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Researchers Publish Encouraging Early Data on COVID-19 Vaccine

The director of the National Institutes of Health is "confident that we will be able rise to the challenge of ending this pandemic that has devastated so many lives."

People all around the globe are anxiously awaiting development of a safe, effective vaccine to protect against the deadly threat of coronavirus disease 2019 (COVID-19). Evidence is growing that biomedical research is on track to provide such help, and to do so in record time.

Just two days ago, in a paper in the New England Journal of Medicine, researchers presented encouraging results from the vaccine that’s furthest along in U.S. human testing: an innovative approach from NIH’s Vaccine Research Center (VRC), in partnership with Moderna Inc., Cambridge, MA. The centerpiece of this vaccine is a small, non-infectious snippet of messenger RNA (mRNA). Injecting this mRNA into muscle will spur a person’s own body to make a key viral protein, which, in turn, will encourage the production of protective antibodies against SARS-CoV-2—the novel coronavirus that causes COVID-19.

While it generally takes five to 10 years to develop a vaccine against a new infectious agent, we simply don’t have that time with a pandemic as devastating as COVID-19. Upon learning of the COVID-19 outbreak in China early this year, and seeing the genome sequence of SARS-CoV-2 appear on the internet, researchers with NIH’s National Institute of Allergy and Infectious Diseases (NIAID) carefully studied the viral instructions, focusing on the portion that codes for a spike protein that the virus uses to bind to and infect human cells.

Because of their experience with the original SARS virus back in the 2000s, they thought a similar approach to vaccine development would work and modified an existing design to reflect the different sequence of the SARS-CoV-2 spike protein. Literally within days, they had created a vaccine in the lab. They then went on to work with Moderna, a biotech firm that’s produced personalized cancer vaccines. All told, it took just 66 days from the time the genome sequence was made available in January to the start of the first-in-human study described in the new peer-reviewed paper.

In the NIH-supported phase 1 human clinical trial, researchers found the vaccine, called mRNA-1273, to be safe and generally well tolerated. Importantly, human volunteers also developed significant quantities of neutralizing antibodies that target the virus in the right place to block it from infecting their cells.

Conducted at Kaiser Permanente Washington Health Research Institute, Seattle; and Emory University School of Medicine, Atlanta, the trial led by Kaiser Permanente’s Lisa Jackson involved healthy adult volunteers. Each volunteer received two vaccinations in the upper arm at one of three doses, given approximately one month apart.

The volunteers will be tracked for a full year, allowing researchers to monitor their health and antibody production. However, the recently published paper provides interim data on the phase 1 trial’s first 45 participants, ages 18 to 55, for the first 57 days after their second vaccination. The data revealed:

  • No volunteers suffered serious adverse events.
  • Optimal dose to elicit high levels of neutralizing antibody activity, while also protecting patient safety, appears to be 100 micrograms. Doses administered in the phase 1 trial were either 25, 100, or 250 micrograms.
  • More than half of the volunteers reported fatigue, headache, chills, muscle aches, or pain at the injection site. Those symptoms were most common after the second vaccination and in volunteers who received the highest vaccine dose. That dose will not be used in larger trials.
  • Two doses of 100 micrograms of the vaccine prompted a robust immune response, which was last measured 43 days after the second dose. These responses were actually above the average levels seen in blood samples from people who had recovered from COVID-19.

These encouraging results are being used to inform the next rounds of human testing of the mRNA-1273 vaccine. A phase 2 clinical trial is already well on its way to recruiting 600 healthy adults.This study will continue to profile the vaccine’s safety, as well as its ability to trigger an immune response.

Meanwhile, later this month, a phase 3 clinical trial will begin enrolling 30,000 volunteers, with particular focus on recruitment in regions and populations that have been particularly hard hit by the virus.

The design of that trial, referred to as a “master protocol,” had major contributions from the Accelerating COVID-19 Therapeutic Interventions and Vaccine (ACTIV) initiative, a remarkable public-private partnership involving 20 biopharmaceutical companies, academic experts, and multiple federal agencies. Now, a coordinated effort across the U.S. government, called Operation Warp Speed, is supporting rapid conduct of these clinical trials and making sure that millions of doses of any successful vaccine will be ready if the vaccine proves save and effective.

Results of this first phase 3 trial are expected in a few months. If you are interested in volunteering for these or other prevention trials, please check out NIH’s new COVID-19 clinical trials network.

There’s still a lot of work that remains to be done, and anything can happen en route to the finish line. But by pulling together, and leaning on the very best science, I am confident that we will be able rise to the challenge of ending this pandemic that has devastated so many lives.