Independent right lung high frequency and left lung conventional ventilation in the management of severe air leak during ARDS

Independent high-frequency oscillatory ventilation in the management of asymmetric acute lung injury

We present a case of independent lung ventilation in an adult with asymmetric acute lung injury. We applied a conventional protective ventilatory strategy to the more homogeneously infiltrated lung and high-frequency oscillatory ventilation to the almost totally collapsed lung, because a conventional protective strategy exposed this lung to plateau pressure more than 30 cm H2O, whereas high-frequency oscillatory ventilation provided sufficient gas exchange at safer pressure levels. Analysis of a lung computed tomography scan was used to evaluate the efficacy of the ventilatory strategy.

Feasibility of asynchronous independent lung high-frequency oscillatory ventilation in the management of acute hypoxemic respiratory failure: a case report

OBJECTIVE

To report the first case of the use of asynchronous independent lung high-frequency oscillatory ventilation (AIL-HFOV) in the management of acute hypoxemic respiratory failure in a large pediatric patient with markedly asymmetric lung disease.

DESIGN

Case study.

SETTING

Tertiary pediatric intensive care unit in a pediatric teaching hospital.

PATIENT

A 17-yr-old, 87-kg male patient with trisomy 21 and with respiratory failure and progressive hypoxemia because of pneumonia.

INTERVENTIONS

Intubation with a 37-Fr double-lumen endobronchial tube and ventilation with two oscillatory ventilators for a total of 16 days.

MEASUREMENTS AND MAIN RESULTS

Hemodynamic data were obtained using a pulmonary artery catheter. Adequate oxygenation and ventilation were readily achieved after institution of AIL-HFOV. The F(IO2)/PaO2 ratio increased from 52 to 224, and the shunt fraction decreased from 40 to 9 after 30 mins of AIL-HFOV. F(IO2) was rapidly reduced from 1.0 to 0.4 on the right lung and to 0.6 on the left lung. Mean arterial pressure was maintained, the cardiac index increased from 3.5 to 5.4 L/min/m2, the systemic vascular resistance index decreased from 1513 to 1225 dyne x sec/cm5 x m2, and the pulmonary vascular resistance index decreased from 723 to 428 dyne x sec/cm5 x m2 without the need for additional fluid boluses or increases in inotropic support. No airleaks developed during the entire hospital stay.

CONCLUSIONS

AIL-HFOV improved oxygenation and hemodynamic performance in this large patient. This case demonstrates that it is feasible to use two high-frequency oscillatory ventilators to independently ventilate the lungs of a large patient with markedly asymmetric lung disease. We believe that AIL-HFOV deserves future study and development for the treatment of large patients with acute hypoxemic respiratory failure and asymmetric lung disease when other choices are limited.