DHHS Framework for Guiding Funding Decisions about Proposed Research Involving Enhanced Potential Pandemic Pathogens
S3: Science Safety Security
Research involving potential pandemic pathogens (PPPs) is essential to protecting global health and security. However, there are biosafety and biosecurity risks associated with undertaking such research that should be adequately considered and appropriately mitigated in order to safely realize the potential benefits. The
Department of Health and Human Services (HHS) Framework for Guiding Funding Decisions about Proposed Research Involving Enhanced Potential Pandemic Pathogens is intended to guide HHS funding decisions on proposed research that is reasonably anticipated to create, transfer, or use PPPs resulting from the enhancement of a pathogen’s transmissibility or virulence in humans (enhanced PPPs). Enhanced PPP do not include naturally occurring pathogens that are circulating in or have been recovered from nature, regardless of their pandemic potential.
This new framework describes a robust multidisciplinary, pre-funding review process that considers the potential scientific and public health benefits, biosafety and biosecurity risks, and appropriate risk mitigation strategies to help inform agency decisions. This framework is responsive to, and in accordance with, the
Recommended Policy Guidance for Departmental Development of Review Mechanisms for Potential Pandemic Pathogen Care and Oversight (P3CO) issued by the White House Office of Science and Technology Policy on January 9, 2017 and supersedes the previous
Framework for Guiding Department of Health and Human Services Funding Decisions about Research Proposals with the Potential for Generating Highly Pathogenic Avian Influenza H5N1 Viruses that are Transmissible among Mammals by Respiratory Droplets. Adoption of this framework lifts the research funding pause on HHS research that was set forth by the
U.S. Government Gain-of-Function Deliberative Process and Research Funding Pause on Selected Gain-of-Function Research Involving Influenza, MERS, and SARS Viruses.
