Updated on April 15, 2020

The first case of COVID-19 was reported to the World Health Organization in December 2019. Since then, the virus has affected more than 1.9 million people in the world and claimed more than 100,000 lives. 

Since a vaccine or proper treatment isn't available yet for the virus, preventive measures like physical distancing remain the only options. 

However, various medicines have already been proposed and are being considered to manage the disease and the WHO has a list of 70 vaccine candidates, 3 of which are already in clinical phase and 67 in preclinical phase (animal or lab study). Experts say that if all timelines are followed correctly, a vaccine will be launched within 12 to 18 months.

But the question is why is it taking so long to develop a vaccine for an infectious disease that has so quickly taken over the world?

  1. The process of vaccine development
  2. Who develops vaccines?
  3. Human challenge trials
Doctors for Why is it taking so long to develop a vaccine for COVID-19?

Vaccine development is a long process. To develop a vaccine, researchers first have to isolate the microbe against which the vaccine has to be made - generally, one vaccine only protects you against one microbe. The causative organism of COVID-19, SARS-COV-2 has already been isolated by a number of countries across the world. China was the first to isolate it in January 2020. 

After isolating the virus, the whole process of vaccine development goes through the following phases:

Exploration: In this phase, scientists look for various antigens (proteins in the virus/microbe against which our immune system makes an immune response) that can be used against it. In case of viruses, this could be a part of viral nucleic acid (DNA or RNA), or a weak strain of a virus or killed virus.

Preclinical phase: In this phase, the vaccine is tested in lab cultures and animals to check for its efficiency and safety. Only when it is established that the vaccine candidate produced immunity and does not have side effects can it go to the next - clinical - phase.

Clinical phase: The clinical development itself has three phases including an increasing number of volunteers to test the safety and efficacy of the vaccine. 

  • In phase 1, the vaccine is tested in less than 100 volunteers to see how safe it is and how the human body responds to the vaccine.
  • In phase 2, the vaccine is tested in hundreds of subjects to determine its immunogenicity (the ability to create the desired immune response), dosage and the immunisation schedule.
  • In the third and final phase, scientists check the efficacy of the vaccine in 1000s of volunteers to check its safety and efficacy and side effects if any.

Formal approval from various regulatory authorities is needed for conducting clinical trials along with ethical clearance. 

The third phase is usually the longest and takes most of the time of the whole process. However, the success of this phase determines if the testing lab or the company gets the licence for the said vaccine. 

If a vaccine has a lot of lab-made products or genetically modified organisms or basically anything that may have an environmental concern, it has to be approved by the concerned authorities too.

Even after a company gets the licence for manufacturing a vaccine, it will take them some time to produce a lot to be made available to the general public. 

Lot release: Lot release is a regulatory process that is done before releasing each lot of a vaccine in the market. This involves the review of the production data and the quality control tests that were conducted on the product.

After releasing a new vaccine in the market, post-marketing surveillance is done to see how it is performing and if it is showing any side effects. If needed, phase 4 trials are done on a group of population to check for the safety and efficacy of the vaccine.

Normally it takes about 6 to 10 years to develop a vaccine. Compared to this, the proposed timeline for COVID-19 is too compressed already. 

Read more: List of drugs being repurposed for the treatment of COVID-19

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Vaccine development involves a number of professionals from various fields. These include: 

Academic and medical experts - to study the virus/microbe, find out the antigens and conduct tests to tell about the safety consideration of vaccines and help keep up the vaccine development process. The experts also provide information on evidence-based practices for immunisation and provide past studies.

A manufacturing firm - usually a private pharmaceutical company that funds the research.

Volunteers - people who take part in clinical trials.

Regulatory agencies - to give licence to the company for developing a vaccine and to ensure that every lot of the vaccine meets the required quality standards.

Read more: Human trials of Ebola drug for the treatment of COVID-19

To further reduce the timeline for the vaccine, scientists are now proposing what is called human challenge trials.

The WHO defines human challenge trials as studies in which volunteers are intentionally infected with an infectious microbe. This could either be done for the purpose of vaccine development or to better understand various characteristics of the microbe. 

A human challenge trial may have one of the following aims:

  • To understand the symptoms and transmutability (how quickly, for how long and in what ways a disease spreads) of the disease.   
  • To find out how the human immune system reacts to a pathogen and what all the vaccine needs to do to protect the person against the disease. 
  • To determine various aspects of a phase 3 trial like the endpoints (what they are trying to achieve with the trials) and other aspects of a phase 3 study design.
  • To eliminate the ineffective vaccine candidates and to take the best candidates to efficacy trials.

Human challenge trials (if done) would rule out the need for the third phase of vaccine development and hence the vaccine may be made available much more quickly than what is being expected. 

