/analogs & derivatives , Ticlopidine/therapeutic use , Platelet Aggregation Inhibitors/therapeutic use , Clopidogrel , Anticoagulants/therapeutic useABSTRACT
Variations in the response to dental treatments may be due to several factors, including genetic variability. Pharmacogenomics is the application of genomics technology to the development of specific drugs and its relationship with dentistry is a recent area of research. This paper aims to discuss the relationship between pharmacogenomics and dental practice, focusing on clinical implications and current researches. It was used technique of documentation based on literature available at Scielo (Scientific Electronic Library Online) and MEDLINE between 2000 and 2010. Diseases and disorders can be associated with misspellings or genetic mutations. The knowledge of how genetic variation interferes in the response to treatment will allow the development of drugs to be used, for instance, in oral and systemic infection therapy; for the management of oral lesions (e.g. herpes, squamous cell carcinoma), bone resorption (e.g. periodontal diseases); chronic oral and facial pain; for the management of autoimmune and temporomandibular joint disorders. Periodontics, Cariology, Oral Pathology, among other areas, represent a vast field of research yet to be explored. In summary, dentistry begins to show an increasingly close relationship with pharmacogenomics, which may result in the development and improvement of treatment modalities more individualized and potentially more effective.
Variações na resposta aos tratamentos odontológicos ocorrem devido a vários fatores, incluindo variabilidade genética. Farmacogenômica é a aplicação da tecnologia genômica para o desenvolvimento de fármacos específicos, e sua relação com a odontologia é uma área recente de pesquisa. Este trabalho objetiva discutir a relação entre farmacogenômica e a prática odontológica, enfocando as implicações clínicas e pesquisas atuais. Foi utilizada técnica de documentação com base na literatura disponível no Scielo e MEDLINE, entre 2000 e 2010. Doenças e distúrbios podem ser associados a erros de transcrição ou mutações genéticas. O conhecimento de como a variação genética interfere na resposta ao tratamento vai permitir o desenvolvimento de medicamentos a serem utilizados, como na terapia de infecção oral e sistêmica, para o manejo de lesões orais (por exemplo, herpes, carcinoma de células escamosas); reabsorção óssea (por exemplo, doenças periodontais); dores orais e faciais crônicas; doenças autoimunes e distúrbios da articulação temporomandibular. Periodontia, Cariologia, Patologia Oral, entre outras áreas, representam um vasto campo de investigação a ser ainda explorado. Em síntese, a Odontologia vem apresentando uma relação cada vez mais estreita com a farmacogenômica, que pode resultar no desenvolvimento e aperfeiçoamento de modalidades de tratamento mais individualizado e potencialmente mais eficaz.
ABSTRACT
La bioinformática es una disciplina que emergió a partir del vasto volumen de información derivada del Proyecto Genoma Humano y ha transformado radicalmente las posibilidades de abordar los procesos biológicos a todos sus niveles de organización. Numerosas bases de datos y otros recursos se encuentran hoy disponibles a través de Internet, y se han desarrollado diversas herramientas para extraer, analizar y producir nuevos conocimientos útiles para la mejor comprensión del proceso salud-enfermedad, así como para el diseño y la validación de nuevos medicamentos y pruebas diagnósticas. La incorporación de la bioinformática en la formación de los recursos humanos dentro de las ciencias médicas, en marcha en muchas universidades de otros países en las carreras del perfil biológico, es una necesidad para la preparación del personal ante las transformaciones que tienen y tendrán lugar en la medicina a partir de la introducción de los resultados de los avances en la genética, la biología molecular y otras ciencias relacionadas. Además de facilitar la asimilación de los contenidos relacionados con los hallazgos que se aplicarán a la práctica médica y que deberán incluirse en la docencia de pregrado y en los estudios de especialización, la bioinformática puede fomentar la creación de grupos multidisciplinarios y novedosos modelos para la investigación-desarrollo dentro del sistema nacional de salud en Cuba
Bioinformatics is a discipline which comes from the huge volume of information derived from the Human Genome Project and has radically changed the opportunities of addressing the biological processes at all their organizational levels. A number of databases and other resources are presently available on Internet; similarly, several tools allow drawing, analyzing and developing new useful pieces of knowledge for a better understanding of the health/disease process, as well as for the design and validation of new drugs and diagnostic tests. The introduction of bioinformatics in the formation of human resources within the medical sciences, a process underway in many universities of other nations in the biological profiled careers, is a requirement for the preparation of the staff to face the changes that are taking place and will take place in medicine as a result of the advances in genetics, molecular biology and other related sciences. In addition to facilitating the assimilation of contents associated to the findings that will be applied in the medical practice and that should be included in undergraduate teaching and in the specialization studies, bioinformatics may encourage the creation of multidisciplinary groups and of new models for research and development in the national healthcare of Cuba
Subject(s)
Computational Biology/education , Genomics , PharmacogeneticsABSTRACT
La medicina genómica y sus diferentes formas de aplicación medicinas personalizada o individualizada, de la que hacen parte la farmacogenómica, toxicogenómica y nutrigenómica; y la medicina predictiva, regenerativa o de reemplazo, molecular y reproductiva), sin lugar a dudas han transformado a la medicina moderna y se constituyen en un nuevo paradigma. Este artículo pretende hacer una revisión de las distintas formas de la medicina genómica, desde sus beneficios para la salud humana y cambios sustanciales en el abordaje del proceso salud-enfermedad, así como de las problemáticas y paradojas asociadas que deben ser abordadas desde la Bioética y el Derecho...
