In order to examine the toxicity profile of glycine, an authorized food additive, a solution of glycine in water for injection was administered orally (via gavage) to male SD rats (Crl:CD(SD)) once daily for 4 weeks at doses of 500, 1000 and 2000 mg/kg/day in a volume of 10 mL/kg. Control animals received vehicle only. No animals died, and no glycine-related changes were observed in body weight, food consumption, water consumption, hematology, organ weight, gross pathological examination or histopathological examination. In urinalysis, daily urinary volume and urinary Cl excretion were significantly higher in the 2000 mg/kg/day dose group, and urine pH and urinary protein showed lower trends in the glycine-treated groups. However, these changes were considered to be of little toxicological significance, because there were no histopathological changes in the kidneys or urinary bladder and no changes in other urinary parameters. As regards blood chemistry, phospholipids were significantly higher in the 2000 mg/kg/day dose group. However, the increase was small and was not considered to be toxicologically significant. In conclusion, none of the animals in any of the glycine-treated groups showed changes that were considered toxicologically significant. Therefore, the no-observed-adverse-effect level of glycine was estimated to be at least 2000 mg/kg/day under the conditions of this study.
BackgroundAtropine sulfate is an anticholinergic agent for treatment of hypertrophic pyloric stenosis and is orally administrated as a triturate with lactose hydrate. Because of the low safety margin of atropine sulfate, triturate uniformity is a key safety factor. In this study, we assessed the uniformity of atropine sulfate in 1000-fold triturates prepared by wet mixing and dry mixing methods and discussed the cause of the difference in uniformity between two preparation methods.MethodsA 1000-fold triturate of atropine sulfate with lactose hydrate was prepared by two different methods: wet mixing and dry mixing. The wet mixing was performed according to Kurashiki Central Hospital protocol and the dry mixing was a simple physical mixing by a rocking mixer. The uniformity of atropine sulfate content in aliquots of a 1000-fold triturate with lactate hydrate was assessed by liquid chromatography–tandem mass spectrometry (LC–MS/MS) quantification. Solid-state analyses of the triturates by Raman chemical imaging and X-ray powder diffraction (XRPD) were performed to investigate the difference in uniformity.ResultsThe LC–MS/MS quantification showed that the uniformity of atropine sulfate in the 1000-fold triturate was excellent for wet mixing but was significantly variable for dry mixing. On the basis of the Raman chemical imaging and XRPD analyses, it was indicated that an amorphous thin film of atropine sulfate coated the surfaces of the lactose hydrate particles during wet mixing and contributed to the uniformity of the triturate. In contrast, clusters of the crystalline atropine sulfate were found in the dry mixing samples.ConclusionThe results showed that better atropine sulfate triturate uniformity was achieved using the wet mixing method rather than the dry method and the cause of the uniformity difference between two mixing methods was indicated by the multilateral assessment.
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