健康受试者皮下注射后甘精胰岛素的生物转化。

Biotransformation of insulin glargine after subcutaneous injection in healthy subjects.

作者信息

Kuerzel G U, Shukla U, Scholtz H E, Pretorius S G, Wessels D H, Venter C, Potgieter M A, Lang A M, Koose T, Bernhardt E

机构信息

Aventis Pharma Deutschland GmbH, Frankfurt, Germany.

出版信息

Curr Med Res Opin. 2003;19(1):34-40. doi: 10.1185/030079902125001416.

DOI:10.1185/030079902125001416

PMID:12661778

Abstract

OBJECTIVE

It is important to establish pharmacokinetic or pharmacodynamic differences between novel insulin analogues and human insulin. This study examined the primary metabolic degradation products of insulin glargine (LANTUS) in humans.

DESIGN

In this single dose, open-label study, insulin glargine was administered subcutaneously at a dose of 0.6 IU/kg; placebo was administered to one control subject.

PATIENTS

Four healthy male subjects, plus one control subject, aged 18-50 years were enrolled in this study.

MEASUREMENTS

Following insulin glargine administration, blood glucose levels were clamped at the subjects' fasting concentration for 6 h and the amount of 20% glucose infused to maintain this baseline concentration was recorded. Metabolite profiling was performed in plasma and injection site tissue using HPLC and radioimmunoassay (RIA). Pharmacokinetics were evaluated by RIA of serum and plasma immunoreactive insulin levels. The primary pharmacodynamic measure was the glucose infusion rate (GIR). Safety was evaluated by measuring blood glucose concentrations during the clamp and adverse events were observed by the investigator or reported by the subject.

RESULTS

Metabolic profiling revealed a clear pattern: insulin glargine is metabolised by sequential cleavage at the carboxy terminus of the B chain, to yield products M1 and M2, which are both structurally similar to human insulin. These degradation products are present both at the injection site and in plasma.

CONCLUSION

Thus, during treatment with a subcutaneous injection of insulin glargine, metabolic degradation is likely to be initiated at the injection site and continued within the circulatory system.

摘要

目的

确定新型胰岛素类似物与人类胰岛素之间的药代动力学或药效学差异非常重要。本研究检测了甘精胰岛素（来得时）在人体内的主要代谢降解产物。

设计

在这项单剂量、开放标签研究中，以0.6 IU/kg的剂量皮下注射甘精胰岛素；给一名对照受试者注射安慰剂。

患者

招募了4名年龄在18至50岁之间的健康男性受试者以及1名对照受试者参与本研究。

测量

注射甘精胰岛素后，将血糖水平维持在受试者的空腹浓度6小时，并记录为维持该基线浓度而输注的20%葡萄糖量。使用高效液相色谱法（HPLC）和放射免疫分析法（RIA）对血浆和注射部位组织进行代谢物谱分析。通过RIA检测血清和血浆中免疫反应性胰岛素水平来评估药代动力学。主要药效学指标是葡萄糖输注率（GIR）。通过在钳夹期间测量血糖浓度来评估安全性，研究者观察或受试者报告不良事件。

结果

代谢物谱分析显示出一种清晰的模式：甘精胰岛素通过B链羧基末端的顺序裂解进行代谢，产生产物M1和M2，这两种产物在结构上均与人胰岛素相似。这些降解产物在注射部位和血浆中均有存在。

结论

因此，皮下注射甘精胰岛素治疗期间，代谢降解可能在注射部位开始，并在循环系统中持续进行。

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健康受试者皮下注射后甘精胰岛素的生物转化。

Biotransformation of insulin glargine after subcutaneous injection in healthy subjects.

作者信息

机构信息

出版信息

OBJECTIVE

DESIGN

PATIENTS

MEASUREMENTS

RESULTS

CONCLUSION

目的

设计

患者

测量

结果

结论

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