Detection of Obliterative Bronchiolitis after Lung Transplantation by Indexes of Ventilation Distribution

Abstract

Obliterative bronchiolitis (OB) is the first cause of death of long-term survivors of lung transplantation. The diagnosis is based on pathology and/or on an irreversible decrease in forced expiratory volume in 1 s (FEV₁) below 80% of the best postoperative value. We tested whether indexes of ventilation distribution may provide evidence of OB before conventional pulmonary function tests (PFTs). Fifty-seven patients with heart-lung (n = 47) or double-lung (n = 10) transplantation were monitored with conventional PFTs and measurements of the slope of the alveolar plateau for He (S_He), SF₆ (S_SF6), and N₂ (S_N2) obtained during single-breath washouts. The date at which a functional variable showed an irreversible change outside the 97.5% confidence interval was compared with the date at which a greater than 20% fall in FEV₁ was observed. A total of 1,929 tests (median, 30 tests per patient) were performed during the 1,215 d (range, 164–2,829 d) of follow-up. Eighteen patients showed an irreversible and greater than 20% fall in FEV₁ during the course of the study. This alteration was preceded by a rise in S_He in 17 patients and by a rise in S_N2 in 16 patients, which indicated a more heterogeneous ventilation. The median time interval between the change in S_He and S_N2 and the 20% decrease in FEV₁ was 356 and 168 d, respectively, with seven patients showing an interval of 18 mo or more. Conventional PFTs, including midexpiratory flow rates, deteriorated after indexes of ventilation distribution. Thirty-nine patients did not show any significant and irreversible alteration in conventional PFTs over the study period; only seven of these patients developed significant alterations in ventilation distribution. We conclude that measurements of ventilation distribution detect posttransplant OB much earlier than conventional PFTs.