Comparação entre métodos de fixação de iodo radioativo em substrato de prata para confecção de fontes utilizadas em Braquiterapia / Comparison between methods for fixing radioactive iodine in silver substrate for manufacturing brachytherapy sources

Souza, Carla Daruich de

13 July 2012

Dentre as diversas formas de se tratar o câncer de próstata, a braquiterapia com sementes de iodo-125 é uma opção que apresenta ótimos resultados e menor ocorrência de efeito colateral. No presente trabalho diferentes métodos de deposição de iodo radioativo em substrato de prata foram comparados com o propósito de eleger a alternativa mais adequada para a produção rotineira de sementes de iodo-125 do IPEN. A metodologia utilizada foi escolhida com base na infraestrutura disponível e na experiência dos pesquisadores presentes. Por essa razão, utilizou-se o iodo-131 para realização dos testes (mesmo comportamento do iodo-125). Quatro métodos foram selecionados: Método 1 (teste de eletrodeposição baseado no método desenvolvido por D. Kubiatowicz) com a eficiência de 65,16%; Método 2 (Reação química baseada no método desenvolvido por D. Kubiatowicz - HCl) com o resultado de 70,80% de eficiência; Método 3 (Reação química baseada no método desenvolvido pela Dra Maria Elisa Rostelato aquecimento/sulfeto) com 55,80% de eficiência; Método 4 (IQ-IPEN) apresentou o melhor resultado de eficiência, 99%. Como há mais fixação do material radioativo (que representa praticamente todo o custo da semente) por esse método, o preço final é o mais barato, sendo esse o método sugerido para ser implementado no laboratório de produção de fontes de braquiterapia do IPEN. Além disso o método é o mais rápido. / Among the different ways to treat prostate cancer, brachytherapy with iodine- 125 seeds is an option that provides good results and fewer side effects. In the present study several deposition methods of radioactive iodine in a silver substrate were compared in order to choose the most suitable alternative for the routine production to be implemented at IPENs laboratory. The methodology used was chosen based on the available infrastructure and experience of the researchers present. Therefore, the I131 was used for testing (same chemical behavior as I131). Four methods were selected: Method 1 (test based on electrodeposition method developed by D.Kubiatowicz) presented 65.16% efficiency; Method 2 (chemical reaction based on the method developed by D. Kubiatowicz - HCl) with the result of 70.80% efficiency; method 3 (chemical reaction based on the method developed by Dr. Maria Elisa Rostelato) with 55.80% efficiency; Method 4 (IQ-IPEN) resulted in 99% efficiency. Since this method has more radioactive material fixation (which represents virtually the entire cost of the seed), the final price is the cheapest. This method is the suggested one to be implemented in the IPENs laboratory for brachytherapy sources production. Besides, the method is the fasted one.

125-iodine

131-iodine

brachytherapy

braquiterapia

câncer de próstata

iodo-125

iodo-131

prostate cancer

Comparação entre métodos de fixação de iodo radioativo em substrato de prata para confecção de fontes utilizadas em Braquiterapia / Comparison between methods for fixing radioactive iodine in silver substrate for manufacturing brachytherapy sources

