Neonatal sepsis is a life-threatening response to bloodstream infections that occurs in newborns younger than 28 days old. Because of their immature immune systems, newborns are particularly susceptible to infections. The landmark BARNARDS study estimated that 2.5 million neonates or infants in the first month of life die annually of sepsis, with the greatest burden in low- and middle-income countries.
No vaccine is currently available to prevent these infections, with the only option to treat infected babies with IV fluids and antibiotics and provide treatment as quickly as possible to prevent the rapid progression of the infection, which can cause multiple organ failure that leads to death.
Now, University of Maryland School of Medicine (UMSOM) researchers at the Center for Vaccine Development and Global Health (CVD) have been awarded $3.96 million to develop a maternal vaccine that prevents sepsis caused by Klebsiella pneumoniae in newborns and infants.
The research study will continue the development of a first-of-its-kind vaccine against K. pneumoniae, a potentially fatal infection in babies born in India, Pakistan, Bangladesh, and many African countries. The vaccine also potentially could be used to prevent hospital-acquired K. pneumoniae sepsis infections worldwide.
Funding is being provided by Combating Antibiotic-Resistant Bacteria Biopharmaceutical Accelerator (CARB-X), a global nonprofit partnership dedicated to supporting early-stage antibacterial research and development to address the rising threat of drug-resistant bacteria.
CVD scientist Sharon Tennant, PhD, began development of the vaccine with fellow UMSOM professor of medicine Alan Cross, MD, 10 years ago, which was first evaluated in adult animal models.
“We are grateful for the funding and support from CARB-X to further develop our K. pneumoniae vaccine to prevent sepsis in neonates,” Tennant said. “This funding will allow us to continue our efforts to prevent these infections and to hopefully ensure that families can one day experience the joy and wonder of a healthy baby instead of tragedy.”
Tennant heads a research team that includes Cross and Scott Baliban, PhD, assistant professor of medicine and CVD researcher at UMSOM. They are working in partnership with Auro Vaccines Private Limited (Auro Vaccines), based in Hyderabad, India. Auro Vaccines is a step-down subsidiary of Aurobindo Pharma Limited, India.
If their study demonstrates that the new modified vaccine can protect against K. pneumoniae infections in animal studies, the vaccine can then be evaluated in human clinical trials to test its safety and efficacy.
“The risk of death from sepsis increases 7.6 percent for every hour that treatment is delayed, which can be an insurmountable challenge in countries lacking easy access to pediatric hospital care,” said Mark T. Gladwin, MD, dean and the John Z. and Akiko K. Bowers Distinguished Professor, UMSOM, and vice president for medical affairs, University of Maryland, Baltimore. “Combine this with the rise in treatment-resistant infections due to the overuse of antibiotics, and we see how urgent the need is to have a vaccine to prevent this deadly condition in our most vulnerable babies.”
The CVD vaccine, which targets the surface sugars of K. pneumoniae, is expected to be given to pregnant women, thereby protecting their babies from this deadly infection. The conjugate vaccine targets four types of surface sugars that account for more than 80 percent of K. pneumoniae infections. If successful, researchers expect the vaccine will prevent the vast majority of K. pneumoniae neonatal sepsis infections. The CARB-X award supports examining the feasibility of this project to reach a high potential impact for the vulnerable patient population. There is currently no K. pneumoniae vaccine on the market.
“This investment from CARB-X will help to accelerate development of this vaccine to prevent Klebsiella infections in young babies,” said Miriam Laufer, MD, MPH, FASTMH, interim director of CVD. “The CVD has participated in research that has highlighted the importance of K. pneumoniae in causing serious infections in young infants in resource-limited settings. We are excited to continue development of a vaccine that can prevent these infections and save lives. The CVD has an outstanding record of developing vaccines for global use against high-priority pathogens, and this effort will build on that experience.”
Added Erin Duffy, PhD, research and development chief of CARB-X: “With this award, the CVD team has even greater potential to bring a maternal vaccine for neonatal sepsis to market and save the lives of millions of infants worldwide, especially in low- and middle-income countries through its global partnership with Auro Vaccines of India. By vaccinating expectant mothers, the risk of neonatal sepsis might be reduced substantially as babies who are too young to be vaccinated would receive antibodies from their mothers in utero as well as through breastfeeding after birth.”