新型制剂策略提高氨磷汀给药可行性。

Novel Formulation Strategy to Improve the Feasibility of Amifostine Administration.

机构信息

Department of Plastic Surgery, University of Michigan, 1540 E. Hospital Dr., Floor 4, Suite 4-730, Ann Arbor, Michigan, 48105, USA.

Therapeutic Systems Research Laboratories, Inc., Ann Arbor, Michigan, USA.

出版信息

Pharm Res. 2018 Mar 19;35(5):99. doi: 10.1007/s11095-018-2386-5.

DOI:10.1007/s11095-018-2386-5

PMID:29556791

Abstract

PURPOSE

Amifostine (AMF), a radioprotectant, is FDA-approved for intravenous administration in cancer patients receiving radiation therapy (XRT). Unfortunately, it remains clinically underutilized due to adverse side effects. The purpose of this study is to define the pharmacokinetic profile of an oral AMF formulation potentially capable of reducing side effects and increasing clinical feasibility.

METHODS

Calvarial osteoblasts were radiated under three conditions: no drug, AMF, and WR-1065 (active metabolite). Osteogenic potential of cells was measured using alkaline phosphatase staining. Next, rats were given AMF intravenously or directly into the jejunum, and pharmacokinetic profiles were evaluated. Finally, rats were given AMF orally or subcutaneously, and blood samples were analyzed for pharmacokinetics.

RESULTS

WR-1065 preserved osteogenic potential of calvarial osteoblasts after XRT to a greater degree than AMF. Direct jejunal AMF administration incurred a systemic bioavailability of 61.5%. Subcutaneously administrated AMF yielded higher systemic levels, a more rapid peak exposure (0.438 vs. 0.875 h), and greater total systemic exposure of WR-1065 (116,756 vs. 16,874 ng*hr/ml) compared to orally administered AMF.

CONCLUSIONS

Orally administered AMF achieves a similar systemic bioavailability and decreased peak plasma level of WR-1065 compared to intravenously administered AMF, suggesting oral AMF formulations maintain radioprotective efficacy without causing onerous side effects, and are clinically feasible.

摘要

目的

氨磷汀（AMF）是一种放射保护剂，已获得 FDA 批准，可用于接受放射治疗（XRT）的癌症患者的静脉内给药。不幸的是，由于不良反应，它在临床上仍未得到充分利用。本研究的目的是定义一种口服 AMF 制剂的药代动力学特征，该制剂有可能减少副作用并提高临床可行性。

方法

颅骨成骨细胞在三种条件下接受放射：无药物、AMF 和 WR-1065（活性代谢物）。使用碱性磷酸酶染色测量细胞的成骨潜能。接下来，给大鼠静脉内或直接给予 AMF，并评估药代动力学特征。最后，给大鼠口服或皮下给予 AMF，并分析血液样本以进行药代动力学研究。

结果

WR-1065 比 AMF 更能保护颅骨成骨细胞在 XRT 后的成骨潜能。直接给予空肠 AMF 的全身生物利用度为 61.5%。皮下给予 AMF 可产生更高的全身水平，更快的峰值暴露（0.438 与 0.875 h），以及与口服 AMF 相比，WR-1065 的总全身暴露量更大（116756 与 16874ng*hr/ml）。

结论

与静脉内给予 AMF 相比，口服给予 AMF 可达到相似的全身生物利用度和降低 WR-1065 的峰值血浆水平，这表明口服 AMF 制剂在不引起严重副作用的情况下保持放射保护功效，并且在临床上可行。

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新型制剂策略提高氨磷汀给药可行性。

Novel Formulation Strategy to Improve the Feasibility of Amifostine Administration.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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