Study of pharmacokinetic of new peptide drug 1-deamino-arginine-vasotocin for hypernatremia correction

Q3 Pharmacology, Toxicology and Pharmaceutics
V. Kosman, N. M. Faustova, M. V. Karlina, V. Makarov, M. Makarova
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Abstract

Introduction: The pharmacokinetics studies are some of the necessary parts of the drugs preclinical investigations. Pharmacokinetic properties of new peptide drug 1-deamino-arginine-vasotocin (dAVT) in the form of an injection solution for intravenous and intramuscular administration for hypernatremia correction were investigated. Materials and methods: The study was carried out on male rats and rabbits with a single intravenous administration of the drug in three doses, a single intramuscular administration in one dose and multiple administration to rats in one dose. To determine natriiuretic peptide concentration in blood plasma, tissues, and excretes, assays based on a sodium level change measurement using a biochemical analyzer have been developed and validated. Pharmacokinetic parameters were calculated by the model-independent method of statistical moments. Results and discussion: The pharmacokinetics of the drug was found to be linear after a single administration of dAVT drug in the dose range 3–10 μg/kg for rats and rabbits. The relative bioavailability of dAVT after intramuscular and intravenous administrations was more than 30%. After a biomarker content change, the active substance was intensively distributed into highly vascularized organs (spleen), the organs that provide metabolism and subsequent excretion (liver and kidneys), whereas it hardly reached moderately and weakly vascularized tissues (muscles, omentum). Less than 10% dAVT was excreted with urine; no dAVT was determined in feces; and repeated administration did not lead to its cumulation. Conclusion: Pharmacokinetics parameters of new nonapeptide drug 1-deamino-arginine-vasotocin were evaluated after original analytical biomarker approach. The study included all main areas necessary to characterize the original drug pharmacokinetic.
新型肽类药物1-二氨基精氨酸-催产素治疗高钠血症的药代动力学研究
前言:药代动力学研究是药物临床前研究的重要组成部分。研究了新型多肽药物1-脱氨基精氨酸-血管催产素(dAVT)静脉注射和肌肉注射治疗高钠血症的药代动力学特性。材料与方法:采用雄性大鼠和家兔单次静脉给药3次,单次肌肉给药1次,大鼠多次给药1次。为了确定血浆、组织和排泄物中的利钠肽浓度,使用生化分析仪进行了基于钠水平变化测量的测定,并进行了验证。采用与模型无关的统计矩法计算药代动力学参数。结果与讨论:在3 ~ 10 μg/kg剂量范围内单次给药后,大鼠和家兔的药代动力学均呈线性关系。肌注和静脉给药后dAVT的相对生物利用度均大于30%。生物标志物含量改变后,活性物质集中分布于高度血管化的器官(脾脏)、提供代谢和随后排泄的器官(肝脏和肾脏),而很少到达中度和弱血管化的组织(肌肉、网膜)。少于10%的dAVT随尿排出;粪便中未检测到dAVT;反复用药并没有导致其累积。结论:新型非肽类药物1-脱氨基精氨酸-缩宫素的药动学参数采用原始的分析性生物标志物方法进行评价。该研究包括了原药药代动力学特征所必需的所有主要领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Research Results in Pharmacology
Research Results in Pharmacology Medicine-Pharmacology (medical)
CiteScore
1.50
自引率
0.00%
发文量
32
审稿时长
12 weeks
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