Pulmonary artery size is associated with functional clinical status in the Fontan circulation.

OBJECTIVE: In the Fontan circulation, non-pulsatile pulmonary blood flow is suggested to negatively affect pulmonary artery growth. The pulmonary vasculature is regarded a key determinant of outcome after Fontan completion. We hypothesised that in Fontan patients pulmonary artery size correlates with follow-up and functional clinical status.

METHODS: This is a single-centre, cross-sectional cohort study. Thirty-nine paediatric and adult Fontan patients with a concomitant cardiac magnetic resonance (CMR) scan and a cardiopulmonary exercise test between 2012 and 2013 were included. CMR-derived left and right pulmonary artery cross-sectional areas were expressed as Nakata index. Functional status was defined as peak oxygen consumption (pVO2 ) indexed for weight, as percentage of predicted (pred) and as New York Heart Association Functional Class (NYHA-FC).

RESULTS: Age at CMR was 18±7.2 years. Time since Fontan completion was 11.9±7.4 years. Nakata index was lower versus the reference values (238.6±78.5 vs 330±30 mm2 /m2 , p<0.001). Nakata index correlated negatively with age at CMR (r=-0.393, p=0.013) and time since Fontan completion (r=-0.341, p=0.034). pVO2 was 27.9±8.9 mL/min/kg and pVO2 pred was 58.1%±14.1%. Nakata index correlated positively with pVO2 (r=0.468, p=0.003) and pVO2 pred (r=0.353, p=0.028). Nakata index correlated negatively with NYHA-FC (r=-0.450, p=0.004). Nakata index was an independent predictor (β=0.359, p=0.007) for pVO2 (adjusted R2 =0.442, with maximum heart rate and oxygen pulse at peak exercise).

CONCLUSIONS: Pulmonary artery size expressed as Nakata index is a novel independent predictor for functional clinical status. Nakata index negatively correlated with follow-up duration, suggesting that chronic abnormal non-pulsatile pulmonary blood flow plays a role in lagging pulmonary arterial growth in the Fontan circulation.