Ultra-diluted/dynamized doxorubicin reduces the toxicity caused by doxorubicin during the in vitro culture of pig preantral follicles enclosed in ovarian tissue.

The present study investigated the effect of adding allopathic doxorubicin (DOX 0.3 µg/mL), the vehicle of ultradiluted/dynamized doxorubicin (0.2 % ethanol), different dynamizations of ultradiluted/dynamized doxorubicin (DOX 6CH, DOX 12CH and DOX 30CH), both in the absence or presence of chemical stress induced by doxorubicin at 0.3 µg/mL on follicular survival and activation, antioxidant capacity of the medium, Catalase activity (CAT), production of reactive protein thiol, maintenance of type I and III collagen fibers and accumulation of lipofuscin in porcine ovarian tissue cultured in vitro for 48 hours. To do this, part of the ovarian tissue fragments was fixed for the uncultured control and the rest were cultured in: MEM (cultured control), DOX 0.3 µg/mL, Ethanol, DOX 6CH, DOX 12CH, DOX 30CH, DOX (0.3 µg/mL) + DOX 6CH, DOX (0.3 µg/mL) + DOX 12CH, DOX (0.3 µg/mL) + DOX 30CH treatments. The results showed that, in general, ultradiluted/dynamized doxorubicin (DOX 6CH, DOX 12CH and DOX 30CH) mitigated the toxic effect of allopathic doxorubicin (0.3 µg/mL) on the morphology of preantral follicles, the content of type I and III collagen fibers, and the production of lipofuscin in the tissue. However, only DOX (0.3 µg/mL) + DOX 6CH attenuated the oxidative stress induced by DOX (0.3 µg/mL), maintaining adequate CAT activity that was similar to the uncultured control. Additionally, when the three isolated ultradiluted/dynamized doxorubicin were considered, only DOX 12CH increased the reduced thiol levels compared to the uncultured control and MEM. In conclusion, supplementing the culture medium with ultradiluted/dynamized DOX (DOX 6CH, DOX 12CH and DOX 30CH) attenuated the toxicity induced by allopathic doxorubicin during the in vitro culture of pig preantral follicles enclosed in ovarian tissue.

Ultradiluição homeopática de triiodotironina altera a apoptose celular da cauda de girinos de Rana catesbeiana: in vitro / Ultra high dilution of triiodothyronine modifies the cellular apoptosis of Rana catesbeiana tadpole tail: in vitro

Ultradiluição (UHD) é o efeito de uma solução, diluída acima do número de Avogrado, que na dependência da sua dinamização (diluição com sucussão) induz um efeito celular supressivo ou estimulante, com conseqüente obtenção de uma curva dose-efeito oscilatória. Por outro lado, a 3,3,5 Triiodo-L-Tironina (T3) é o hormônio mais importante na indução e manutenção das mudanças metamórficas dos girinos, nelas incluídas a absorção da cauda. O presente estudo, cego e randomizado, tem como objetivo comprovar que o T3 5.10-24M (10ª cH) altera a apoptose induzida pelo T3 100 nM na cauda de girinos de Rana catesbeiana, in vitro. Foram distribuídos 60 explantes em três grupos: Grupo A: sem o estímulo do T3 em dose farmacológica e em UHD; Grupo B (teste): sob a ação de T3 100 nM e T3 10ª cH (5.10-24 M); Grupo C (controle): sob a ação do T3 100 nM e etanol 70% sem sucussão. A análise estatística da área dos explantes, no primeiro e ultimo dia do experimento, e do índice apoptótico foi realizado através do teste t Student e foi considerado estatisticamente significante quando p<0,05. Embora sem diferenças significativas na área dos explantes do grupo teste e no grupo controle, um maior e significante índice apoptótico foi identificado nos explantes do grupo teste. Este resultado confirma que o T3 na 10ª cH altera a ação do T3 em dose farmacológica. Futuros experimentos serão realizados, com diferentes dinamizações, com o objetivo da parametrização da curva dose-efeito.

Ultra High Dilution (UHD) is the effect of a solution, beyond the Avogadro limits, that in the dependence of the applied dinamization (dilution with succussion) elicits a suppressive or a stimulant effect on a living cell, with a consequent generation of an oscillatory dose-effect curve. The entire process of anuran amphibian metamorphosis is under thyroid hormones control, included the complete resorption of the tadpole tail. A random and blind study was performed, with the intent to prove that T3 5.10-24 M (10ª cH) modifies the apoptosis induction of T3 100 nM in Rana catesbeiana tadpoles tail tips, in vitro. 60 Explants were distributed in three ways: Group A: without T3 action, at pharmacological and UHD dose; Group B (test): under the action of T3 100 nM and treated with T3 10ª cH (UHD); Group C (control): under the action of T3 100 nM and treated with ethanol 70% unsuccussed. In order to identify significant differences in the area of the remainder explants, at the first and final day of the experiment, and in the apoptotic index we used a student t-test. Although we didnt find statistical difference in macroscopic tadpoles tail tips area from test and control groups, a high and significant (p<0,05) index of apoptosis in histology was found in explants of test group. This data confirms that T3 10 cH modifies the effect of T3 at pharmacological dose. More studies will be necessary, using different dinamizations, to the parameterization of the dose-effect curve proceeding from these experiments.