The assignment of hemodynamic significance to a patent ductus arteriosus (PDA) remains a challenge for neonatal intensivists. Randomized clinical trials of PDA treatment have been criticized for the lack of standardized criteria in determining hemodynamic significance, which may explain, at least in part, the lack of benefit from therapeutic intervention. Specifically, some trials have randomized patients based on clinical parameters alone,1 whereas most trials using echocardiography have adjudicated hemodynamic significance based on PDA diameter alone, which is challenging based on the geometric variance in PDA shape and is an imprecise surrogate of shunt volume.2 The acute clinical impact of a PDA shunt is determined by both the magnitude of the shunt (flow volume) and duration of exposure, rather than the mere patency of the vessel. While PDA diameter is an important determinant of shunt volume, the magnitude of the shunt is also influenced by pressure gradient (aortic-pulmonary gradient), vessel length, and blood viscosity. Direct quantification of shunt volume using echocardiography is not possible; therefore, the adjudication of hemodynamic significance requires an appraisal of the indirect effects of shunt volume on pulmonary blood flow, left heart volume loading, and post-ductal systemic hypoperfusion. Comprehensive echocardiography evaluation is, therefore, warranted to assess not only ductal size but also echocardiography surrogates of shunt volume. The most common parameters (e.g., ductal diameter, left atrium (LA)-to-aorta (Ao) ratio) used to adjudicate hemodynamic significance are fraught with poor sensitivity and specificity, and in some patients not possible to acquire due to limited acoustic windows.3 Pulmonary vein (PV) flow4,5,6,7 is reflective of the magnitude of pulmonary blood flow, and while it is not possible to quantify volumes directly, patterns and velocities may provide additional insights regarding the magnitude of the shunt. While the documentation of normal pulmonary venous drainage for all four vessels is challenging due to image acquisition issued related to the “crab view,” particularly for patients with hyperinflated lungs, the right upper PV (RUPV) is easily seen and aligned from a standard 4-chamber view and correlates well with transesophageal measurements.8,9,10 Our objective was to investigate PV Doppler flow patterns in preterm infants and compare patients treated medically or surgically with patients whose PDA was closed on echocardiography.

PV Doppler may serve as an additional echocardiography tool that is clinically useful to guide the appraisal of left heart volume loading and offers potential advantages over LA-to-Ao ratio, mitral valve E/A ratio, and IVRT, which are subject to operator-dependent variability.2 Most importantly, as each individual echocardiography measurement has intrinsic issues related to reliability, a composite assessment enables enhanced appreciation of the likely hemodynamic significance of the shunt. For example, if there is consistent evidence of deranged hemodynamics across all echocardiography indices of shunt volume, there is likely to be increased physician confidence with the adjudication of hemodynamic significance. Limitations of our study include a lack of normative data regarding PV Doppler flow patterns across a range of gestational and postmenstrual age groups, and the potential influence of mechanical ventilation on PV flow patterns. The values for PV peak D wave in group 3 patients was highest in keeping with higher pulmonary venous return and left atrial pressure. It is also important to highlight that PV size, presence of moderate-large atrial level communications,11 and myocardial compliance may also impact left heart inflow and must be considered when interpreting these values. The purpose of this short report is not to rank PV flow pattern as superior to conventional measurements, but to highlight its value as an additional echocardiography marker of hemodynamic significance. Based on our clinical experience, it may have value in patients with limited acoustic windows due to lung apical hyperinflation, which compromises high-parasternal windows or clinical cases where the other echocardiography parameters are borderline. Further prospective studies are needed to characterize normative PV Doppler datasets across the full range of gestational age groups and postnatal age in preterm infants to aid interpretation of patterns in patients with presumed hemodynamic significance of the PDA.

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