NextGen Long-acting and targeted combination ART for Children with HIV

NextGen 针对艾滋病毒儿童的长效靶向组合 ART

• 批准号: 10610951
• 负责人: RODNEY J.Y. HO
• 金额: $ 142.45万
• 依托单位: UNIVERSITY OF WASHINGTON
• 依托单位国家: 美国
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-04-06 至 2026-03-31
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/10610951
• 关键词: Abbreviations; Acceleration; Adherence; Adolescent; Adult; Anti-Retroviral Agents; Blood; Cells; Child; Childhood; Clinical; Clinical Paths; Combination Drug Therapy; Combined Modality Therapy; Communication; Data; Data Set; Deglutition; Development; Development Plans; Disease; Dosage Forms; Dose; Drug Combinations; Drug Kinetics; Drug Targeting; Ensure; Evaluation; Exhibits; FDA approved; Fatigue; Formulation; Funding; Generic Drugs; HIV; HIV Integrase; HIV Protease; Human body; Injectable; Integrase; Integrase Inhibitors; Investigational Drugs; Lead; Lopinavir; Lopinavir/Ritonavir; Marketing; Modeling; National Institute of Allergy and Infectious Disease; Oral; Pharmaceutical Preparations; Phase; Plasma; Primates; Process; Proteins; RNA-Directed DNA Polymerase; Recommendation; Research; Resources; Ritonavir; Route; Safety; Schedule; Source; Specific qualifier value; Suspensions; Technology; Tenofovir; Testing; Therapeutic; Time; Tissues; United States Food and Drug Administration; United States National Institutes of Health; Update; Validation; Viral; Water; Work; anti-viral efficacy; antiretroviral therapy; clinical development; combat; drug action; first-in-human; industry partner; innovation; interest; large scale production; meetings; nano; nanoparticle; nanotechnology platform; nonhuman primate; novel drug combination; oral HIV; pediatric human immunodeficiency virus; pharmacokinetic model; physiologically based pharmacokinetics; pill; preclinical development; preference; programs; public-private partnership; research and development; safety study; simian human immunodeficiency virus; success; technology platform; timeline

ABSTRACT The Targeted, Long-acting and Combination Anti-Retroviral Therapeutic (TLC-ART) Program has developed a scalable, drug-combination nano-platform technology called DcNPs (drug combination nanoparticles) that enables the stabilizing of insoluble and soluble short-acting antiretroviral drugs together in an injectable suspension. In nonhuman primates, DcNP is able to transform short-acting oral HIV-drug combinations into long-acting combinations that can be detected in plasma and cells with no lag phase (i.e., rapid peak drug concentrations). This application plans to leverage the novel DcNP technology to develop a safe and effective long-acting combination antiretroviral therapy for children with HIV. A long-acting injectable is urgently needed for children who struggle with adherence issues, including pill fatigue or an inability to swallow. We have established a public-private partnership for the most advanced two active drug TLC-ART platform evaluation intended for adult treatment through UM1 funding from the NIH. With these invaluable resources, we plan to create a long-acting monthly injectable formulation for children that includes three active drugs targeted to two HIV proteins. Our set of milestone-driven aims is based on a defined target product profile (TPP), and will be guided by an external advisory board (EAB) through scheduled and on-demand meetings. The research-focused objectives (Aims 1 and 2) are intended to evaluate a set of four different potential pediatric HIV-drug DcNP combinations and to select a candidate based on studies in juvenile non-human primates to progress to pre-clinical development and seek FDA guidance for an accelerated clinical progression plan (Aims 3-6). The five-year proposal will have EAB and NIAID/DAIDS program oversight to ensure success, and the study results will form a basis to develop safe and effective long-acting antiviral combinations for treatment of young children with HIV.

抽象的 靶向、长效、联合抗逆转录病毒治疗（TLC-ART）计划已开发 一种可扩展的药物组合纳米平台技术，称为 DCNP（药物组合纳米颗粒）， 能够在注射剂中同时稳定不溶性和可溶性短效抗逆转录病毒药物 暂停。在非人类灵长类动物中，DcNP 能够将短效口服 HIV 药物组合转化为 可以在血浆和细胞中检测到的长效组合，没有滞后期（即快速达峰药物 浓度）。 该申请计划利用新颖的DcNP技术开发一种安全有效的长效药物 对感染艾滋病毒的儿童进行联合抗逆转录病毒治疗。儿童急需长效注射剂 那些因依从性问题而苦苦挣扎的人，包括药物疲劳或无法吞咽。 我们建立了最先进的两种活性药物TLC-ART平台的公私合作伙伴关系 旨在通过 NIH 的 UM1 资助进行成人治疗的评估。有了这些宝贵的资源， 我们计划为儿童开发一种长效每月注射制剂，其中包含三种活性药物 靶向两种 HIV 蛋白。 我们的一系列里程碑驱动的目标基于明确的目标产品概况 (TPP)，并将以 通过定期和按需会议召开外部顾问委员会 (EAB)。以研究为中心的目标 （目标 1 和 2）旨在评估一组四种不同的潜在儿童 HIV 药物 DCNP 组合 并根据幼年非人类灵长类动物的研究选择候选者以进入临床前阶段 开发并寻求 FDA 指导以加速临床进展计划（目标 3-6）。 该五年提案将由 EAB 和 NIAID/DAIDS 项目进行监督，以确保成功，并且该研究 结果将为开发用于治疗青少年的安全有效的长效抗病毒组合奠定基础 感染艾滋病毒的儿童。