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Resilience informatics (RI) offers adaptive solutions for public health crises like pandemics and climate change. Key themes include tool potential, threats, challenges, and standards for equitable, community-driven interventions.

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Area of Science:

  • Public Health
  • Informatics
  • Resilience Science

Background:

  • Public health faces dual challenges from pandemics and climate change, necessitating resilient solutions.
  • Resilience informatics (RI) integrates health, environmental, and technological data for adaptive crisis responses.
  • Addressing audience, privacy, and scalability is crucial for effective RI in public health.

Purpose of the Study:

  • To present a qualitative thematic analysis of findings from the "Resilience Informatics in Public Health" workshop.
  • To catalyze collaborative efforts and advance discussions in the emerging field of RI.

Main Methods:

  • A purposive sample of 40 experts from diverse fields (public health, informatics, environmental science, resilience) were invited.
  • Expert presentations and facilitated group discussions were conducted.
  • Qualitative thematic analysis using an inductive approach, supported by MAXQDA software, was performed on recorded discussions.

Main Results:

  • 27 experts attended, primarily from public health (78%) and resilience (30%) fields.
  • Key themes identified: potential of RI tools, threats to resilience (e.g., healthcare access, climate change), challenges (e.g., usability, funding), and standards (technological, logistical, sociological).
  • Participants stressed equitable access, community engagement, and iterative development for RI projects.

Conclusions:

  • Accessible, user-friendly RI tools are essential to bridge technical knowledge and community needs.
  • A roadmap for future public health resilience emphasizes scalable, culturally sensitive, community-driven interventions.
  • Future work should focus on implementation guidelines and tool designs to reshape public health strategies.