Connecticut

Global health R&D delivers for Connecticut

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US government investment in global health R&D has delivered

$273.8 million

to Connecticut research institutions

2,700+ new jobs

for Connecticut

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

Yale University

$211.9 million

University of Connecticut School of Medicine

$22.4 million

University of Connecticut (Storrs)

$14.6 million

L2 Diagnostics LLC

$9.3 million

Artificial Cell Technologies Inc.

$4.2 million

New England Institute for Clinical Research

$2.7 million

CaroGen Corporation

$2 million

Connecticut Children's Medical Center

$2 million

Connecticut Agricultural Experiment Station

$1.1 million

LifePharms Inc.*

$750 thousand

MediSynergics LLC

$724 thousand

Tangen Biosciences Inc.

$716 thousand

New England Discovery Partners LLC

$701 thousand

Wesleyan University

$587 thousand

Connecticut Analytical Corporation (CAC)

$167 thousand

UConn Health (formerly University of Connecticut Health Center)

$61 thousand

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

9.2%

COVID-19

2.2%

Diarrheal diseases

5.5%

HIV/AIDS

8.8%

Malaria

31.3%

Neglected tropical diseases

Dengue

Helminth infections (Worms & Flukes)

Kinetoplastid diseases

7.1%

Reproductive health

16.3%

Salmonella infections

Tuberculosis

11.6%

Other

Arenaviral hemorrhagic fevers (including Lassa fever)

Bunyaviral diseases (including CCHF, RVF, SFTS)

Chikungunya

Cryptococcal meningitis

Emergent non-polio enteroviruses (including EV71, D68)

Hepatitis B

Histoplasmosis

Leptospirosis

Multi-disease/health area R&D

Other coronaviruses (including MERS, SARS)

Zika

Neglected and emerging diseases in Connecticut

Chikungunya cases

Dengue cases

HIV diagnoses

1668

Malaria cases

224

Mpox cases

Tuberculosis cases

689

Global health R&D at work in Connecticut

Scientists at the University of Connecticut Center of Excellence for Vaccine Research in Storrs have developed a potential vaccine against Zika using a new platform devised by the center to speed an early stage of vaccine development, which has proved successful in preclinical testing. Using this technique, researchers can create a prospective vaccine in a week, rather than months, allowing them to generate multiple variations of a vaccine quickly for further testing. Beyond contributing to the fight against Zika, this technique also could potentially speed vaccine development against many other long-standing and emerging global health threats.

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/Dan Chang