Virtual crossmatching improves quality of life for kidney transplant patients

Virtual antibody crossmatching is a safe and efficient way of selecting kidney transplant recipients. Two years after implementing the process, the Medical University of South Carolina division of transplant surgery concluded that the technique was just as accurate and sensitive as physical crossmatch, the current gold standard, and much quicker.

Virtual crossmatching reduced the time kidneys were kept on ice while awaiting identification of a suitable recipient,improved scheduling for surgeons and operating room staff, and alleviated emotional and logistical stress on patients who were called to the hospital only to be sent home hours later after a more suitable recipient was identified.

A study of the process and its effects on clinical and surgical practice outcomes appears on the Journal of the American College of Surgeons website in advance of print publication.A physical crossmatch is highly sensitive, but it eats up valuable time. Donor lymph nodes are shipped to the transplant center, cells are mixed with serum from the potential recipient, and surgeons, recipient, and the transplant center then must wait six hours to learn whether there is an antibody reaction before scheduling the operation.

Because of the concern about potential immune system incompatibility, transplant centers typically call in three possible recipients for every donated organ. “We ask three patients who are next on the transplantation list to come into the hospital just in case there are problems with incompatibility.

Think about the time, effort, and stress that puts on a patient. It’s not uncommon for a patient to be called in two, three, or four times before they actually go forward with transplantation,” said David Taber, PharmD, senior author of the study and a professor of surgery in the senior author of the study and a professor of surgery in the division of transplant surgery at MUSC. Delays are particularly problematic since the Kidney Allocation System was revised in 2014 and now allows transplantations to patients who are highly sensitized.“Previously, donor organs were obtained locally, so transplant centers could afford to wait six hours for the physical crossmatch results.

Now, in South Carolina, we are getting organs from California. Shipping them takes long enough. If you cannot predict what is going to happen for six more hours, you may not be able to give the organ to the intended recipient and do a disservice to the purpose of the allocation system,” said Vinayak Rohan, M.D., lead author of the study and an assistant professor of surgery in the division of transplant surgery at MUSC. The study is a before-and-after comparison of patient outcomes two years after the transplant surgery team implemented virtual crossmatching.

Of 825 patients who received a kidney transplant between 2014 and 2018,505 underwent surgery before — and 227 after — virtual crossmatching was instituted.Standard measures of clinical quality were the same in both groups. The incidence of delayed graft function was 19%before and 17% after implementation; graft failure within a year was 4% before and 3% after; mortality within a year was 2% before and 1% after. CIT for long-distance donor organs decreased by 24 hours, and delayed graft function declined by 26%.“Because we don’t need to do physical crossmatching for the majority of patients, we also can improve surgeons’quality of life by being able to schedule the operation even before an organ arrives,” Rohan said.  

American College of Surgeons article (abridged version), photo by Emma Vought