Carla Daruich de Souza

13 July 2012

Dentre as diversas formas de se tratar o câncer de próstata, a braquiterapia com sementes de iodo-125 é uma opção que apresenta ótimos resultados e menor ocorrência de efeito colateral. No presente trabalho diferentes métodos de deposição de iodo radioativo em substrato de prata foram comparados com o propósito de eleger a alternativa mais adequada para a produção rotineira de sementes de iodo-125 do IPEN. A metodologia utilizada foi escolhida com base na infraestrutura disponível e na experiência dos pesquisadores presentes. Por essa razão, utilizou-se o iodo-131 para realização dos testes (mesmo comportamento do iodo-125). Quatro métodos foram selecionados: Método 1 (teste de eletrodeposição baseado no método desenvolvido por D. Kubiatowicz) com a eficiência de 65,16%; Método 2 (Reação química baseada no método desenvolvido por D. Kubiatowicz - HCl) com o resultado de 70,80% de eficiência; Método 3 (Reação química baseada no método desenvolvido pela Dra Maria Elisa Rostelato aquecimento/sulfeto) com 55,80% de eficiência; Método 4 (IQ-IPEN) apresentou o melhor resultado de eficiência, 99%. Como há mais fixação do material radioativo (que representa praticamente todo o custo da semente) por esse método, o preço final é o mais barato, sendo esse o método sugerido para ser implementado no laboratório de produção de fontes de braquiterapia do IPEN. Além disso o método é o mais rápido. / Among the different ways to treat prostate cancer, brachytherapy with iodine- 125 seeds is an option that provides good results and fewer side effects. In the present study several deposition methods of radioactive iodine in a silver substrate were compared in order to choose the most suitable alternative for the routine production to be implemented at IPENs laboratory. The methodology used was chosen based on the available infrastructure and experience of the researchers present. Therefore, the I131 was used for testing (same chemical behavior as I131). Four methods were selected: Method 1 (test based on electrodeposition method developed by D.Kubiatowicz) presented 65.16% efficiency; Method 2 (chemical reaction based on the method developed by D. Kubiatowicz - HCl) with the result of 70.80% efficiency; method 3 (chemical reaction based on the method developed by Dr. Maria Elisa Rostelato) with 55.80% efficiency; Method 4 (IQ-IPEN) resulted in 99% efficiency. Since this method has more radioactive material fixation (which represents virtually the entire cost of the seed), the final price is the cheapest. This method is the suggested one to be implemented in the IPENs laboratory for brachytherapy sources production. Besides, the method is the fasted one.

braquiterapia

câncer de próstata

iodo-125

iodo-131

125-iodine

131-iodine

brachytherapy

prostate cancer

Transition Metal Mediated Transformations of Carboranes

Eriksson, Ludvig

January 2003

<p>This thesis describes the use of copper and palladium to mediate transformations of carboranes, especially <i>p</i>-carborane.</p><p>1-(1-<i>p</i>-carboranyl)-<i>N</i>-methyl-<i>N</i>-(2-butyl)-3-isoquinolinecarboxamide, a carborane containing analogue of the peripheral benzodiazepine receptor (PBR) ligand PK11195, has been synthesised. A key step in the reaction is the copper (I) mediated coupling of p-carborane with ethyl 1-bromo-isoquinoline-3-carboxylate. </p><p><i>p</i>-Carborane has been arylated on the 2-<i>B</i>-atom in high yields, using the Suzuki–Miyaura reaction. Thus the reaction between 2-I-<i>p</i>-carborane and various arylboronic acids [1-naphthyl-, phenyl-, 4-MeO-C₆H₄-, 3-CH₃CONH-C₆H₄-, 4-NC-C₆H₄-, 3-NO₂-C₆H₄-], gave the corresponding 2-aryl-<i>p</i>-carboranes in DME solution when reacted in the presence of cesium fluoride and the catalytic Pd₂(dba)₃–dppb system. Under the same conditions, the boron-boron bond forming reaction of two <i>p</i>-carboranylboronic esters (2-[(pinacolato)boron]-<i>p</i>-carborane and 2-[(neopentyl glycolato)boron]-p-carborane) was also shown feasible.</p><p><i>p</i>-Carborane has been vinylated on the 2-<i>B</i>-atom in high yields by use of the Heck reaction. The coupling between 2-I-<i>p</i>-carborane and various styrenes [4-H-, 4-C₆H₄-, 4-Cl , 4-Br-, 4-NO₂-, 4-CH3O- and 4 CH₃ ] resulted in the formation of the corresponding<i>trans</i>-β-(2-<i>B</i>-<i>p</i>-carboranyl) styrene in DMF solution when reacted in the presence of silver phosphate and the palladacycle Herrmann´s catalyst. The reaction was shown to proceed at higher rate with electron rich than with electron deficient olefins.</p><p>The feasibility of palladium-catalysed isotopic exchange of an iodinated closo-carborane with a radioisotope of iodine has been studied. 2-I-<i>p</i>-carborane was selected as a model compound. It was shown, that such isotopic exchange is possible and provides a high yield (83 ± 4.2 %) during 40 min long reaction. The reaction conditions were optimised, and it was demonstrated that presence of the tetra n-butylammonium hydrogensulphate is important in order to stabilise catalyst and provide reproducibility of labelling. In this work we have modified the methodology and extended the application to a wider range of iodinated carboranes. By the use of Herrmann’s catalyst in toluene at 100 °C this [¹²⁵I]-iodide labelling could be improved and extended. 2-I-<i>p</i>- 9-I-<i>m</i>-, 9-I-<i>o</i>-, 3-I-<i>o</i>-carborane, 1-phenyl-3-I-<i>o</i>-carborane and 1,2-diphenyl-3-I-<i>o</i>-carborane could be [¹²⁵I]-iodide labelled in high to excellent yields within 5 minutes.This reported palladium catalyzed radio-iodination of the uncharged closo-carboranes might find use in pharmacokinetic studies of carborane derivatives.</p>

