Nav: Home

University of Maryland School of Medicine to take part in landmark Zika vaccine study

August 05, 2016

Baltimore, Md., August 5, 2016 - As world leaders increasingly recognize the Zika virus as an international public health threat, the Center for Vaccine Development at the University of Maryland School of Medicine's Institute for Global Health has been chosen as one of three study sites in a human safety trial of a new Zika vaccine. The early-stage study will evaluate the experimental vaccine's safety and ability to generate an immune system response in participants.

The selection of the University of Maryland School of Medicine (UM SOM) marks the second time in two years that the School's internationally-acclaimed Center for Vaccine Development (CVD) has been tapped to lead vaccine development efforts in the midst of a growing crisis. In 2014, the UM SOM was the only U.S. medical school asked to join an unprecedented international consortium formed by the World Health Organization. The Consortium resulted in the development of one of the first effective vaccines for Ebola. Recently, the CVD received FDA approval for the first vaccine approved in the U.S. for protection against Cholera. In July, the CVD began malaria vaccine trials in Burkina Faso.

The Zika vaccine trial, which will involve at least at least 80 volunteers at the sites in the United States, is being undertaken by the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health (NIH). The early-stage study will evaluate the experimental vaccine's safety and ability to generate an immune system response against Zika.

Scientists at NIAID's Vaccine Research Center (VRC) developed the investigational vaccine--called the NIAID Zika virus investigational DNA vaccine--earlier this year.

Leading the effort at the UM SOM's CVD is the Center's Director Kathleen Neuzil, MD, MPH, Professor of Medicine and Deputy Director of the UM SOM's Institute for Global Health, who has extensive experience with vaccine research policy and introduction.

"As we learn more about the threat that Zika poses, and as it spreads further and further, the need for a vaccine becomes greater," Dr. Neuzil said. "Our center is gratified that we have been chosen by NIH to be part of this extremely important collaborative effort."

The study is part of the U.S. government response to the ongoing outbreak of Zika virus in the Americas. According to the Centers for Disease Control and Prevention, more than 50 countries and territories have active Zika virus transmission. In the United States and its territories, more than 6,400 Zika cases have been reported. Although Zika infections are usually asymptomatic, some people experience mild illness lasting about a week. However, Zika virus infection during pregnancy can cause a serious birth defect called microcephaly, as well as other severe fetal defects of the brain and other organs. There are no vaccines or specific therapeutics to prevent or treat Zika virus disease.

The NIAID Zika virus investigational DNA vaccine approach is similar to that used for another investigational vaccine developed by NIAID for West Nile virus. That vaccine candidate was found to be safe and induced an immune response when tested in a Phase 1 clinical trial.

The investigational Zika vaccine includes a small, circular piece of DNA--called a plasmid--that scientists engineered to contain genes that code for proteins of the Zika virus. When the vaccine is injected into the arm muscle, cells read the genes and make Zika virus proteins, which self-assemble into virus-like particles. The body mounts an immune response to these particles, including neutralizing antibodies and T cells. DNA vaccines do not contain infectious material--so they cannot cause a vaccinated individual to become infected with Zika--and have been shown to be safe in previous clinical trials for other diseases.

The Phase 1 clinical trial, called VRC 319, is led by Julie E. Ledgerwood, D.O., chief of the VRC's clinical trials program. Volunteers will be divided randomly into four study groups of 20 people each. After enrollment, all participants will receive a vaccination at their first visit via a needle-free injector that pushes the vaccine fluid into the arm muscle. Half of the participants will receive one additional vaccination eight weeks or 12 weeks later. The remaining participants will receive two additional vaccinations: one group of 20 participants will receive a second vaccine at week four and a third at week eight; the other group of 20 participants will receive a second vaccine at week four and a third at week 20. All participants will receive the same dose at each vaccination.

Following each vaccination, participants will remain at the study site for observation for a minimum of 30 minutes so clinicians can monitor for any adverse reactions. Participants will receive a diary card to use at home to record their temperature and any symptoms for seven days following each vaccination.

All participants will return for follow-up visits within a 44-week time period after the first vaccination so investigators can monitor their health to determine if the vaccine is safe. The study team will review patient data daily and weekly to monitor safety. A Protocol Safety Review Team will also conduct formal interim safety reviews.

At follow-up visits, investigators will also take blood samples for laboratory testing to measure the immune response to the vaccine. Participants will be asked to return for two follow-up visits at 18 months and two years following the initial vaccination so investigators can obtain additional blood samples to assess the durability of the immune response.

The other two study sites are Emory University in Atlanta and NIH in Bethesda, Maryland. Initial safety and immunogenicity data from the Phase 1 trial are expected by the end of 2016. If results show a favorable safety profile and immune response, NIAID plans to initiate a Phase 2 trial in Zika-endemic countries in early 2017.

