a Department of Chemistry , Sam Houston State University , Huntsville , TX , USA.
b Department of Chemistry and Biochemistry , South Dakota State University , Brookings , SD , USA.
Toxicol Mech Methods. 2019 Jul;29(6):438-444. doi: 10.1080/15376516.2019.1585504. Epub 2019 May 6.
Formulation optimization and antidotal combination therapy are the two important tools to enhance the antidotal protection of the cyanide (CN) antidote dimethyl trisulfide (DMTS). The focus of this study is to demonstrate how the formulation with polysorbate 80 (Poly80), an excipient used in pharmaceutical technology, and the combinations with other CN antidotes having different mechanisms of action enhance the antidotal efficacy of the unformulated (neat) DMTS. The LD for CN was determined by the statistical Dixon up-and-down method on mice. Antidotal efficacy was expressed as antidotal potency ratio (APR). CN was injected subcutaneously one minute prior to the antidotes' injection intramuscularly. The APR values of 1.17 (dose: 25 mg/kg bodyweight) and 1.45 (dose: 50 mg/kg bodyweight) of the neat DMTS were significantly enhanced by the Poly80 formulation at both investigated doses to 2.03 and 2.33, respectively. The combination partners for the Poly80 formulated DMTS (DMTS-Poly80; 25 and 50 mg/kg bodyweight) were 4-nitrocobinamide (4NCbi) (20 mg/kg bodyweight) and aquohydroxocobinamide (AHCbi; 50, 100, and 250 mg/kg bodyweight). When DMTS-Poly80 (25 and 50 mg/kg bodyweight; APR = 2.03 and 2.33, respectively) was combined with 4NCbi (20 mg/kg bodyweight; APR = 1.35), significant increase in the APR values were noted at both DMTS doses (APR = 2.38 and 3.12, respectively). AHCbi enhanced the APR of DMTS-Poly80 (100 mg/kg bodyweight; APR = 3.29) significantly only at the dose of 250 mg/kg bodyweight (APR = 5.86). These studies provided evidence for the importance of the formulation with Poly80 and the combinations with cobinamide derivatives with different mechanisms of action for DMTS as a CN antidote candidate.
制剂优化和解毒剂联合治疗是增强氰化物(CN)解毒剂二甲基三硫(DMTS)解毒保护作用的两种重要工具。本研究的重点是展示含有聚山梨醇 80(聚山梨醇 80,一种用于药物技术的赋形剂)的制剂以及与具有不同作用机制的其他 CN 解毒剂组合如何增强未成型(纯)DMTS 的解毒功效。CN 的 LD 通过小鼠统计 Dixon 上下法确定。解毒功效表示为解毒效力比(APR)。CN 在解毒剂肌肉内注射前一分钟皮下注射。纯 DMTS 的剂量为 25mg/kg 体重时,APR 值为 1.17,剂量为 50mg/kg 体重时,APR 值为 1.45,在两个研究剂量下,用聚山梨醇 80 制剂分别显著增强至 2.03 和 2.33。聚山梨醇 80 制剂化的 DMTS(DMTS-Poly80;25 和 50mg/kg 体重)的组合伙伴为 4-硝甲酰胺(4NCbi;20mg/kg 体重)和水合羟甲酰胺(AHCbi;50、100 和 250mg/kg 体重)。当 DMTS-Poly80(25 和 50mg/kg 体重;APR=2.03 和 2.33)与 4NCbi(20mg/kg 体重;APR=1.35)联合使用时,在两种 DMTS 剂量下,APR 值均显著增加(APR=2.38 和 3.12)。仅在 250mg/kg 体重剂量下,AHCbi 显著增强 DMTS-Poly80(100mg/kg 体重;APR=3.29)的 APR(APR=5.86)。这些研究为聚山梨醇 80 制剂和与具有不同作用机制的 cobinamide 衍生物联合使用作为 DMTS 作为 CN 解毒剂候选物的重要性提供了证据。
