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How Can We Tell Gene Drives Work?

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Content provided by Johns Hopkins Malaria Research Institute and Johns Hopkins Bloomberg School of Public Health. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Johns Hopkins Malaria Research Institute and Johns Hopkins Bloomberg School of Public Health or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://ro.player.fm/legal.

Gene drives are a promising tool for malaria control - how can we tell they actually work?

Transcript

Gene drives are a promising new tool for malaria control. They involve releasing genetically modified mosquitoes into the wild – mosquitoes engineered to halt the parasites from developing inside the insects, or that cause the mosquitoes to die. These GM mosquitoes are then released into new habitats. Over time and across multiple generations, the gene drive spreads, reducing malaria transmission. That’s the theory. But one fundamental question remains: how can we tell they actually work? Experts say there are three distinct measures of gene drive efficacy. First, smaller-scale trials of releases should emphasize genetic efficacy, measuring the spread and frequency of the gene drive across time and space. Then, examine entomological efficacy by measuring the density of mosquitoes or the number of parasites they carry. Finally, consider the epidemiological data, by measuring the number of malaria cases in the areas where the gene drive has been released. This approach aims to ensure that the ‘causal pathway’ of gene drives effectively reduces cases and deaths.

Source

Considerations for first field trials of low-threshold gene drive for malaria vector control

About The Podcast

The Johns Hopkins Malaria Minute podcast is produced by the Johns Hopkins Malaria Research Institute to highlight impactful malaria research and to share it with the global community.

  continue reading

78 episoade

Artwork
iconDistribuie
 
Manage episode 429147167 series 3531530
Content provided by Johns Hopkins Malaria Research Institute and Johns Hopkins Bloomberg School of Public Health. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Johns Hopkins Malaria Research Institute and Johns Hopkins Bloomberg School of Public Health or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://ro.player.fm/legal.

Gene drives are a promising tool for malaria control - how can we tell they actually work?

Transcript

Gene drives are a promising new tool for malaria control. They involve releasing genetically modified mosquitoes into the wild – mosquitoes engineered to halt the parasites from developing inside the insects, or that cause the mosquitoes to die. These GM mosquitoes are then released into new habitats. Over time and across multiple generations, the gene drive spreads, reducing malaria transmission. That’s the theory. But one fundamental question remains: how can we tell they actually work? Experts say there are three distinct measures of gene drive efficacy. First, smaller-scale trials of releases should emphasize genetic efficacy, measuring the spread and frequency of the gene drive across time and space. Then, examine entomological efficacy by measuring the density of mosquitoes or the number of parasites they carry. Finally, consider the epidemiological data, by measuring the number of malaria cases in the areas where the gene drive has been released. This approach aims to ensure that the ‘causal pathway’ of gene drives effectively reduces cases and deaths.

Source

Considerations for first field trials of low-threshold gene drive for malaria vector control

About The Podcast

The Johns Hopkins Malaria Minute podcast is produced by the Johns Hopkins Malaria Research Institute to highlight impactful malaria research and to share it with the global community.

  continue reading

78 episoade

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