Computational and Structural Biotechnology Journal (Dec 2024)

Using artificial intelligence and predictive modelling to enable learning healthcare systems (LHS) for pandemic preparedness

  • Anshu Ankolekar,
  • Lisanne Eppings,
  • Fabio Bottari,
  • Inês Freitas Pinho,
  • Kit Howard,
  • Rebecca Baker,
  • Yang Nan,
  • Xiaodan Xing,
  • Simon LF Walsh,
  • Wim Vos,
  • Guang Yang,
  • Philippe Lambin

Journal volume & issue
Vol. 24
pp. 412 – 419

Abstract

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In anticipation of potential future pandemics, we examined the challenges and opportunities presented by the COVID-19 outbreak. This analysis highlights how artificial intelligence (AI) and predictive models can support both patients and clinicians in managing subsequent infectious diseases, and how legislators and policymakers could support these efforts, to bring learning healthcare system (LHS) from guidelines to real-world implementation. This report chronicles the trajectory of the COVID-19 pandemic, emphasizing the diverse data sets generated throughout its course. We propose strategies for harnessing this data via AI and predictive modelling to enhance the functioning of LHS. The challenges faced by patients and healthcare systems around the world during this unprecedented crisis could have been mitigated with an informed and timely adoption of the three pillars of the LHS: Knowledge, Data and Practice. By harnessing AI and predictive analytics, we can develop tools that not only detect potential pandemic-prone diseases early on but also assist in patient management, provide decision support, offer treatment recommendations, deliver patient outcome triage, predict post-recovery long-term disease impacts, monitor viral mutations and variant emergence, and assess vaccine and treatment efficacy in real-time. A patient-centric approach remains paramount, ensuring patients are both informed and actively involved in disease mitigation strategies.

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