Table of Contents

• What is Nuvaxovid?
• How Does Nuvaxovid Work?
• How is Nuvaxovid Administered?
• Clinical Trials and Research
• Effectiveness and Immune Response
• Safety and Side Effects
• Conclusion

What is Nuvaxovid?

Nuvaxovid is a COVID-19 vaccine developed by Novavax. It’s also known by several other names, including NVX-CoV2373, SARS-CoV-2 rS, and TAK-019^[1]. This vaccine is different from the mRNA vaccines like Pfizer-BioNTech’s Comirnaty or Moderna’s Spikevax. Nuvaxovid is what’s called a protein subunit vaccine, which means it contains pieces of the virus rather than genetic instructions for making those pieces^[1].

How Does Nuvaxovid Work?

Nuvaxovid contains the SARS-CoV-2 spike protein, which is a key part of the virus that causes COVID-19. This protein is produced using a unique method:

• The spike protein is created using recombinant technology. This means scientists have taken the genetic instructions for making the spike protein and inserted them into another organism.
• In this case, the protein is expressed in SF9 cells derived from Spodoptera frugiperda. In simple terms, these are insect cells that are used as tiny factories to produce the spike protein^[1].

When you receive the vaccine, your immune system recognizes this spike protein as foreign and creates antibodies and T-cells to fight it. This prepares your body to recognize and fight the real SARS-CoV-2 virus if you’re exposed to it in the future.

How is Nuvaxovid Administered?

Nuvaxovid is given as an intramuscular injection, typically in the upper arm. The standard dose is 5 micrograms (µg)^[1]. In most vaccination schedules, it’s given as two doses, with the second dose usually administered a few weeks after the first. Some studies are also looking at the effects of additional booster doses.

Clinical Trials and Research

Several clinical trials are ongoing to study various aspects of Nuvaxovid and other COVID-19 vaccines. One such study in Finland is investigating:

• Immune responses after vaccination with different vaccine formulations
• The effects of different dosing schedules and combinations of vaccines
• How long immunity lasts after vaccination
• The need for booster vaccinations in different groups
• How COVID-19 infection affects vaccine responses and vice versa
• Vaccine responses against different virus variants
• Cell-mediated immune responses after vaccination^[1]

Effectiveness and Immune Response

The effectiveness of Nuvaxovid is being closely studied. Researchers are particularly interested in:

• The proportion of people who develop antibodies above a target level after vaccination
• How antibody levels change over time
• How well the vaccine works against different variants of the virus
• How effective the vaccine is in different age groups and in people with different health conditions^[1]

One key measure being looked at is the proportion of people who are seropositive (have detectable antibodies) with an antibody level above the target level at 6 months after receiving two doses of the vaccine.

Safety and Side Effects

Like all vaccines, Nuvaxovid can cause side effects, although not everyone experiences them. Common side effects may include pain at the injection site, fatigue, and headache. Serious side effects are rare. The vaccine’s safety profile is continuously monitored as part of ongoing clinical trials and post-marketing surveillance^[1].

Conclusion

Nuvaxovid represents an important addition to the arsenal of COVID-19 vaccines. As a protein subunit vaccine, it offers an alternative for those who may not be able to receive or prefer not to receive mRNA vaccines. Ongoing research continues to provide valuable information about its effectiveness, safety, and optimal use in different populations.