Age at Lung Transplant Impacts Post-Transplant Survival in Cystic Fibrosis; Why?

Abstract

Cystic fibrosis (CF) remains a prevalent but still incurable disease despite multiple advances in therapy, with lung transplantation remaining the ultimate lifeextending treatment for end-stage CF. Ongoing gains in median life expectancy for those living with CF have continued to occur and are expected to accelerate with development of Cystic Fibrosis Transmembrane Regulator–modulating therapies, but many patients will still go on to develop severe respiratory failure necessitating lung transplant. Previous studies have established adult recipients with CF have a significant survival benefit from lung transplantation (1). Other studies have attempted to understand the nuances of factors influencing lung transplant outcomes in this specific disease population (2). In this issue of AnnalsATS, Sethi and colleagues (pp. 44–50) describe survival difference among adult recipients with CF over 30 years of age compared with those less than 30 years of age after lung transplantation by review of the United Network of Organ Sharing (UNOS) Registry (3). Updated CF foundation guidelines recommend lung transplant referral for any patient with CF with forced expiratory volume in 1 second (FEV1), 50% predicted with evidence of rapid decline (considered .20% drop in FEV1 within 12 mo), FEV1, 40% with other evidence of advanced disease (6-minute-walk test [6MWT] distance ,400 m, hypoxia, hypercarbia, pulmonary hypertension, and underweight as examples), or any patient with CF with FEV1, 30% (4). The most recent guidelines regarding indications for lung transplant evaluation list chronic infection with highly resistant and/or virulent bacterial organisms, which cannot be controlled before transplant as an absolute contraindication to lung transplant (5). Given the financial costs, scarcity of donors, and morbidity associated with lung transplantation, more data to improve our ability to predict outcomes with transplant are critically needed. Existing data on the benefits of lung transplant in CF are positive (1), and improvements in survival without transplant (6) suggest that this population in particular is one in which more guidance would improve our abilities to counsel patients on this important treatment option. This study by Sethi and colleagues included age, body mass index, sex, serum albumin, serum creatinine, human leukocyte antigen (HLA) mismatch, insurance, diabetes, pulmonary hemodynamics, lung allocation score (LAS), and graft ischemic time in the final analysis model (3). Significant survival difference between the two different age groups persisted in both the unadjusted and adjusted model. Secondary analyses also examined cause of death and found significant differences between the two age groups, with those in the younger cohort more likely to die from graft failure or infection (3). As may be expected, the older cohort had a higher incidence of malignancy, but interestingly, the younger cohort had a higher incidence of posttransplant lymphoproliferative disorder (3). Comparable to this study, Stephenson and colleagues described an association of extremes of age with worse survival, such that those that were youngest and oldest had shorter survival benefit when compared with median age distribution around 28 years after lung transplantation (2). On an international level, registry data has also found that adults with CF .40 years of age have better survival than young adults (7). Further study to understand the mechanisms of this observed improvement would be an interesting addition to the field. One hypothesis could be that older recipients have phenotypically milder CF, despite similar genotypes, that coincides with their ability to delay transplant to an older age that goes on to also affect their transplant outcome. Despite controlling for other characteristics, uncontrolled biases can still exist (possibly milder gastrointestinal disease, sinus disease, diabetes mellitus, or pulmonary inflammation). One of the most interesting issues uncovered by Sethi and colleagues is the effect of having public insurance and its impact on survival, which transcends age at transplant (3). In addition, public insurance was more common in the younger cohort, possibly explaining some of the worse survival. It comes after a series of manuscripts that have brought up socioeconomic status as a barrier to improved outcomes and access to care in patients with CF (8, 9). Specific to CF transplant recipients, Stephenson and colleagues found that more recent year of transplant was associated with improving survival after lung transplant (2). An interesting finding by Sethi and colleagues was that the survival difference between those over age 30 compared with those under persisted when adjustments weremade for pre-LAS and post-LAS period (3). However, the analysis was not granular 4 C /F P O