杨森公司数据驱动的COVID-19疫苗开发

IF 1.1 4区 管理学 Q4 MANAGEMENT Informs Journal on Applied Analytics Pub Date : 2023-01-01 DOI:10.1287/inte.2022.1150
D. Bertsimas, Michael Lingzhi Li, Xinggang Liu, Jennings Xu, Najat Khan
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引用次数: 0

摘要

2019冠状病毒病大流行促使全球开展了广泛的疫苗研究。疫苗开发的一个关键部分是评估疫苗在预防COVID-19方面的安全性和有效性的三期临床试验。在这项工作中,我们列举了首次使用机器学习模型来加速III期疫苗试验的成功实施,与单剂量强生疫苗合作,预测性地选择具有自然高发病率的试验地点(“热点”)。我们开发了DELPHI,这是一种新颖、准确、政策驱动的机器学习模型,可作为我们预测的基础。在2020年下半年,delphi驱动的站点选择确定热点的准确率超过90%,将试验持续时间缩短了6至8周(约33%),并将入组人数减少了15,000(约25%)。反过来,这种加速上市的时间使杨森的疫苗能够获得紧急使用授权,并比预期更早地实现其公共卫生影响。自那以后,德尔福确定的几个地区成为报告各种令人担忧的地区(例如,南非的欧米克隆),因此德尔福选择这些地区也产生了关于疫苗如何应对新威胁的早期数据。强生公司也在其业务中实施了类似的方法,包括支持其他疫苗项目的试验地点选择,为其医疗设备部门建模外科手术需求,并为其13万名员工提供重返工作岗位的指导。继续应用这种方法可以帮助缩短临床开发时间,并通过降低与新疗法投资相关的风险和成本水平来改变药物开发的经济性。这将使强生公司和其他公司能够更有效地向患者提供药物。资助:这项工作由杨森研究与发展有限责任公司资助。
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Data-Driven COVID-19 Vaccine Development for Janssen
The COVID-19 pandemic has spurred extensive vaccine research worldwide. One crucial part of vaccine development is the phase III clinical trial that assesses the vaccine for safety and efficacy in the prevention of COVID-19. In this work, we enumerate the first successful implementation of using machine learning models to accelerate phase III vaccine trials, working with the single-dose Johnson & Johnson vaccine to predictively select trial sites with naturally high incidence rates (“hotspots”). We develop DELPHI, a novel, accurate, policy-driven machine learning model that serves as the basis of our predictions. During the second half of 2020, the DELPHI-driven site selection identified hotspots with more than 90% accuracy, shortened trial duration by six to eight weeks (approximately 33%), and reduced enrollment by 15,000 (approximately 25%). In turn, this accelerated time to market enabled Janssen’s vaccine to receive its emergency use authorization and realize its public health impact earlier than expected. Several geographies identified by DELPHI have since been the first areas to report variants of concern (e.g., Omicron in South Africa), and thus DELPHI’s choice of these areas also produced early data on how the vaccine responds to new threats. Johnson & Johnson has also implemented a similar approach across its business including supporting trial site selection for other vaccine programs, modeling surgical procedure demand for its Medical Device unit, and providing guidance on return-to-work programs for its 130,000 employees. Continued application of this methodology can help shorten clinical development and change the economics of drug development by reducing the level of risk and cost associated with investing in novel therapies. This will allow Johnson & Johnson and others to enable more effective delivery of medicines to patients. Funding: This work was funded by Janssen Research & Development, LLC.
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