EBQ:ARDSnet Trial
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Clinical Question
Does a lung protective strategy of low tidal volumes in patients with Acute Lung Injury (ALI) and Acute Respiratory Distress Syndrome (ARDS) decrease mortality and ventilator-free days when compared to traditional ventilation strategies.
Conclusion
In patients with ALI/ARDS, lower tidal volumes of 6mL/kg predicted body weight reduces mortality and decreases length of time on mechanical ventilation.
Major Points
- Acute Respiratory Distress Syndrome results from alveolar damage and barotrauma are associated with elevated plateau pressures and higher tidal volume ventilations
- The trial was stopped early when patients in the low tidal volumes arm showed a significant decrease in mortality and more ventilator-free days compared to the traditional tidal volumes arm.
Guidelines
See Sepsis for guideline recommendations
Design
- Multicenter, randomized trial of 861 patients in parallel-group in 10 university-affiliated ARDSNet centers
- Low tidal volumes: Starting at 6ml/kg PBW and plateau pressure ≤30cmH2O (n=432)
- Traditional tidal volumes: starting at 12ml/kg PBW and plateau pressure of ≤50cmH2O (n=429)
- Enrollment: March 1996 to March 1999 (terminated early after the fourth interim analysis)
- Follow-up: 180 days or until home breathing independently
Population
Inclusion Criteria
- Age ≥18 years
- Receiving mechanical ventilation
- Diagnosis of ALI/ARDS ≤36h prior to enrollment; defined as:
- Acute decrease in PaO2/FiO2ratio to ≤300
- CXR: Bilateral pulmonary infiltrates
- PCWP of ≤18mmHg without evidence of left atrial hypertension
Exclusion Criteria
- Pregnancy
- Increased ICP, neuromuscular disease imparing spontaneous breathing, sickle cell disease, or severe chronic respiratory disease
- Weight more than 1kg/cm of height
- Burns >30% of BSA
- Estimated 6-month mortality rate >50%
- History of bone marrow or lung transplantation
- Child-Pugh class C liver disease
- Participation in other trials w/in 30 days
Baseline Characteristics
- Mean age: 51.5 years
- Sex: Female (40.5%)
- Ethnicity:
- White: 73%
- Black: 17.5%
- Hispanic: 6%
- APACHE III score: 82.5
- Mean PaO2:FiO2: 136
- Mean tidal volume: 670 mL
- Mean minute ventilation: 13.4 vs. 12.7 L/min (P=0.01)
Interventions
Patients randomly assigned to receive mechanical ventilation (volume-assist-control mode) with following strategies for tidal volume:
- Low tidal volumes (lung protective strategy): Starting at 6ml/kg PBW to maintain plateau pressure ≤30cm H2O (n=432)
- Traditional tidal volumes: Starting at 12ml/kg to maintain plateau pressure of ≤50cm H2O (n=429)
Patients monitored until day 28 or death for signs of system failure:
- Circulatory failure: SBP ≤90mmHg or need for vasopressor
- Coagulation failure: Platelets ≤80,000 mm3
- Hepatic failure: Bilirubin ≥2mg/dL
- Renal failure: Creatinine ≥2mg/dL
Outcomes
Primary Outcomes
- 180-day mortality
- 31.0% vs. 39.8% (RR 0.78; P=0.007)
- Ventilator-free days (Days 1-28)
- 12 vs. 10 (P=0.007)
- Breathing without assistance by day 28
- 65.7% vs. 55.0% (P<0.001; NNT 9)
Secondary Outcomes
- Days w/o non-pulmonary organ or system failure (Days 1 to 28)
- 15 vs. 12 (P=0.006)
- Days w/o circulatory failure
- 19 vs. 17 (P=0.004)
- Days w/o coagulation failure
- 21 vs. 19 (P=0.004)
- Days w/o renal failure
- 20 vs. 18 (P=0.005)
- Barotrauma (New PTX, pneumomediastinum, subcutaneous emphysema, pneumatocele)
- 10% vs. 11% (P=0.43)
- Mean tidal volumes (ml/kg PBW)
- 6.2 vs. 11.8 (P<0.001)
- Mean plateau pressures (cm H2O)
- 25 vs. 33 (P<0.001)
- Peak inspiratory pressures (cm H2O)
- 32 vs. 39 (P<0.05)
Criticisms
Funding
The National Heart, Lung, and Blood Institute.
See Also
Mechanical Ventilation Pages
- Noninvasive ventilation
- Intubation
- Mechanical ventilation (main)
- Miscellaneous