Genomic medicine and its different application forms, such as personalized (to which pharmacogenomics, toxicogenomics, nutrigenomics and predictive medicine belong), regenerative, molecular and reproductive medicines, have undoubtedly transformed modern medicine, becoming a new paradigm. The present study aims at reviewing the different forms of genomic medicine, from its benefits to human health, up to the problems and paradoxes that must be approached from bioethics and law...
A medicina genômica e suas diferentes formas de aplicação (medicinas personalizada ou individualizada, da qual fazem parte a farmacogenômica, a toxicogenômica e a nutrigenômica; e a medicina preditiva, regenerativa ou de substituição, molecular e reprodutiva) sem dúvidas têm transformado a medicina moderna e constituem um novo paradigma. Este artigo pretende fazer uma revisão das distintas formas da medicina genômica, desde seus benefícios para a saúde humana e mudanças substanciais na abordagem do processo saúde-doença, bem como das problemáticas e paradoxos associados que devem ser abordados a partir da Bioética e do Direito...
Subject(s)
Humans , Bioethics , Genetics , Genome , Genetics/ethics , Genetics/standards , Genome/ethicsABSTRACT
As CYP3A4 e CYP3A5 são enzimas do citocromo P450 responsáveis pela biotransformação de esteróides endógenos e vários fármacos, entre eles as estatinas. Polimorfismos nos genes CYP3A4 e CYP3A5 (CYP3A4*1B, CYP3A5*3C e CYP3A5*1D) foram associados com diferenças na resposta hipolipemiante de indivíduos tratados com atorvastatina e sinvastatina. Neste estudo foram avaliados os efeitos de hipolipemiantes sobre a expressão e a atividade de CYP3A4 e CYP3A5, em linhagens celulares HepG2 e Caco-2 e em CMSP de indivíduos hipercolesterolêmicos, e sua relação com variantes de CYP3A4 e CYP3A5. Métodos: Foram analisados 99 indivíduos normolipidêmicos (NL) e 139 hipercolesterolêmicos (HC). Os HC foram tratados com atorvastatina (10 mg/dia/4 semanas). A genotipagem das variantes CYP3A4*1B, CYP3A5*3C e CYP3A5*1D foi feita por PCR-RFLP ou sequenciamento. A análise da expressão de RNAm de CYP3A4 e CYP3A5 foi avaliada por PCR em tempo real quantitativo (PCRq). As proteínas totais de HepG2 foram avaliadas por Western Blotting. A atividade de CYP3A4 e CYP3A5 in vivo foi avaliada pela relação entre cortisol e seu metabólito, 6β-hidróxicortisol, na urina (razão 6βOH-cortisol/cortisol), por CLAE. Resultados: O perfil de expressão basal de RNAm de CYP3A4 e CYP3A5 é diferente entre HepG2 e Caco-2. Caco-2 expressa 31 vezes mais CYP3A4 e 122 vezes mais CYP3A5 que HepG2. Em células HepG2 tratadas por 12 h, a atorvastatina 20 µM aumentou a expressão de CYP3A4 em 10 vezes, em relação ao controle (p=0,006). Após 24 h de tratamento, atorvastatina (1-20 µM) aumentou a expressão de CYP3A4 em 5 a 8 vezes, nas HepG2 (p< 0,001). Para CYP3A5, a exposição por 12 h à atorvastatina 20 µM aumentou a expressão em 4 vezes em relação ao controle ( p<0,001). A exposição à sinvastatina 1,0 µM por 24 h aumentou a expressão de CYP3A4, em 2 vezes (p<0,01), em HepG2. Também se observou que, nesse tempo de tratamento, a sinvastatina (0,1 µM a 10 µM) aumentou a expressão de CYP3A5 em 2 a 4 vezes (p<0,05)...
