Researchers at the University of Maryland School of Medicine’s Center for Vaccine Development and Global Health (CVD) reported encouraging results from an early clinical trial that tested a new dual vaccine against Lassa fever and rabies. The study, published today in the journal Nature Medicine , found that the vaccine was safe and induced immune responses against both viruses. There are currently no vaccines against Lassa fever on the market.
The World Health Organization has identified Lassa virus as a public health threat in western Africa and made Lassa fever a priority disease for research. Like Ebola, it can trigger severe illness and periodic outbreaks in African nations. Lassa virus infections occur in 300,000 people every year resulting in 5,000 deaths, according to the Africa Centers for Disease Control and Prevention , but these numbers are likely an underestimate due to limited surveillance. The disease is particularly dangerous in pregnancy with over 80 percent of late-term infections resulting in deaths to the mother or fetus.
Additionally, regions where Lassa fever is common, such parts of Western and Sub-Saharan Africa, also have a high burden of rabies, with thousands of deaths annually, a disease that is almost always fatal once symptoms develop.
“This vaccine is designed to protect against two viruses of global health importance,” said study principal investigator Justin Ortiz, MD, MS , Professor of Medicine at UMSOM and vaccine researcher at CVD. “By combining targets into a single product, it could reduce the need for separate vaccination efforts and streamline delivery in settings where access is limited.”
In this randomized, controlled trial, 54 healthy adult volunteers from the Baltimore area were randomly assigned to receive different doses of the investigational vaccine, LASSARAB, with an adjuvant or a licensed rabies vaccine control. Participants received two vaccine doses 28 days apart. Immune responses were studied through 61days post-vaccination for an interim analysis. The results indicate that LASSARAB was safe with no serious adverse events reported after vaccination. Additionally, the candidate vaccine induced rapid and robust antibody responses against both Lassa and rabies viruses compared to the control which only induced an immune response against rabies virus. This study is ongoing, and vaccine safety and immune responses will be further studied through 394 days post-vaccination. If the results indicate continued elevated immune responses from vaccination, researchers will proceed with more advanced clinical trials.
“This study highlights CVD’s commitment to tackling diseases of global significance,” added Stefan Kappe , PhD, Director of the Center for Vaccine Development and Global Health and the Myron M. Levine Endowed Professor of Pediatrics. “LASSARAB not only targets diseases of concern but utilizes a platform that could make distribution attainable in the areas of the world that are most affected by these diseases.”
This first-in-human trial was designed to evaluate the safety and immunogenicity of an adjuvanted inactivated rabies virus expressing the Lassa virus glycoprotein complex on the surface of the virus. LASSARAB was developed by a research team at Thomas Jefferson University led by Professor Matthias Schnell, director of the Jefferson Center for Vaccines and Pandemic Preparedness . Importantly, this investigational vaccine can be freeze-dried for storage, enabling distribution to areas of the world where it may be difficult to maintain cold chains.
“Climate change is causing Lassa fever to extend its reach far beyond its Nigerian and West African origins, putting an estimated 700 million people at risk worldwide,” said UMSOM Dean Mark T. Gladwin, MD . “By 2070, the number of countries across Africa that will develop ecological conditions suitable for Lassa virus spread could drastically increase, so a vaccine to prevent this deadly infection is desperately needed.”
Last year, before results were available, the trial was highlighted by Nature Medicine in its 2025 feature, “ Eleven clinical trials that will shape medicine in 2026 ,” which identified studies to watch based on their potential to address major unmet health needs.
To learn more about this and other CVD clinical trials, visit www.CVDTrials.org .
The study was funded by the National Institute of Allergy and Infectious Diseases of the National Institutes of Health under contract HHSN272201700082C with Thomas Jefferson University with CVD as a subcontractor. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.
About the Center for Vaccine Development and Global Health
Founded in 1974, the University of Maryland School of Medicine’s Center for Vaccine Development and Global Health is internationally recognized for its research in vaccine development, infectious disease, and clinical trials that have paved the way for lifesaving interventions around the world. The CVD’s mission is to reduce the global burden of infectious diseases through research, training, and public health impact.
About the University of Maryland School of Medicine
The University of Maryland School of Medicine, established in 1807 as the first public medical school in the U.S., continues today as one of the fastest growing, top-tier biomedical research enterprises in the world. The School has nearly $500 million total research funding, 46 departments, centers, and institutes, more than 2,200 student trainees and over 3,000 faculty members, including notable members of the National Academy of Medicine. As the largest public medical school in the DC/MD/VA region, faculty-physicians are working to help patients manage chronic diseases like obesity, cancer, heart disease and addiction, while also working on cutting-edge research to address the most critical generational health challenges. In 2024, the School ranked #12 among public medical schools and #27 among all medical schools for R&D expenditures by the National Science Foundation. With a $1.3 billion total operating budget, the School partners with the University of Maryland Medical Center to serve nearly 2 million patients annually. The School's global reach extends around the world with research and treatment facilities in 33 countries. In Maryland, the School of Medicine is spearheading new initiatives in AI and health computing and partnering with the University of Maryland BioPark to develop new medical technologies and bioengineering ventures. For more information, visit medschool.umaryland.edu .
Nature Medicine
Randomized controlled/clinical trial
People
Adjuvanted inactivated rabies virus-vectored Lassa virus vaccine in healthy adults: a phase 1 trial
9-Jun-2026