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建立 VRC01 二期临床试验累积总体预防效果模型。

Modeling cumulative overall prevention efficacy for the VRC01 phase 2b efficacy trials.

机构信息

a Vaccine and Infectious Disease Division , Fred Hutchinson Cancer Research Center , Seattle , WA , USA.

b Department of Global Health , University of Washington , Seattle , WA , USA.

出版信息

Hum Vaccin Immunother. 2018;14(9):2116-2127. doi: 10.1080/21645515.2018.1462640. Epub 2018 May 24.

DOI:10.1080/21645515.2018.1462640
PMID:29683765
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6183277/
Abstract

The Antibody Mediated Prevention trials are assessing whether intravenously-administered VRC01 (10 mg/kg or 30 mg/kg vs placebo) can prevent HIV infection. In a modeling exercise, we used two models to predict the overall prevention efficacy (PE) of each VRC01 dose in preventing HIV infection. For the first per-exposure PE model, parameters were estimated from studies where nonhuman primates (NHPs) were administered high-dose intra-rectal simian-human immunodeficiency virus challenge two days post-VRC01 infusion at various dosages ("NHP model"). To account for the fact that humans may require greater VRC01 concentration to achieve the same level of protection, we next assumed that a 5-fold greater VRC01 serum concentration would be needed to provide the same level of per-exposure PE as seen in the NHP data ("5-fold model"). For the 10 mg/kg regimen, the 5-fold and NHP models predict an overall PE of 37% and 64%, respectively; for the 30 mg/kg regimen, the two models predict an overall PE of 53% and 82%, respectively. Our results support that VRC01 may plausibly confer positive PE in the AMP trials. Given the lack of available knowledge and data to verify the assumptions undergirding our modeling framework, its quantitative predictions of overall PE are preliminary. Its current main applications are to supplement decisions to advance mAb regimens to efficacy trials, and to enable mAb regimen ranking by their potential for PE in humans.

摘要

抗体介导的预防试验正在评估静脉注射 VRC01(10mg/kg 或 30mg/kg 与安慰剂相比)是否可以预防 HIV 感染。在一项建模研究中,我们使用两种模型来预测每个 VRC01 剂量预防 HIV 感染的总体预防效果(PE)。对于首次暴露后 PE 模型,参数是从给予非人类灵长类动物(NHPs)高剂量直肠内猴免疫缺陷病毒(SHIV)挑战后两天静脉内给予不同剂量 VRC01 的研究中估计的(“NHP 模型”)。为了说明人类可能需要更高的 VRC01 浓度来达到相同的保护水平,我们接下来假设需要 5 倍的 VRC01 血清浓度来提供与 NHP 数据中观察到的相同的单次暴露后 PE(“5 倍模型”)。对于 10mg/kg 方案,5 倍模型和 NHP 模型分别预测总体 PE 为 37%和 64%;对于 30mg/kg 方案,两个模型分别预测总体 PE 为 53%和 82%。我们的结果支持 VRC01 在 AMP 试验中可能具有合理的正 PE。鉴于缺乏可用的知识和数据来验证支撑我们建模框架的假设,其对总体 PE 的定量预测是初步的。其当前的主要应用是补充决定推进 mAb 方案进入疗效试验,并通过其在人类中的潜在 PE 能力对 mAb 方案进行排名。

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