Pulmonary vascular-bronchial interactions: acute reduction in pulmonary blood flow alters lung mechanics

doi:10.1136/heart.84.3.284

Heart 2000;84:284-289; doi:10.1136/heart.84.3.284

Heart 2000;84:284-289 ( September )

Cardiovascular medicine

Pulmonary vascular-bronchial interactions: acute reduction in pulmonary blood flow alters lung mechanics I Schulze-Neick^a, D J Penny^a, G P Derrick^a, R Dhillon^b, M L Rigby^b, A Kelleher^c, A Bush^b, A N Redington^a

^a Cardiothoracic Unit, Great Ormond Street Hospital for Children, Great Ormond Street, London WC1 3JN, UK, ^b Department of Paediatrics, The Royal Brompton and Harefield NHS Trust, Sydney Street, London SW3 6NP, UK, ^c Department of Anaesthesiology, The Royal Brompton and Harefield NHS Trust

Correspondence to: Professor Redington email: reding{at}attglobal.net

Accepted 10 May 2000

BACKGROUND $---$ Postoperative pulmonary hypertension in children after congenital heart surgery is a risk factor for death and is associatedwith severe acute changes in both pulmonary vascular resistanceand lungmechanics.
OBJECTIVE $---$ To examine the impact of changes in pulmonary blood flow on lung mechanics in preoperative children with congenital heartdisease, in order to assess the cause-effect relation of pulmonaryvascular-bronchialinteractions.
DESIGN $---$ Prospective, cross sectionalstudy.
SETTING $---$ Cardiac catheterisation laboratory, general anaesthesia with mechanicalventilation.
INTERVENTIONS $---$ Variation of pulmonary blood flow (Qp) by either balloon occlusion of an atrial septal defect before interventional closure,or by complete occlusion of the pulmonary artery during balloonpulmonary valvuloplasty for pulmonary valvestenosis.
MAIN OUTCOME MEASURES $---$ Ventilatory tidal volume (Vt), dynamic respiratory system compliance (Cdyn), respiratory system resistance(Rrs).
RESULTS $---$ 28 occlusions were examined in nine patients with atrial septal defect (median age 9.5 years) and 22 in eight patients withpulmonary stenosis (median age 1.2 years). Normalisation of Qpduring balloon occlusion of atrial septal defect caused no significantchange in airway pressures and Rrs, but there was a small decreasein Vt (mean (SD): 9.61 (0.85) to 9.52 (0.97) ml/kg; p < 0.05)and Cdyn (0.64 (0.11) to 0.59 (0.10) ml/cm H₂O*kg; p < 0.01).These changes were more pronounced when there was complete cessationof Qp during balloon valvuloplasty in pulmonary stenosis, witha fall in Vt (9.71 (2.95) to 9.32 (2.84) ml/kg; p < 0.05) andCdyn (0.72 (0.29) to 0.64 (0.26) ml/cm H₂O*kg; p < 0.001), andthere was also an increase in Rrs (25.1 (1.7) to 28.8 (1.6) cmH₂O/litre*s; p < 0.01). All these changes exceeded the variabilityof the baseline measurements more thanthreefold.
CONCLUSIONS $---$ Acute changes in pulmonary blood flow are associated with simultaneous changes in lung mechanics. While these changes aresmall they may represent a valid model to explain the pathophysiologicalimpact of spontaneous changes in pulmonary blood flow in clinicallymore critical situations in children with congenital heartdisease.

Keywords: pulmonary blood flow; lung mechanics; catheter intervention; cardiopulmonary interaction

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