Anti toxic effect of broccoli extract on stannous dichloride toxicity / Efeito antitóxico do extrato de brócolis na toxicidade do dicloreto de estanho

PURPOSE: Since Technetium-99m (99mTc) has favorable physical and chemical characteristics, it is widely used radioisotope in Nuclear Medicine. However, stannous dichloride (SnCl2) has been widely used as a reducing agent in labeling procedure of pharmaceutical with radionuclide, it has been realized that SnCl2 have genotoxic and cytotoxic effects on biological systems. In previous studies, it has been shown that some herbal extract can reduce genotoxic and cytotoxic effects of SnCl2. In the present study, it is aimed to evaluate the effect of the broccoli extract on the survival of E. coli ATCC 25922 strain against to toxic effects of SnCl2. METHODS: Broccoli was extracted with methanol extraction. HPLC and TLC analysis of broccoli extract were performed. Then antitoxicity and dose response assays were performed on bacterial strain. RESULTS: The broccoli extract had dose dependent protective effect against SnCl2 toxic effect on E. coli. CONCLUSIONS: The consumption of broccoli may alter the stannous dichloride toxicity. Broccoli extract may use as a new protective strategies against the toxic effect of SnCl2 on patients who were taken 99mTc radiopharmaceuticals.

OBJETIVO: Em face de suas características físico-químicas, o Tecnécio-99m (99mTc) é um radiofármaco amplamente utilizado na Medicina Nuclear. Todavia, o dicloreto de estanho (SnCl2) tem sido largamente aplicado como um agente redutor no procedimento farmacêutico de marcação com radionuclídeos. Constatou-se que o SnCl2 apresenta efeitos genotóxicos e citotóxicos nos sistemas biológicos. Em estudos prévios, foi demonstrado que alguns extratos de ervas podem reduzir tais efeitos. O estudo atual objetivou avaliar os efeitos do extrato de brócolis na sobrevida da cepa E. coli ATCC 25922, exposta ao efeito tóxico do SnCl2. MÉTODOS: O extrato de brócolis foi obtido mediante extração com metanol. Analises com HPLC e TLC foram efetuadas. Avaliou-se a antitoxicidade e realizou-se um ensaio dose-resposta para uma cepa de bactérias. RESULTADOS: O extrato de brócolis mostrou um efeito protetor dose dependente para os efeitos tóxicos do SnCl2 sobre a E. coli. CONCLUSÕES: O consumo de brócolis pode alterar a toxicidade do dicloreto de estanho. O extrato de brócolis pode ser utilizado como uma nova estratégia para proteção de pacientes contra os efeitos tóxicos do SnCl2, nos quais foi administrado o radiofármaco Tecnécio-99m.

Radiolabeling of methanol extracts of yarrow (Achillea millefolium l) in rats / Radiomarcação do extrato metanólico de yarrow (Achillea millefolium l) em ratos

PURPOSE: Current study is focused on extraction with methanol, purification, labeling with 131I using iodogen method of the yarrow plant and investigating in vivo biological activity using biodistribution and imaging studies on healthy animal models. The aim of the study is to contribute plant extracts to discover new drugs in the diagnosis and treatment of several diseases. METHODS: Nine female and nine male healthy Wistar albino rats, which were approximately 100-150 g in weight, were used for biodistribution studies. For imaging studies four healthy male Balb-C mice were used. Quality control studies were done utilizing thin layer radio chromatography (TLRC) and high performance liquid chromatography (HPLC) methods. For biodistribution studies, 131I radiolabeled Peak 7 (131I-Peak 7) was sterilized and injected into the tail veil of rats and imaging studies were obtained using Kodak FX PRO in vivo Imaging System. RESULTS: The radiolabeling yield of each purified the bioactive extracts of the yarrow plant, seven peaks was between 79 and 92%. The highest radiolabeling yield was calculated for 131I radiolabeled seventh peak (131I-Peak 7) (92.78±5.04, n=5). For this reason the biodistribution and imaging studies were done for 131I-Peak 7. That's why; these studies with Peak 7 were carried out. CONCLUSION: Peak 7 was radiolabeled with 131I in high yield for using imaging and therapeutic studies in nuclear medical applications.

OBJETIVO: O atual estudo tem por objetivo a extração com metanol, purificação, marcação com I131 usando o método direto de marcação da planta Achillea, para investigar in vivo a atividade biológica usando biodistribuição e estudos de imagem em modelos animais saudáveis. O objetivo do estudo é contribuir com extratos de plantas para descobrir novas drogas para o diagnóstico e tratamento de várias doenças. MÉTODOS: Nove fêmeas e nove machos ratos Wistar albino saudáveis, com aproximadamente 100 a 150g de peso foram usados para estudos de biodistribuição. Para estudos de imagem, quatro camundongos Balb-C machos e saudáveis foram usados. Estudos de controle de qualidade foram realizados usando métodos de cromatografia de camada fina e cromatografia líquida de alta performance. Para estudos de biodistribuição, pico 5 radiografado com I131 (I131-Peak 7) foi esterilizado e injetado na veia da cauda dos ratos e estudos de imagem foram obtidos usando Sistema de Imagem Kodak FX PRO in vivo. RESULTADOS: O retorno radiomarcado de cada extrato bioativo purificado da planta Achillea sete picos estavam entre 79 e 92%. O retorno com maior marcação foi calculado para I131 sétimo pico (I131-Peak 7) (92,78±5,04, n=5). Por esta razão os estudos de biodistribuição e de imagem foram feitos para I131-Peak 7. CONCLUSÃO: Peak 7 foi radiomarcado com I131 em alto retorno para uso em estudos terapêuticos e de imagens nas aplicações médicas nucleares.

Effect of a plant origin drug on the biodistribution of 99mTc-DTPA in Wistar albino rats

In recent years all over the world, medicinal plants are used quite a lot but side effects of biological and chemical contents and radiopharmaceutical interactions for each consumer in question aren't entirely well-known. The studies of plant origin drug interaction with radiopharmaceuticals are highly relevant and desired. One of them is passiflora syrup (Passiflora incarnata L., Passifloraceae) which is widely used for depression, insomnia, anxiety and menopause period. The aim of current study is to evaluate possible effects of passiflora syrup on the biodistribution of 99mTc-DTPA and its blood cells uptake. DTPA was labeled with 99mTc radionuclide. Biodistribution studies were performed on male Wistar albino rats which were treated via oral feeding-gavage-method with either passiflora syrup or 0.9 % NaCl as control group for ten days. Blood samples were obtained by cardiac blood withdrawal from the rats and they were radiolabeled. The biodistribution results showed that the passiflora syrup decreased the uptake of 99mTc-DTPA in kidneys and in blood cells. 99mTc-DTPA being used widely as a kidney diagnostic agent in nuclear medicine seems to be interacting with orally taken passiflora. Passiflora syrup may modify the uptake of 99mTc-DTPA by kidney. The knowledge of this negative effect may contribute to reduce the risk of misdiagnosis and/or repetition of the examinations in nuclear medicine.