Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT

Detalhes bibliográficos
Autor(a) principal: Hartmann, Louise Mross
Data de Publicação: 2013
Tipo de documento: Dissertação
Idioma: por
Título da fonte: Biblioteca Digital de Teses e Dissertações da PUC_RS
Texto Completo: http://tede2.pucrs.br/tede2/handle/tede/1751
Resumo: Molecular Imaging is a technique that allows visualization, characterization and quantification of biochemical processes in a molecular and cellular level, in humans and other live organisms. Among all the technics available, it s possible to highlight PET (Positron Emission Tomography), which needs the administration of a radiotracer in the organism to be studied. Radiotracers or radiopharmaceuticals are molecules that possess a radioactive element in their composition. Nowadays, the most used PET radiopharmaceutical is fluorodeoxyglucose (18F) or [18F]FDG. This molecule is a glucose analogue that accumulates inside the cell, allowing glucose metabolism visualization. However, considering the use of glucose by the brain as its main energy source, this radiopharmaceutical accumulates in high rates in the normal brain, making difficult to see pathological processes. In order to visualize more specific alterations in the brain, many others radiotracers can be used, for example flumazenil (18F). Flumazenil (FMZ) shows high affinity for the benzodiazepine site in the GABAA receptor, acting as competitive antagonist. It s already known that GABAA receptors play a key role in neuronal excitability control, and expression deficiencies in these receptors are involved in many neurological and psychiatric disorders, such as epilepsy, anxiety, depression, schizophrenia, etc. Regarding epilepsy, it is believed that in the epileptogenic foci the GABAA receptor expression is reduced, the brain region where seizures start. For this reason, the aim of this work was to study flumazenil (18F) synthesis, as well as its purification and quality control analysis, in order to produce a molecule that can be used to localize the epileptogenic foci. The fluoride ion (18F-) was produced using PET Trace 16 MeV cyclotron from GE Healthcare, through the nuclear reaction 18O(p,n)18F, through the irradiation of enriched 18O water with accelerated protons. The flumazenil (18F) synthesis was performed in the automated synthesis module TRACERlab FX F-N from GE Healthcare, by nucleophilic aromatic substitution reaction. The established ideal reaction conditions were 145°C for 15 minutes, and 6,2mg precursor mass. The 18F- incorporation degree in the flumazenil molecule was 72±6% (n = 5), verified by reaction mixture analysis. In the last step flumazenil (18F) was purified through high performance liquid chromatography (HPLC) and reserve-phase tC18 cartridge, obtaining a product with a purity higher than 99%. The radionuclidic purity and identity were analyzed by gamma ray spectroscopy and half-life evaluation. Radiochemical purity was verified using thin layer chromatography (TLC) and HPLC. The chemical purity tested the presence of kryptofix 2.2.2, through a colorimetric test, and residual solvents (ethanol and acetonitrile) through gas chromatography (GC). The pH was verified using strips. All the results complied with the pharmacopeia using [18F]FDG as reference. Synthesis time was 80 minutes including purification steps and the overall yield was 9.3% (decay corrected). The radiopharmaceutical stability was analyzed for 8 hours, and no impurities were detected in this period. The method developed showed to be viable to produce flumazenil (18F), which can be used in pre-clinical and clinical studies in the future. The knowledge acquired with this work will allow the improvement of this technology in the country, and the research of new radiotracers for PET/CT imaging.