CYP3A4 and CYP3A5 are enzymes from the cytochrome P450 resposible for the biotransformation of endogenous steroids and several drugs, e.g. statins. Polymorphisms in CYP3A4 and CYP3A5 (CYP3A4*1B, CYP3A5*3C and CYP3A5*1D) have been associated with variation of lipid-lowering response in individuals treated with atorvastatin and simvastatin. In this study we evaluated the effect of hypolipemiants on expression and activity of CYP3A4 and CYP3A5, in HepG2 and Caco-2 cell lines as well as peripheral blood mononuclear cells (PBMC) in hypercholesterolemic individuals, and their relationship with CYP3A4 and CYP3A5 variants. Methods: We analyzed 99 normolipidemic individuals (NL) and 139 hypercholesterolemic (HC). HC subjects were treated with atorvastatin (HC, 10 mg/day/4 weeks). Analysis of CYP3A4*1B, CYP3A5*3C e CYP3A5*1D variants was performed with PCR-RFLP or sequencing assays and mRNA expression of CYP3A4 and CYP3A5 with Quantitative Real-time PCR (qRT-PCR) was performed . Total protein content was extracted from HepG2 for Western Blotting experiments. Activity of CYP3A4 and CYP3A5 in vivo was evaluated by 6βOH-cortisol and cortisol ratio in urine samples, by HPLC-UV method. Results: Baseline mRNA expression is different for HepG2 and Caco-2. Caco-2 expresses 31 times more CYP3A4 and 122 times more CYP3A5 than HepG2. In HepG2 cells treated for 12h, atorvastatin 20 µM increased CYP3A4 expression in 10 times, when compared to the control (p=0.006). After 24h treatment, atorvastatin (1-20 µM) increased CYP3A4 mRNA expression in 5 to 8 times, in HepG2 (p< 0.001). To CYP3A5, exposure for 12h to atorvastatin 20 µM increased expression in 4 times when compared to the control (p<0.001). Exposure to simvastatin 1.0 µM for 24 h increased CYP3A4 expression in 2 times, (p<0.01), in HepG2. With the 24h treatment,simvastatin (0.1 µM - 10 µM) CYP3A5 showed increased mRNA expression in 2 to 4 times (p<0.05). HepG2 cell line carries homozygous functional alleles (CYP3A4*1A e CYP3...
Subject(s)
Gene Expression , Gene Expression , Hypercholesterolemia/physiopathology , Hypercholesterolemia/drug therapy , In Vitro Techniques , PharmacogeneticsABSTRACT
O presente estudo avaliou o perfil farmacogenômico de 338 pacientes, sob terapia antiagregante. Os pacientes foram submetidos a tratamento prévio com AAS (100mg/dia) e clopidogrel (75mg/dia) por no mínimo cinco dias antes da angioplastia coronária. Os indivíduos com resposta considerada indesejada <30% de inibição de PRU (do inglês, P2RY12 Reaction Unit) para clopidogrel e >550 ARU (do inglês, Aspirin Reaction Unit), foram considerados como não respondedores. As concentrações plasmáticas dos antiagregantes foram determinadas por cromatografia líquida acoplada à espectrometria de massa do tipo triploquadrupolo (LC-MS/MS). A taxa da inibição da agregação plaquetária foi medida utilizando-se o sistema VerifyNow®. A expressão gênica global das células totais do sangue periférico foi avaliada pela tecnologia de microarranjos de DNA Human Exon ST 1.0 Array. Características genotípicas dos pacientes também foram avaliadas pelo sistema Sequenom®. Assim, foi possível obter como resultados a identificação de 64% e 10% para pacientes não respondedores ao clopidogrel e AAS respectivamente, sendo que para o primeiro foi possível identificar a associação desta não resposta a variáveis clínicas como diabetes (p = 0,003), hipertensão (p = 0,011) e hábito de fumar (p = 0,041) e sexo (p = 0,022) e idade dos pacientes (p = 0,004) em relação à resposta ao AAS. O método de quantificação simultânea do clopidogrel, seu metabólito majoritário e do AS (metabólito do AAS), apresentou limites de quantificação entre de 2 a 500 ng/mL, 2 a 2000 ng/mL e de 20 a 2000 ng/mL, respectivamente. O estudo de associação encontrou uma relação significante da presença dos SNPs presentes nos genes CYP5A1 (rs2299890) e CYP2C19 (rs4244285 e rs3758580), com a variação na resposta ao clopidogrel, obtendo um valor de p corrigido pelo teste de permutação inferior a 0,001. Como também, uma fraca associação da variação na resposta do AAS com o SNP rs9605030 do gene COMT (p = 0,009). Os resultados do ...
