Diazepam nanocapsules as an alternative for sleep induction: Development study and toxicity assessment.

Diazepam (DZP) is a sedative medication prescribed to treat anxiety and as a sleep inducer, although its residual effects are unfavorable to patients. Nanotechnology represents a tool to improve the pharmacological characteristics of drugs, reducing their side effects. This study aimed to develop and characterize DZP nanocapsules and to evaluate their toxicity in alternative models and the hypnotic-sedative effect in mice. Nanocapsules were prepared by the nanoprecipitation method and properly characterized. Long-term and accelerated stability studies were performed. The in vitro release profile was determined by diffusion in Franz cells. The safety of the formulation was evaluated in the Caenorhabditis elegans (C. elegans) and the oral acute toxicity in mice. Pharmacological evaluation was performed using thiopental-induced sleeping time. DZP was successfully incorporated into Poly-(ɛ-caprolactone) (PCL) nanocapsules, with high entrapment efficiency. The nanocapsule did not affect the development or survival of C. elegans, different from the free drug, which affected the nematode development at the higher tested dose. No signs of toxicity, nor body mass or feed consumption changes were observed during the 14 days evaluated. Finally, this innovative formulation carrying DZP can produce a hypnotic-effect at a reduced dose compared to the free drug, with no toxicity in alternative models.

Permitted daily exposure from preclinical studies of Ginkgo biloba L. dry extract

Abstract Resolution 658/2022 of the Brazilian Regulatory Agency requires the determination of the permitted daily exposure (PDE) of pharmaceutical agents. Ginkgo biloba L. is used therapeutically to treat memory deficits and other brain diseases. However, published results indicate that more studies are needed to confirm the safety of Ginkgo biloba. This study aimed to evaluate the dry extract of Ginkgo biloba L. leaves PDE as an ingredient in an oral pharmaceutical product in preclinical studies using mice. Acute oral toxicity and repeated dose experiments were performed based on OECD guidelines, as well as genotoxicity tests. The results indicate that Ginkgo biloba L. has low acute toxicity, no liver toxicity, and does not alter blood glucose levels. No changes in weight gain were observed, but food intake decreased in males during the first week of treatment at the highest dose. Hematological parameters were not altered in males, whereas females presented lower leukocyte and lymphocyte counts and higher neutrophil counts at the highest dose. The lipid profile was not altered in males, whereas total cholesterol was increased in females. The estimated PDE was 0.1 mg/day and, when related to the maximum residual concentration, indicates that the cleaning process used is safe and does not require reassessment.