Chemistry

carborane

isoquinoline

PK11195

peripheral bensodiazepine receptor

Cu (I) Iodide

iodinated carborane

palladium

isotopic exchange

Herrmann’s Catalyst

Heck reaction

Suzuki-Miyaura reaction

cross coupling

arylation

olefination

125-iodine

radiolabelling

carboraneboronic ester

BNCT

2-iodo-

Kemi

Chemistry

Kemi

Transition Metal Mediated Transformations of Carboranes

Eriksson, Ludvig

January 2003

This thesis describes the use of copper and palladium to mediate transformations of carboranes, especially p-carborane. 1-(1-p-carboranyl)-N-methyl-N-(2-butyl)-3-isoquinolinecarboxamide, a carborane containing analogue of the peripheral benzodiazepine receptor (PBR) ligand PK11195, has been synthesised. A key step in the reaction is the copper (I) mediated coupling of p-carborane with ethyl 1-bromo-isoquinoline-3-carboxylate. p-Carborane has been arylated on the 2-B-atom in high yields, using the Suzuki–Miyaura reaction. Thus the reaction between 2-I-p-carborane and various arylboronic acids [1-naphthyl-, phenyl-, 4-MeO-C6H4-, 3-CH3CONH-C6H4-, 4-NC-C6H4-, 3-NO2-C6H4-], gave the corresponding 2-aryl-p-carboranes in DME solution when reacted in the presence of cesium fluoride and the catalytic Pd2(dba)3–dppb system. Under the same conditions, the boron-boron bond forming reaction of two p-carboranylboronic esters (2-[(pinacolato)boron]-p-carborane and 2-[(neopentyl glycolato)boron]-p-carborane) was also shown feasible. p-Carborane has been vinylated on the 2-B-atom in high yields by use of the Heck reaction. The coupling between 2-I-p-carborane and various styrenes [4-H-, 4-C6H4-, 4-Cl , 4-Br-, 4-NO2-, 4-CH3O- and 4 CH3 ] resulted in the formation of the correspondingtrans-β-(2-B-p-carboranyl) styrene in DMF solution when reacted in the presence of silver phosphate and the palladacycle Herrmann´s catalyst. The reaction was shown to proceed at higher rate with electron rich than with electron deficient olefins. The feasibility of palladium-catalysed isotopic exchange of an iodinated closo-carborane with a radioisotope of iodine has been studied. 2-I-p-carborane was selected as a model compound. It was shown, that such isotopic exchange is possible and provides a high yield (83 ± 4.2 %) during 40 min long reaction. The reaction conditions were optimised, and it was demonstrated that presence of the tetra n-butylammonium hydrogensulphate is important in order to stabilise catalyst and provide reproducibility of labelling. In this work we have modified the methodology and extended the application to a wider range of iodinated carboranes. By the use of Herrmann’s catalyst in toluene at 100 °C this [125I]-iodide labelling could be improved and extended. 2-I-p- 9-I-m-, 9-I-o-, 3-I-o-carborane, 1-phenyl-3-I-o-carborane and 1,2-diphenyl-3-I-o-carborane could be [125I]-iodide labelled in high to excellent yields within 5 minutes.This reported palladium catalyzed radio-iodination of the uncharged closo-carboranes might find use in pharmacokinetic studies of carborane derivatives.

Chemistry

carborane

isoquinoline

PK11195

peripheral bensodiazepine receptor

Cu (I) Iodide

iodinated carborane

palladium

isotopic exchange

Herrmann’s Catalyst

Heck reaction

Suzuki-Miyaura reaction

cross coupling

arylation

olefination

125-iodine

radiolabelling

carboraneboronic ester

BNCT

2-iodo-

Kemi

Chemistry

Kemi