WHO and MPP announce agreement with NIH for COVID-19 health technologies
WHO’s COVID-19 Technology Access Pool (C-TAP) and the Medicines Patent Pool (MPP) finalized a licensing agreement with the United States National Institutes of Health (NIH) for the development of several innovative therapeutics, early-stage vaccines, and diagnostic tools for COVID-19, according to a news release.
The licenses, which are transparent, global, and non-exclusive, will allow manufacturers from around the world to work with MPP and C-TAP to make these technologies accessible to people living in low- and middle-income countries and help put an end to the pandemic.
The 11 COVID-19 technologies offered under two licenses include the stabilized spike protein used in currently available COVID-19 vaccines, research tools for vaccine, therapeutic and diagnostic development, as well as early-stage vaccine candidates and diagnostics.
“I welcome the generous contribution NIH has made to C-TAP and its example of solidarity and sharing,” said Tedros Adhanom Ghebreyesus, WHO Director-General. “Whether it’s today’s pandemic or tomorrow’s health emergency, it’s through sharing and empowering lower-income countries to manufacture their own health tools that we can ensure a healthier future for everyone.”
“We are honored to sign these public health-driven license agreements with NIH under the auspices of C-TAP with the goal of providing equitable access to life-saving health products for the most vulnerable in the world,” said Charles Gore, MPP Executive Director.
“NIH were the first to share their patents with MPP for an HIV product back in 2010 when we were created, and we are delighted to continue strengthening our partnership. It is clear that MPP’s model works across different health technologies.”
The announcement was made today by the US Government at the second Global COVID-19 Summit, co-hosted by the United States, Belize, Germany, Indonesia, and Senegal.
Licensing the NIH technologies to MPP under the auspices of C-TAP will allow greater access to these technologies and hopefully lead to the development of commercial products that can address current and future public health needs in 49 countries classified by the United Nations as Least Developed Countries.
The 11 technologies include:
- Prefusion spike proteins (Vaccine Development)
- Structure-Based Design of Spike Immunogens (Research Tool for Vaccine Development)
- Pseudotyping Plasmid (Research Tool for Vaccine Development)
- ACE2 Dimer construct (Research Tool for Drug Development)
- Synthetic humanized llama nanobody library and related use (Research Tool for Drug and Diagnostic Development)
- Newcastle Disease Virus-Like Particles Displaying Prefusion-Stabilized Spikes (Vaccine Candidate)
- Parainfluenza virus 3 based vaccine (Vaccine Candidate)
- A VSV-EBOV-Based Vaccine (Vaccine Candidate)
- RNASEH-Assisted Detection Assay for RNA (Diagnostic)
- Detection of SARS-CoV-2 and other RNA Virus (Diagnostic)
- High-Throughput Diagnostic Test (Diagnostic)