"Zika is an urgent international public health threat, including, now, in parts of our own country," said UM SOM Dean E. Albert Reece, MD, PhD, MBA, who is also vice president for medical affairs at the University of Maryland and the John Z. and Akiko K. Bowers Distinguished Professor. "It is gratifying to see the University of Maryland's Center for Vaccine Development continue to be involved on the front lines of addressing these global threats, as we have done with Ebola and other infectious diseases."
-end-
About the University of Maryland School of Medicine

The University of Maryland School of Medicine was chartered in 1807 and is the first public medical school in the United States and continues today as an innovative leader in accelerating innovation and discovery in medicine. The School of Medicine is the founding school of the University of Maryland and is an integral part of the 11-campus University System of Maryland. Located on the University of Maryland's Baltimore campus, the School of Medicine works closely with the University of Maryland Medical Center and Medical System to provide a research-intensive, academic and clinically based education. With 43 academic departments, centers and institutes and a faculty of more than 3,000 physicians and research scientists plus more than $400 million in extramural funding, the School is regarded as one of the leading biomedical research institutions in the U.S. with top-tier faculty and programs in brain science, cancer, surgery and transplantation, trauma and emergency medicine, vaccine development and human genomics, among other centers of excellence. The School is not only concerned with the health of the citizens of Maryland and the nation, but also has a global presence, with research and treatment facilities in more than 35 countries around the world. http://medschool.umaryland.edu/

About the Center for Vaccine Development (CVD)

The CVD, which was founded by Dr. Myron "Mike" Levine in 1974, is one of the most recognized entities for developing, testing and implementing vaccines in the world. Within the IGH, the CVD develops and test vaccines to prevent infectious diseases that disproportionately affect people living in the least developed countries. For the past 40 years, the CVD has conducted a wide range of research relating to the development of vaccines for a variety of diseases, including cholera, typhoid fever, paratyphoid fever, non-typhoidal Salmonella disease, shigellosis, Escherichia coli diarrhea, malaria, and other infectious diseases, including influenza. The CVD also developed new delivery systems, as well as public health and vaccine policy around the world, including Africa, Asia and Latin America. Most recently, Dr. Levine received worldwide attention for leading CVD's direct involvement in the World Health Organization's global consortium for accelerated testing of a new Ebola vaccine candidate both in CVD-Mali and CVD-Baltimore. Other members of the consortium included the Vaccine Research Center of the National Institutes of Health (NIH), the Jenner Institute of Oxford University and the Wellcome Trust.

University of Maryland School of Medicine

Related Immune Response Articles:

Early immune response may improve cancer immunotherapies
Researchers report a new mechanism for detecting foreign material during early immune responses.
Researchers decode the immune response to Ebola vaccine
The vaccine rVSV-EBOV is currently used in the fight against Ebola virus.
Immune response depends on mathematics of narrow escapes
The way immune cells pick friends from foes can be described by a classic maths puzzle known as the 'narrow escape problem'.
Signature of an ineffective immune response to cancer revealed
Our immune system is programmed to destroy cancer cells. Sometimes it has trouble slowing disease progression because it doesn't act quickly or strongly enough.
Putting the break on our immune system's response
Researchers have discovered how a tiny molecule known as miR-132 acts as a 'handbrake' on our immune system -- helping us fight infection.
Having stressed out ancestors improves immune response to stress
Having ancestors who were frequently exposed to stressors can improve one's own immune response to stressors, according to Penn State researchers.
Researchers discovered new immune response regulators
The research groups of Academy Professor Riitta Lahesmaa and Research Director Laura Elo from Turku Centre for Biotechnology have discovered new proteins that regulate T cells in the human immune system.
Blueprint for plant immune response found
Washington State University researchers have discovered the way plants respond to disease-causing organisms, and how they protect themselves, leading the way to potential breakthroughs in breeding resistance to diseases or pests.
Immune response mechanism described for fate determination of T cells
In a paper published in the journal Science, University of Alabama at Birmingham researchers and colleagues at four other United States institutions have detailed a mechanism that sets the stage for the fate decision that gives rise to two major subsets of effector cells: T follicular helper cells and non-T follicular helper cells, known as Tfh and non-Tfh cells.
Retinoic acid may improve immune response against melanoma
University of Colorado Cancer Center clinical trial results describe a promising strategy to remove one of melanoma's most powerful defenses: By adding retinoic acid to standard-of-care treatment, researchers were able to turn off myeloid-derived suppressor cells (MDSCs) that turn off the immune system, leading to more immune system activity directed at melanoma.
More Immune Response News and Immune Response Current Events

Top Science Podcasts

We have hand picked the top science podcasts of 2019.
Now Playing: TED Radio Hour

In & Out Of Love
We think of love as a mysterious, unknowable force. Something that happens to us. But what if we could control it? This hour, TED speakers on whether we can decide to fall in — and out of — love. Guests include writer Mandy Len Catron, biological anthropologist Helen Fisher, musician Dessa, One Love CEO Katie Hood, and psychologist Guy Winch.
Now Playing: Science for the People

#543 Give a Nerd a Gift
Yup, you guessed it... it's Science for the People's annual holiday episode that helps you figure out what sciency books and gifts to get that special nerd on your list. Or maybe you're looking to build up your reading list for the holiday break and a geeky Christmas sweater to wear to an upcoming party. Returning are pop-science power-readers John Dupuis and Joanne Manaster to dish on the best science books they read this past year. And Rachelle Saunders and Bethany Brookshire squee in delight over some truly delightful science-themed non-book objects for those whose bookshelves are already full. Since...
Now Playing: Radiolab

An Announcement from Radiolab