Living in a Bubble

Early detection and transplantation provide best outcomes for severe immune disease


Polycrystals. Image: University of Cambridge, DoITPoMS/Creative Commons Noncommercial ShareAlikeChildren born with so-called “bubble boy” disease have the best chance of survival if they undergo a hematopoietic stem cell transplant as soon as possible after birth, according to a detailed analysis of 10 years of outcomes data by researchers at Harvard Medical School and Dana-Farber/Boston Children’s Cancer and Blood Disorders Center.

These findings, the researchers said, argue for expanding newborn screening for severe combined immune deficiency (SCID), a disorder that leaves affected infants so vulnerable to infection that most die within the first year of life if untreated.

The study, published July 31 in the New England Journal of Medicine, analyzes data on 240 children with SCID who were transplanted at 25 centers across North America between Jan. 1, 2000, and Dec. 31, 2009, the decade before the U.S. Department of Health and Human Services recommended newborn screening for SCID in 2010. Currently, 21 states and the District of Columbia—together home to about two-thirds of all babies born in the United States—screen newborns for SCID. Another nine states are expected to implement newborn screening by the end of 2014.

In addition to patient age, the analysis found that infection status at the time of transplant and donor source had the strongest impact on transplant outcomes, such as five-year survival and successful immune system reconstitution.

“Survival is much, much better if infants undergo transplant before they turn 3.5 months old and before they contract any SCID-related infections,” said study first author Sung-Yun Pai, HMS assistant professor of pediatrics at Dana-Farber/Boston Children’s. “The best way to identify patients that early when there is no family history of SCID is through newborn screening.”

Sung-Yun Pai. Image: Dana-Farber/Boston Children’s

Data gained from newborn screening suggest that SCID, while still rare, is twice as common as once thought.

“Some children who succumbed to unexplained infections probably suffered from SCID,” Pai noted.

The disorder is now estimated to occur in one of every 50,000 births, up from earlier estimates of one in 100,000 births.

“Time is not the ally of children with SCID,” said Luigi Notarangelo, HMS professor of pediatrics at Boston Children’s Hospital and one of the study’s senior authors, who was among those who lobbied successfully to establish SCID newborn screening in Massachusetts in 2009. “Because they do not have a functional immune system, the longer the wait before a transplant the greater the risk they will contract a potentially devastating infection.”

The study was conducted under the auspices of the Primary Immune Deficiency Treatment Consortium, a North American collaborative supported by the National Institutes of Health. It looked at the effect on outcomes of patient age, infection status, donor source and the use of chemotherapy to condition patients prior to transplant.

Children who underwent transplant before 3.5 months of age had excellent survival, regardless of donor source or infection status, as did patients transplanted with the stem cells of a matched sibling donor, long recognized as the gold standard of transplant.

Children outside that age group also had very good survival regardless of donor source—sibling, parent or unrelated donor—as long as the patient did not have an active infection at the time of transplant.

The effect on survival of donor type and pre-transplant conditioning was only discernible in actively infected patients.

  • Overall, 74 percent of the 240 patients studied survived at least five years.
  • Among patients transplanted younger than 3.5 months, 94 percent survived.
  • Nearly all patients who received stem cells from a matched sibling donor survived.
  • At 50 percent, survival was lowest among patients who were older than 3.5 months and had active infections at the time of transplant. Actively infected infants who did not have a matched sibling donor and who received immunosuppressive therapy? or chemotherapy prior to transplant had particularly poor survival rates—39 to 53 percent.
  • Among patients who never had an infection, 90 percent survived, as did 82 percent of patients whose infection had resolved before transplant.

While survivors who received chemotherapy conditioning had stronger immune systems after transplant, further research is needed, Pai said, to determine whether the late effects of chemotherapy or the vulnerabilities of a weaker immune system pose the greater long-term risk.

“This study accomplishes several things,” Pai noted. First, it creates a baseline with which to compare patient outcomes since the advent of newborn screening for SCID. Second, it provides guidance for clinicians regarding the use of chemotherapy conditioning before transplantation. Third, it highlights the relative impacts of infection status and patient age on transplant success.

“Lastly,” she added, “it establishes the importance of early detection and transplantation, which points to the benefit of expanding newborn screening for SCID as broadly as possible.”

The study was supported by the National Institute of Allergy and Infectious Diseases (grant number 1U54AI082973); the Office of Rare Diseases Research of the National Center for Advancing Translational Sciences (grant number R13AI094943); the Translational Research Program of Boston Children’s Hospital; the National Heart, Lung and Blood Institute (grant numbers K23HL085288, P01HL36444 and 2U01HL069254); the National Cancer Institute (grant number CA23766); Texas Children's Hospital; and the St. Baldrick’s Foundation.

Adapted from a Dana-Farber/Boston Children’s news release.