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Vaccine for Respiratory Syncytial Virus Enters Phase 1 Testing

The vaccine DS-CAv1 aims to fill a void in the prevention and treatment of respiratory syncytial virus.


 

A vaccine against respiratory syncytial virus (RSV) is entering a phase 1 safety and tolerability trial. The vaccine developed by scientists at the National Institute of Allergy and Infectious Diseases (NIAID) is badly needed, according to Anthony Fauci, MD, director of NIAID. Although common and causing usually mild symptoms RSV infection also can lead to severe lower respiratory tract diseases, such as pneumonia and bronchiolitis in infants, children, the elderly, and immune-compromised patients. Globally, RSV infections cause upwards of 250,000 deaths each year. “RSV is underappreciated as a major cause of illness and death,” Fauci said.

The vaccine (DS-Cav1) will fill a void. Currently no vaccine is available to prevent RSV infection, and no drug is available to treat it. The monoclonal antibody palivizumab is approved for preventing lower respiratory tract disease caused by RSV in high-risk children, but is not approved for use in the general population.

The study, VRC 317, will enroll healthy adults aged 18 to 50. Participants will be assigned randomly to receive 2 injections 12 weeks apart with the investigational vaccine or the investigational vaccine with alum, a compound commonly added to vaccines to enhance the immune response.

Participants also will be randomly assigned to receive 1 of 3 doses (50, 150, or 500 μg) at both time points. To start, 5 people will receive the 50-µg dose. If they experience no serious adverse reactions attributable to the vaccine the other participants will be vaccinated with the higher doses.

The participants will return for 12 clinic visits over 44 weeks when researchers will conduct physical exams, collect blood samples, and test mucous samples to measure the immune response.

DS-Cav1 is the result of “years of research” at the Vaccine Research Center, the NIH says. Traditionally a vaccine is derived from a weakened or inactivated whole virus. By contrast, DS-Cav1 is a single, structurally engineered protein from the surface of RSV. Co-lead investigator Barney Graham, MD, PhD, deputy VRC director, says, “This work represents how new biological insights from basic research can lead to candidate vaccines for diseases of public health importance.”

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