This study investigated the pharmacogenomics profile of 338 patients under antiplatelet therapy. Patients undergoing pretreatment with ASA (100 mg/day) and clopidogrel (75mg/day) for at least five days prior to coronary angioplasty. Individuals with response <30% of PRU (P2RY12 reaction unit) were considering non responder for clopidogrel and >550 of ARU (aspirin reaction unit), were considered as non responders for ASA. Plasma concentrations of the antiagregation drugs were determined by liquid chromatography followed mass spectrometry of triple quadrupole detection (LC-MS/MS). The rate of inhibition of platelet aggregation was measured using the VerifyNow® system. The global gene expression of total cells in blood was assessed by DNA microarray technology Human Exon 1.0 ST Array. Genotypic characteristics of the patients were also evaluated by the Sequenom® system. Thus it was possible to obtain results such as identification of 64% and 10% for patients non responders to clopidogrel and aspirin respectively, and for the first could identify the association of this response to variables such as diabetes (p = 0.003), hypertension (p = 0.011) and smoking (p = 0.041) for clopidogrel and sex and age in relation to response to ASA (p = 0.022 and p = 0.004, respectively). The method of simultaneous quantification of clopidogrel and its major metabolite of AS (metabolite of ASA), had quantification limits between 200 to 500 ng/mL 2000-2000 ng/mL and 20 to 2000 ng/mL, respectively. The association study found a significant grating presence of SNPs present in genes CYP5A1 (rs2299890) and CYP2C19 (rs4244285 and rs3758580), with the variation in the response to clopidogrel, obtaining a corrected p value by permutation test below 0.001. As well, a weak association of variation in the response of ASA with the SNP rs9605030 of the gene COMT (p = 0.009). The results of microarray related therapeutic response to clopidogrel with genes CA2, MKRN1, ABCC3 and MBP followed by...
Subject(s)
Aged , Humans , Male , Middle Aged , Pharmacogenetics/statistics & numerical data , Platelet Aggregation Inhibitors/analysis , Analysis of Variance , Chromatography, Liquid , Genome, Human , Mass SpectrometryABSTRACT
Introducción: La farmacogenómica estudia la forma como las variaciones del genoma influyen en la respuesta a medicamentos. Su principal valor médico consiste en: i) la identificación de individuos en quienes se puede predecir si un fármaco será eficaz y a qué dosis o, por el contrario, si el fármaco se debe evitar por alto riesgo de toxicidad o porque el paciente nunca responderá a él; ii) identificar blancos moleculares susceptibles de ser intervenidos por fármacos. Objetivo: Revisar y sistematizar información farmacogenómica relacionada con la utilización y el impacto clínico de medicamentos. Metodología: Se consultó la literatura biomédica pertinente en las bases de datos Medline, Proquest, Science Direct, Ovid y Cochrane, así como la información disponible en sitios web de organismos sanitarios internacionales.
Introduction: Pharmacogenomics studies how changes in the genome influence the response to drugs. Its main medical value consists in: i) the identification of individuals in which it is possible to predict if certain drug and dose will be effective or on the contrary, if the drug must be avoided due to its high toxicity risk or because the patient will never respond to it; ii) to identify molecular targets able to be intervened by drugs.Objective: To carry out a systematic review about pharmacogenomic oriented to the use and clinical impact of drugs. Methodology: The pertinent biomedical literature was searched in several databases such as Medline, Proquest, Science Direct, Ovid and Cochrane, as well as the available information in web sites of international sanitary organizations.