With human challenge trials, a request for a licence can be submitted a bit earlier, which would even further the process. 

However, there are various ethical, moral and safety concerns that need to be considered before the scientists can conduct human challenge trials. 

For example, a challenge trial in humans cannot be done for an infectious disease that has a high fatality rate or for which there is no known treatment or a way to manage it. 

In case a challenge trial is to be done, the research team conducting a challenge trial has to ensure that only consenting people are enrolled in the study and those that do enrol get proper treatment in case they get the disease. The type of people to be chosen as volunteers would also be determined to ensure that they are not one of the at-risk people for severe infection from the said organism.

The organism used for the trial may either be an attenuated (weak) version of the microbe that is causing the disease or some genetically modified form of the organism.

Human infection studies have been previously done on diseases like malaria, cholera, norovirus, influenza and dengue. 

A proposed model of human challenge trials for SARS-COV-2

A recent study published in the Journal of Infectious diseases had proposed a study design for the human challenge trials for SARS-COV-2 virus. Here is a gist on what the trial could be like:

  • A group of healthy people (volunteers) would be chosen from a population at high risk of exposure to the virus - this may include people from high-risk areas in a country. 
  • All of the chosen volunteers may be in the age group of 20-45 who are likely to get only a mild case of COVID-19 and are hence unlikely to die from the disease.
  • Before enrolling them in the study, all the candidates would be asked for their consent and will be informed of the risks of the study. Only consenting candidates would be selected for the study.
  • To chose people who have not already previously or recently been infected, all the participants in the challenge group will be kept in clinical isolation for at least 2 weeks (or less) to check if they have already developed antibodies against the virus - this would be determined with serological testing. 
  • Those who already have antibodies would then be excluded leaving those who have never ever been exposed to the virus.
  • After this, the challenge group with previously uninfected people will be exposed to the virus so they develop the disease with the same severity as they would get in a natural setting. This could be done by comparing the challenge group with that of a group of people (of the same age group) who got the infection naturally.
  • Next, all the people in the challenge group will be randomly given either the candidate vaccine or a placebo. 
  • The scientists will monitor the group to see if those who got the vaccine had a different immune response than those who did not. 
  • The vaccine schedule, dosage, safety etc would be decided before conducting the challenge trial. 
  • Because some volunteers may show symptoms of the disease, the study would have a set criteria for specific endpoints after which volunteers would be sent for treatment and the study would be concluded. This could be viral load or the amount of virus present in the person’s body. After the viral load exceeds a certain point it would be decided that the person needs treatment. Viral loads would hence need to be monitored daily by taking nasopharyngeal swabs of the volunteers. The endpoint of the study could also be the total number of volunteers who got the infection. 
  • To determine the efficiency of the vaccine serological studies could be done. 
  • Those who get the infection would be treated in state of art facilities and be given priority based treatment. 
  • All the candidates would be kept in isolation until the infection is ruled out.  

After this trial succeeds, the testing can be scaled up to thousands of people in a natural setting. All the people would be monitored to notice the effectiveness and safety of the vaccine. This study can be done on at-risk populations  - the elderly, those with chronic diseases and immunocompromised people. 

Both these studies together would be enough to grant a licence to the company.

Read more: WHO's Solidarity trials

Dr Rahul Gam

Dr Rahul Gam

Infectious Disease
8 Years of Experience

Dr. Arun R

Dr. Arun R

Infectious Disease
5 Years of Experience

Dr. Neha Gupta

Dr. Neha Gupta

Infectious Disease
16 Years of Experience

Dr. Anupama Kumar

Dr. Anupama Kumar

Infectious Disease


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References

  1. World Health Organization [Internet]. Geneva (SUI): World Health Organization; Coronavirus disease
  2. World Health Organization [Internet]. Geneva (SUI): World Health Organization; Biologicals
  3. Balasingam Shobana, Horby Peter, Wilder-Smith Annelies. The potential for a controlled human infection platform in Singapore. Singapore Med J. 2014 Sep; 55(9): 456–461. PMID: 25273928.
  4. Eyal Nir, Lipsitch Marc, Smith Peter G. Human Challenge Studies to Accelerate Coronavirus Vaccine Licensure. The Journal of Infectious Diseases, jiaa152. 2020.
  5. Eyal Nir, Lipsitch Marc, Smith Peter G. Human Challenge Studies to Accelerate Coronavirus Vaccine Licensure. The Journal of Infectious Diseases, jiaa152. 2020.
  6. Milken Institute School of Public Health: The George Washington University [Internet]. Washington DC. US; Producing Prevention: The Complex Development of Vaccines
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