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Vaccine and Treatment Evaluation Units (VTEUs)

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Introduction

NIAID established the Vaccine and Treatment Evaluation Units (VTEUs) in 1962. They provide a ready resource for conducting clinical trials of vaccines and treatments for infectious diseases.

The current VTEUs are

  • Baylor College of Medicine, Houston
  • Cincinnati Children’s Hospital Medical Center
  • Duke Medicine [new to VTEU program], Durham, N.C.
  • Emory University, Atlanta
  • Group Health Research Institute, Seattle
  • Saint Louis University
  • University of Iowa, Iowa City
  • University of Maryland, Baltimore
  • Vanderbilt University, Nashville
Illustration of a U.S. map specifying the location of NIH’s network of Vaccine and Treatment Evaluation Units (VTEUs).
NIAID’s network of Vaccine and Treatment Evaluation Units (VTEUs). View full-size image.
Credit: NIAID

VTEUs have played a key role in NIAID’s effort to develop new and improved vaccines and therapies against infectious diseases for over four decades. They have conducted hundreds of clinical trials, many of which have contributed to vaccine licensure.

Rapid-Response Capability

An important strength of the VTEUs is their ability to enroll large numbers of volunteers into trials rapidly and vaccinate them in a safe, effective and quick manner. This rapid-response capability is especially important for testing vaccines designed to counteract emerging public health concerns.

For example, the United States experienced an unexpected, significant shortage of seasonal influenza vaccines in 2004. The VTEUs swiftly initiated a large-scale trial to evaluate the seasonal influenza vaccine Fluarix for use in healthy adults in the United States. The trial demonstrated the vaccine’s safety and ability to generate an immune response and ultimately led to its expedited approval by the Food and Drug Administration (FDA) in August 2005—less than a year after the trial began.

The VTEUs conducted multiple studies in 2005 and 2006 of a vaccine for a strain of H5N1 avian influenza virus to determine the most effective dose. Those studies led to the licensure of the first vaccine approved by the FDA against an H5N1 influenza virus.

Testing Novel Vaccines

One of the primary goals of NIAID research is to develop new vaccines against infectious diseases, such as pneumococcal infections. The World Health Organization estimates that more than 1.6 million people, including more than 800,000 children under five, die each year from pneumococcal infections. NIAID has invested more than 30 years of research into developing pneumococcal vaccines. Early product development support as well as Phase I and II studies conducted by VTEU sites in infants were helpful in developing Prevnar, a vaccine to prevent pneumococcal diseases in children younger than 2 years of age.

Developing Combination Vaccines

Combination vaccines minimize needle sticks and trips to the doctor by delivering more than one vaccine at a time. A five-site VTEU trial evaluated the impact of inactivated (killed) poliovirus vaccine versus oral poliovirus vaccines when given with a combined vaccine against Haemophilus influenza type b, pertussis, diphtheria, and tetanus. As a direct result of the study, health experts now recommend that children get the inactivated poliovirus vaccine as part of their routine immunizations.

Testing Novel Delivery Systems

VTEUs also test new ways to deliver vaccines. For example, six VTEUs enrolled young children in a Phase III trial of FluMist, an influenza vaccine administered by nasal spray. The vaccine was 93 percent effective against the predominant flu strains of the 1996-97 flu season. In 1998, researchers inoculated the children against three flu strains thought to be circulating that season. The nasal spray vaccine was 86 percent effective against not only the flu strains covered in the vaccine but also against a circulating strain not included in the injected form of the vaccine.

Issues such as lack of refrigeration can make immunizing people using traditional vaccines very difficult in developing countries. Edible vaccines, made from plants, may be an inexpensive and effective way to immunize people in developing countries. The University of Maryland School of Medicine VTEU conducted the first clinical study of an edible vaccine in 1998. Researchers genetically engineered potatoes that, when eaten raw, produced an immune response to Escherichia coli. Scientists have developed genetically engineered plants that contain an antigen for the E. coli bacteria and the Norwalk virus.

Strengthening the Nation's Biodefense

In response to concern that smallpox virus could be used as a bioterrorist weapon against the United States, NIAID used the VTEU network to explore the best way to use existing supplies of Dryvax smallpox vaccine to protect military and civilian populations.

Approximately 15 million doses of Dryvax smallpox vaccine have been stored since production stopped in 1983. However, it was estimated that controlling an outbreak of smallpox disease in the United States would require 40 million doses of vaccine. So, in 2002, NIAID began a study to determine whether Dryvax vaccine could be diluted effectively to make more doses of this smallpox vaccine available. The trials showed that the existing U.S. supply of smallpox vaccine could successfully be diluted up to 5 times and retain its potency, effectively expanding the number of individuals it could protect to 75 million.

2009 Clinical Trials of Influenza Vaccine

During the summer of 2009, the VTEUs began clinical trials to evaluate both seasonal influenza vaccines and candidate vaccines for H1N1 influenza. The trials enrolled volunteers of all ages.
These studies will provide information that will help public health officials determine the best vaccination schedule, dosing and other recommendations. A panel of outside experts conducts a close safety review of all trials to spot immediately any concerns that arise. Results are expected weeks after the clinical trials begin, instead of the usual months or years for a more typical trial.

Expanded Scope

In 2013, the ability of the VTEU network was expanded to conduct research in domestic and international research locations, including resource-poor settings. This expanded scope will allow researchers to study infectious diseases where they are endemic, enabling them to learn more about the origin and evolution of emerging and reemerging infectious diseases.

 

 

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Last Updated June 25, 2014