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spelling Costa, Jaderson Costa daCPF:13812653087http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4783400E2CPF:00732454026http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4380840E5Hartmann, Louise Mross2015-04-14T13:35:49Z2013-11-122013-07-24HARTMANN, Louise Mross. Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT. 2013. 83 f. Dissertação (Mestrado em Medicina e Ciências da Saúde) - Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre, 2013.http://tede2.pucrs.br/tede2/handle/tede/1751Molecular Imaging is a technique that allows visualization, characterization and quantification of biochemical processes in a molecular and cellular level, in humans and other live organisms. Among all the technics available, it s possible to highlight PET (Positron Emission Tomography), which needs the administration of a radiotracer in the organism to be studied. Radiotracers or radiopharmaceuticals are molecules that possess a radioactive element in their composition. Nowadays, the most used PET radiopharmaceutical is fluorodeoxyglucose (18F) or [18F]FDG. This molecule is a glucose analogue that accumulates inside the cell, allowing glucose metabolism visualization. However, considering the use of glucose by the brain as its main energy source, this radiopharmaceutical accumulates in high rates in the normal brain, making difficult to see pathological processes. In order to visualize more specific alterations in the brain, many others radiotracers can be used, for example flumazenil (18F). Flumazenil (FMZ) shows high affinity for the benzodiazepine site in the GABAA receptor, acting as competitive antagonist. It s already known that GABAA receptors play a key role in neuronal excitability control, and expression deficiencies in these receptors are involved in many neurological and psychiatric disorders, such as epilepsy, anxiety, depression, schizophrenia, etc. Regarding epilepsy, it is believed that in the epileptogenic foci the GABAA receptor expression is reduced, the brain region where seizures start. For this reason, the aim of this work was to study flumazenil (18F) synthesis, as well as its purification and quality control analysis, in order to produce a molecule that can be used to localize the epileptogenic foci. The fluoride ion (18F-) was produced using PET Trace 16 MeV cyclotron from GE Healthcare, through the nuclear reaction 18O(p,n)18F, through the irradiation of enriched 18O water with accelerated protons. The flumazenil (18F) synthesis was performed in the automated synthesis module TRACERlab FX F-N from GE Healthcare, by nucleophilic aromatic substitution reaction. The established ideal reaction conditions were 145°C for 15 minutes, and 6,2mg precursor mass. The 18F- incorporation degree in the flumazenil molecule was 72±6% (n = 5), verified by reaction mixture analysis. In the last step flumazenil (18F) was purified through high performance liquid chromatography (HPLC) and reserve-phase tC18 cartridge, obtaining a product with a purity higher than 99%. The radionuclidic purity and identity were analyzed by gamma ray spectroscopy and half-life evaluation. Radiochemical purity was verified using thin layer chromatography (TLC) and HPLC. The chemical purity tested the presence of kryptofix 2.2.2, through a colorimetric test, and residual solvents (ethanol and acetonitrile) through gas chromatography (GC). The pH was verified using strips. All the results complied with the pharmacopeia using [18F]FDG as reference. Synthesis time was 80 minutes including purification steps and the overall yield was 9.3% (decay corrected). The radiopharmaceutical stability was analyzed for 8 hours, and no impurities were detected in this period. The method developed showed to be viable to produce flumazenil (18F), which can be used in pre-clinical and clinical studies in the future. The knowledge acquired with this work will allow the improvement of this technology in the country, and the research of new radiotracers for PET/CT imaging.A Imagem Molecular é uma técnica que permite a visualização, caracterização e quantificação de processos bioquímicos a nível molecular e celular, em humanos e outros organismos vivos. Dentre as tecnologias disponíveis, destaca-se o PET (Positron Emission Tomography - Tomografia por Emissão de Pósitrons) que necessita da administração do radiotraçador ao organismo a ser estudado. Radiotraçadores ou radiofármacos são moléculas que possuem um elemento radioativo em sua composição. Atualmente, o