A new study has found that women who receive the mRNA Covid-19 vaccine during pregnancy pass high levels of antibodies to their babies. The findings of the study were published in the ‘American Journal of Obstetrics and Gynecology MFM’. The effectiveness of the Pfizer-BioNTech and Moderna mRNA Covid-19 vaccines, the researchers say, lies in their ability to trigger the production of the right antibodies, blood proteins capable of protecting individuals from infection.
Whether this protection could pass from mothers to their infants before birth had remained a question. The new study of 36 newborns whose mothers received either the Pfizer-BioNTech or Moderna Covid-19 vaccine during pregnancy found that 100 per cent of the infants had protective antibodies at birth.
Antibodies can either be produced as part of the natural response to infection or triggered by vaccines. With that in mind, the research team was able to tell apart antibodies in the neonatal blood that were created in response to natural infection from those made in response to the vaccines.
The result is relevant because natural antibody responses against the SARS-CoV-2 virus are not sufficiently protective for many people. Recent data from the Centers for Disease Control and Prevention (CDC) suggests that just 23 per cent of pregnant women have been vaccinated, despite growing evidence of prenatal vaccine safety.
Led by researchers at NYU Grossman School of Medicine, the study authors observed the highest levels of antibodies in cord blood of mothers who were fully vaccinated during the second half of their pregnancies. This insight provides evidence of transferred immunity to neonates, which correlates to protection against infection for infants during the first months of life.
“Studies continue to reinforce the importance of vaccines during pregnancy and their power to protect two lives at once by preventing severe illness in both mothers and babies,” said Ashley S. Roman, MD, director of the Division of Maternal-Fetal Medicine and the Silverman Professor of Obstetrics and Gynecology in the Department of Obstetrics and Gynecology at NYU Langone Health, and one of the study’s principal investigators.
“If babies could be born with antibodies, it could protect them in the first several months of their lives, when they are most vulnerable,” added Roman.
As the Covid-19 vaccines received authorisation from the US Food and Drug Administration, the CDC consistently asserted that they should not be withheld from people who are pregnant and want the vaccine.
Dr Roman and colleagues confirm the strong evidence that the mRNA vaccines are safe during pregnancy in a study published on August 16 in the ‘American Journal of Obstetrics and Gynecology—Maternal-Fetal Medicine’, titled ‘Covid-19 Vaccination in Pregnancy: Early Experience from a Single Institution’.
The study found no increased risks during pregnancy, birth complications, or identifiable risks to the fetus among those who received the vaccine.
In the current study, though the sample size is small, “it is encouraging that neonatal antibody levels are high if women are vaccinated,” said Jennifer L. Lighter, MD, associate professor in the Department of Pediatrics, hospital epidemiologist at Hassenfeld Children’s Hospital at NYU Langone, and the study’s senior author.
Existing studies analyse antibodies to the spike protein (anti-S IgG) alone, which may be present after natural infection or vaccination, and do not include antibodies to the nucleocapsid protein (anti-N IgG), which is only present following natural infection.
Among the 36 samples collected, all had high levels of anti-S IgG. Of those samples, 31 were tested for anti-N IgG and were negative. “High levels of transplacental antibody transfer are not surprising. It is consistent with what we see with other immunisations,” said Dr Lighter.
“Our findings add to a growing list of important reasons why women should be advised to receive the Covid-19 vaccine during pregnancy for the added benefit of their newborn receiving crucial protection,” added Dr Lighter.