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Printable Handouts
Navigable Slide Index
- Introduction
- Potential uses of gene drive for public good
- Challenges and concerns
- Guidance on gene drive organisms
- Guiding principles for sponsors of research
- Advance quality science to promote public good
- Example: control of mosquito-borne diseases
- Consensus guidance on best practices
- Phased testing
- Testing pathway for gene drive mosquitoes
- Stewardship, safety and good governance
- Build on relevant regulatory precedents
- Contained laboratory testing
- Decision to release
- Field testing
- Monitoring and evaluation
- Regulatory planning
- Transparency and accountability
- Transparency
- Accountability
- Engagement with communities and stakeholders
- Effective engagement
- Establish genuine partnerships; foster leadership
- Partnerships
- Partner site considerations
- Opportunities to strengthen capacity & education
- Technical and regulatory capacity
- Conclusions
- Acknowledgements
Topics Covered
- Best practice guidance
- Safety and efficacy testing
- Regulatory precedents and planning
- Transparency and accountability
- Effective engagement
- Research partnerships
- Capacity strengthening
Talk Citation
James, S. (2018, April 30). Guidance for responsible testing and implementation of gene-drive systems [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/WEFE7543.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Stephanie James, Grant/Research Support (Principal Investigator): Bill & Melinda Gates Foundation; The Open Philanthropy, Project
Guidance for responsible testing and implementation of gene-drive systems
Published on April 30, 2018
32 min
Other Talks in the Series: Gene-Drives and Active Genetics
Transcript
Please wait while the transcript is being prepared...
0:00
Hello, I'm Stephanie James,
Director of Science at the Foundation for the National Institutes of Health in the US,
and this presentation describes some important considerations for
the responsible development of new synthetic gene-drive technologies.
These technologies are based on natural systems of
skewed inheritance that have been studied over many decades,
and the idea of putting these systems to work for the public good has long been proposed.
Access to new gene-editing tools seems to be putting this possibility within our reach.
But this increased accessibility of the technology,
has also stirred public debate and controversy.
If gene-drive technology is to be harnessed effectively,
involved researchers, and research sponsors and supporters must pursue
their goals in a safe and responsible manner that will promote public confidence.
0:53
Simply put gene-drive is a method to promote
the inheritance of a particular gene or genetic construct, so that
its prevalence increases in the overall population of
the intended target organism, within
a time frame relevant for accomplishing the stated goal.
Gene-drive technology has been proposed for a number
of uses to promote public good and social value.
These include improving public health, conservation, and agriculture.
At the time of this presentation,
research probably is furthest advanced on uses for reducing
the transmission of vector-borne diseases, like malaria and arboviral diseases.
1:33
Although gene-drive technology has been recognized as promising
by authorities such as the US National Academies of Science,
Engineering and Medicine; and the Australian Academy of Science;
several challenges and concerns have been raised.
These include questions about the fundamental ethics of altering nature;
the potential that persistence of gene-drive systems in
the environment could cause unintended harm to the ecosystem;
and the possibility of intentional misuse of the technology for nefarious purposes.
Underlying all of these is the concern that current oversight and governance
mechanisms may not be up to the task of dealing with gene-drive modified organisms.
The most prominent aspect of that concern has been that
gene drive organisms have the potential to spread across national boundaries,
creating a challenge for international regulation.
A responsible development pathway for
gene-drive technologies must take all of these concerns into account.
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