radiofármaco mais utilizado em PET é o fludesoxiglicose (18F) ou [18F]FDG. Esta molécula é um análogo da glicose, que se acumula no interior da célula, permitindo a visualização do metabolismo da glicose. Entretanto, considerando que o cérebro utiliza basicamente a glicose como fonte de energia, este radiofármaco se acumula em altas taxas no cérebro normal, dificultando a visualização de processos patológicos. A fim de visualizar alterações patológicas mais específicas no cérebro, vários outros radiotraçadores podem ser utilizados, como por exemplo o flumazenil (18F). O flumazenil (FMZ) apresenta alta afinidade pelo local de ligação de benzodiazepínicos do receptor GABAA, atuando como antagonista competitivo. Sabe-se que os receptores GABAA possuem um papel chave no controle da excitabilidade neuronal e que deficiências na expressão destes receptores estão envolvidas em um grande número de patologias neurológicas e psiquiátricas, como epilepsia, ansiedade, depressão, esquizofrenia e etc. Com relação a epilepsia, acredita-se que exista uma diminuição da expressão dos receptores GABAA no foco epileptogênico, região do cérebro geradora das crises epilépticas. Desta forma, o objetivo deste trabalho foi estudar a síntese do flumazenil (18F), bem como sua purificação e as análises de controle de qualidade, visando produzir uma molécula que auxilie na localização do foco epileptogênico. O íon fluoreto (18F-) foi produzido no cíclotron PET Trace 16 MeV da GE Healthcare, através da reação nuclear 18O(p,n)18F, decorrente da irradiação da água enriquecida com 18O pelos prótons acelerados. A síntese do flumazenil (18F) foi realizada no módulo automatizado TRACERlab FX F-N da GE Helthcare, através de uma reação de substituição nucleofílica aromática. As condições ideais de reação foram estabelecidas em 145°C durante 15 minutos, sendo que a massa do precursor foi de 6,2mg. A taxa de incorporação do 18F- na molécula do flumazenil foi de 72±6% (n = 5), verificado através da análise da mistura de reação. Na fase final o flumazenil (18F) foi purificado através de cromatografia líquida de alta eficiência (CLAE) e cartucho de fase-reversa tC18, obtendo-se um produto com grau de pureza superior a 99%. A pureza e identidade radionuclídica foram avaliadas através de espectroscopia de raios gama e do tempo de meia-vida. A pureza radioquímica foi verificada por cromatografia em camada delgada (CCD) e CLAE. Na análise da pureza química verificou-se a presença de kryptofix 2.2.2, através de teste colorimétrico, e solventes residuais (etanol e acetonitrila) por cromatografia gasosa (CG). O pH foi analisado utilizando fitas. Os resultados obtidos foram dentro dos limites estabelecidos pela farmacopéia levando em consideração o [18F]FDG. O tempo total de síntese foi de 80 minutos e o rendimento total foi de 9,3% (corrigido pelo decaimento). A estabilidade do radiofármaco foi analisada durante 8 horas, sendo que nenhuma impureza foi detectada neste período. O método desenvolvido mostrou ser viável para produção do flumazenil (18F), podendo este ser futuramente utilizado em estudos pré-clínicos e clínicos. Os conhecimentos adquiridos com este trabalho permitirão o avanço desta tecnologia no país, e a pesquisa de novos radiotraçadores para a realização de exames PET/CT.Made available in DSpace on 2015-04-14T13:35:49Z (GMT). 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dc.title.por.fl_str_mv Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT
title Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT
spellingShingle Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT
Hartmann, Louise Mross
MEDICINA
BIOLOGIA MOLECULAR
RADIOFARMACÊUTICA
FLUMAZENIL
EPILEPSIA
CNPQ::CIENCIAS DA SAUDE::MEDICINA
title_short Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT
title_full Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT
title_fullStr Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT
title_full_unstemmed Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT
title_sort Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT
author Hartmann, Louise Mross
author_facet Hartmann, Louise Mross
author_role author
dc.contributor.advisor1.fl_str_mv Costa, Jaderson Costa da
dc.contributor.advisor1ID.fl_str_mv CPF:13812653087
dc.contributor.advisor1Lattes.fl_str_mv http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4783400E2
dc.contributor.authorID.fl_str_mv CPF:00732454026
dc.contributor.authorLattes.fl_str_mv http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4380840E5
