Graphic courtesy of M.E. Newman, Johns Hopkins Medicine
Johns Hopkins Medicine researchers have shown that although two doses of a vaccine against SARS-CoV-2 — the virus that causes COVID-19 — confers some protection for people who have received solid organ transplants, it’s still not enough to enable them to dispense with COVID safety measures.
In a study published today in the Journal of the American Medical Association, Johns Hopkins Medicine researchers show that although two doses of a vaccine against SARS-CoV-2 — the virus that causes COVID 19 — confers some protection for people who have received solid organ transplants, it’s still not enough to enable them to dispense with masks, physical distancing and other safety measures.
This is a follow-up study to an earlier one published in March in JAMA, in which the researchers reported that only 17% of the participating transplant recipients produced sufficient antibodies after just one dose of a two-dose COVID-19 vaccine regimen.
“While there was an increase in those with detectable antibodies — 54% overall — after the second shot, the number of transplant recipients in our second study whose antibody levels reached high enough levels to ward off a SARS-CoV-2 infection was still well below what’s typically seen in people with healthy immune systems,” says study lead author Brian Boyarsky, MD, a surgery resident at the Johns Hopkins University School of Medicine.
“Based on our findings, we recommend that transplant recipients and other immunocompromised patients continue to practice strict COVID-19 safety precautions, even after vaccination,” Boyarsky says.
People who receive solid organ transplants (such as hearts, lungs and kidneys) often must take drugs to suppress their immune systems and prevent rejection. Such regimens may interfere with a transplant recipient’s ability to make antibodies to foreign substances, including the protective ones produced in response to vaccines.
The new study evaluated this immunogenic response following the second dose of either of the two messenger RNA (mRNA) vaccines — made by Moderna and Pfizer-BioNTech — for 658 transplant recipients, none of whom had a prior diagnosis of COVID-19. The participants completed their two-dose regimen between Dec. 16, 2020, and March 13, 2021.
In the most recent study, the researchers found that only 98 of the 658 study participants — 15% — had detectable antibodies to SARS-CoV-2 at 21 days after the first vaccine dose. This was comparable to the 17% reported in the March study looking at immune response after only one vaccine dose.
At 29 days following the second dose, the number of participants with detectable antibodies rose to 357 out of 658 — 54%. After both vaccine doses were administered, 301 out of 658 participants — 46% — had no detectable antibody at all while 259 — 39% — only produced antibodies after the second shot.
The researchers also found that among the participants, the most likely to develop an antibody response were younger, did not take immunosuppressive regimens including anti-metabolite drugs and received the Moderna vaccine. These were similar to the associations seen in the March single-dose study.
“Given these observations, transplant recipients should not assume that two vaccine doses guarantee sufficient immunity against SARS-CoV-2 any more than it did after just one dose,” says study co-author Dorry Segev, MD, PhD, the Marjory K. and Thomas Pozefsky Professor of Surgery and Epidemiology and director of the Epidemiology Research Group in Organ Transplantation at the Johns Hopkins University School of Medicine.
Segev says that future studies should seek to improve COVID-19 vaccine responses in this population, including additional booster doses or modulating the use of immunosuppressive medications so that sufficient antibody levels are achieved.
In addition to Boyarsky and Segev, the Johns Hopkins Medicine research team includes William Werbel, Robin Avery, Aaron Tobian, Allan Massie and Jacqueline Garonzik-Wang.
The study was supported by a donation from the Ben-Dov family; grants F32DK124941, K01DK10677 and K23DK115908 from the National Institute of Diabetes and Digestive Kidney Diseases; grant K24AI144954 from the National Institute of Allergy and Infectious Diseases; and grant gSAN-201C0WW from the Transplantation and Immunology Research Network of the American Society of Transplantation.
Source: Johns Hopkins Medicine