BACKGROUND:
It is estimated that at least 150,000 individuals die each year of adult respiratory distress syndrome. Treatment remains largely supportive. The National Heart, Lung, and Blood Institute conducted the Extracorporeal Support for Respiratory Insufficiency (ECMO) trial from June 1974 through 1978. In ECMO, 90 patients were randomized to either extracorporeal membrane oxygenation plus conventional therapy or to conventional therapy. Survival rates were less than ten percent in both groups. The failure of the trial to demonstrate the superiority of ECMO over conventional ventilatory support resulted in the virtual elimination of the use of ECMO in clinical medicine.
In the earlier NHLBI trial, ECMO was implemented with a veno-arterial shunt which approximated 90 percent of the baseline cardiac output. Ventilation of the lungs was continued with reduced function of inspiration oxygen. Thus, the lungs were deprived of the principle source of blood supply while continuously exposed to potentially injurious ventilatory pressures and gas composition. The present patient trial used a new form of therapy developed by Dr. Gattinoni and co-workers in Milan, Italy with the collaboration of Dr. Kolobow at the National Institutes of Health in Bethesda. The authors reported a 77 percent survival rate for the new therapy. In Step 1 of the new therapy, the patient was initially ventilated with pressure-controlled, inverted ratio ventilation. If the patient did not improve, Step 2 using extracorporeal perfusion was performed with a veno-venous shunt in contrast to a veno-arterial shunt. The veno-venous shunt preserved pulmonary blood flow whereas the veno-arterial shunt diminished it. Step 3 was reserved for those patients who did not meet the therapeutic criteria of Step 2. They underwent low frequency positive-pressure ventilation and extracorporeal CO2 removal involving veno-venous bypass via the internal jugular and femoral or bilateral saphenous veins.
DESIGN NARRATIVE:
Randomized, fixed sample. Patients were stratified by age (under and over 40 years) and by the presence or absence of trauma. Patients were assigned to conventional positive pressure ventilation therapy or to a three-step therapeutic program employing pressure-controlled-inverted-ratio-ventilation, continuous positive airway pressure, and low-frequency positive pressure ventilation-extracorporeal CO2 removal. The main outcome measure was survival at 30 days after randomization. Secondary outcome measures included hospital costs, physiologic data, length of hospital stay, and blood product consumption. Follow-up took place during the year after hospital discharge.