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Global health R&D delivers for Arizona

US government investment in global health R&D has delivered

Amount
$91.8 million
to Arizona research institutions
Jobs
1,300+ new jobs
for Arizona
Arizona's top USG-funded global health R&D institutions

Arizona's top USG-funded global health R&D institutions

University of Arizona
$40.4 million
Arizona State University
$34.5 million
PathogenDx
$11.2 million
Luceome Biotechnologies
$2.2 million
The Translational Genomics Research Institute (TGen)
$2.2 million
Northern Arizona University
$682 thousand
BCR Diagnostics*
$183 thousand
Midwestern University
$171 thousand
Lightsense Technology Inc.
$107 thousand
Inter Tribal Council Of Arizona
$102 thousand
iT1 Source
$57 thousand

Arizona's top areas of global health R&D by USG funding

2%
Chikungunya
28.8%
COVID-19
7.3%
Diarrheal diseases
3.2%
Emergent non-polio enteroviruses (including EV71, D68)
6.1%
HIV/AIDS
13%
Malaria
10.3%
Neglected tropical diseases
Buruli ulcer
Dengue
Kinetoplastid diseases
4.9%
Reproductive health
4.9%
Salmonella infections
8.5%
Tuberculosis
2.2%
Zika
8.8%
Other
Bacterial pneumonia & meningitis
Cryptococcal meningitis
Filoviral diseases (including Ebola, Marburg)
Hepatitis C
Mpox
Multi-disease/health area R&D
Global health R&D at work in Arizona

Arizona State University researchers have developed a nanotechnology-based diagnostic testing technique that is cheaper and quicker to deploy than traditional laboratory methods. When a sample of blood or another fluid is added to the test tube solution, nanobodies attached to gold nanoparticles in the liquid bind to human antigens—the proteins emitted by the body in response to a virus. This causes a color change that can be read by the human eye or a simple sensor. The approach, which costs only a penny per test, delivers results in just 15 to 20 minutes. This simple, inexpensive technique—which has shown proof of concept for Ebola and COVID-19 but could be deployed for a range of infectious diseases—holds the potential to be a valuable new tool for enabling rapid, accessible testing globally during disease outbreaks.

Footnotes
  • Methodology
  • US government global health R&D investment (total to state, top funded institutions, top health areas): Authors’ analysis of USG investment data from the G-FINDER survey following identification of state location of funding recipients. Reflects funding for basic research and product development for neglected diseases from 2007 to 2022, for emerging infectious diseases from 2014–2022, and sexual and reproductive health issues from 2018 to 2022. Funding to US government agencies reflects self-funding and/or transfers from other agencies. Some industry data is anonymized and aggregated. See methodology for additional details.
  • *Organization appears to be closed/out of business.
  • Jobs created: Based on author’s analysis described above and previous analysis assessing jobs created per state from US National Institutes of Health funding. See methodology for additional details.
  • Neglected and emerging diseases: Reflects US Centers for Disease Control and Prevention data for: Chikungunya virus cases 2014–2022, Dengue virus infection cases 2010-2021, HIV diagnoses 2008–2022, Malaria cases 2007–2022, Mpox cases 2022–March 29, 2023, Tuberculosis cases 2007–2021, Viral hemorrhagic fever cases 2007-2022, and Zika virus disease cases 2015–2021.
  • Case study photo: PATH