dc.contributor.author.fl_str_mv Hartmann, Louise Mross
contributor_str_mv Costa, Jaderson Costa da
dc.subject.por.fl_str_mv MEDICINA
BIOLOGIA MOLECULAR
RADIOFARMACÊUTICA
FLUMAZENIL
EPILEPSIA
topic MEDICINA
BIOLOGIA MOLECULAR
RADIOFARMACÊUTICA
FLUMAZENIL
EPILEPSIA
CNPQ::CIENCIAS DA SAUDE::MEDICINA
dc.subject.cnpq.fl_str_mv CNPQ::CIENCIAS DA SAUDE::MEDICINA
description Molecular Imaging is a technique that allows visualization, characterization and quantification of biochemical processes in a molecular and cellular level, in humans and other live organisms. Among all the technics available, it s possible to highlight PET (Positron Emission Tomography), which needs the administration of a radiotracer in the organism to be studied. Radiotracers or radiopharmaceuticals are molecules that possess a radioactive element in their composition. Nowadays, the most used PET radiopharmaceutical is fluorodeoxyglucose (18F) or [18F]FDG. This molecule is a glucose analogue that accumulates inside the cell, allowing glucose metabolism visualization. However, considering the use of glucose by the brain as its main energy source, this radiopharmaceutical accumulates in high rates in the normal brain, making difficult to see pathological processes. In order to visualize more specific alterations in the brain, many others radiotracers can be used, for example flumazenil (18F). Flumazenil (FMZ) shows high affinity for the benzodiazepine site in the GABAA receptor, acting as competitive antagonist. It s already known that GABAA receptors play a key role in neuronal excitability control, and expression deficiencies in these receptors are involved in many neurological and psychiatric disorders, such as epilepsy, anxiety, depression, schizophrenia, etc. Regarding epilepsy, it is believed that in the epileptogenic foci the GABAA receptor expression is reduced, the brain region where seizures start. For this reason, the aim of this work was to study flumazenil (18F) synthesis, as well as its purification and quality control analysis, in order to produce a molecule that can be used to localize the epileptogenic foci. The fluoride ion (18F-) was produced using PET Trace 16 MeV cyclotron from GE Healthcare, through the nuclear reaction 18O(p,n)18F, through the irradiation of enriched 18O water with accelerated protons. The flumazenil (18F) synthesis was performed in the automated synthesis module TRACERlab FX F-N from GE Healthcare, by nucleophilic aromatic substitution reaction. The established ideal reaction conditions were 145°C for 15 minutes, and 6,2mg precursor mass. The 18F- incorporation degree in the flumazenil molecule was 72±6% (n = 5), verified by reaction mixture analysis. In the last step flumazenil (18F) was purified through high performance liquid chromatography (HPLC) and reserve-phase tC18 cartridge, obtaining a product with a purity higher than 99%. The radionuclidic purity and identity were analyzed by gamma ray spectroscopy and half-life evaluation. Radiochemical purity was verified using thin layer chromatography (TLC) and HPLC. The chemical purity tested the presence of kryptofix 2.2.2, through a colorimetric test, and residual solvents (ethanol and acetonitrile) through gas chromatography (GC). The pH was verified using strips. All the results complied with the pharmacopeia using [18F]FDG as reference. Synthesis time was 80 minutes including purification steps and the overall yield was 9.3% (decay corrected). The radiopharmaceutical stability was analyzed for 8 hours, and no impurities were detected in this period. The method developed showed to be viable to produce flumazenil (18F), which can be used in pre-clinical and clinical studies in the future. The knowledge acquired with this work will allow the improvement of this technology in the country, and the research of new radiotracers for PET/CT imaging.
publishDate 2013
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dc.identifier.citation.fl_str_mv HARTMANN, Louise Mross. Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT. 2013. 83 f. Dissertação (Mestrado em Medicina e Ciências da Saúde) - Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre, 2013.
dc.identifier.uri.fl_str_mv http://tede2.pucrs.br/tede2/handle/tede/1751
identifier_str_mv HARTMANN, Louise Mross. Desenvolvimento do radiofármaco [18F] flumazenil para realização de exames PET/CT. 2013. 83 f. Dissertação (Mestrado em Medicina e Ciências da Saúde) - Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre, 2013.
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