Jean-Claude Lacherade1, Bernard De Jonghe1, Pierre Guezennec2, Karim Debbat3, Jan Hayon4, Antoine Monsel1, Pascal Fangio1, Corinne Appere de Vecchi1, Cédric Ramaut5, Hervé Outin1 and Sylvie Bastuji-Garin6. Published ahead of print on June 3, 2010, American Journal of Respiratory and Critical Care Medicine Vol 182. pp. 910-917, (2010)

Figure. The Hi-Lo® Evac tube (Mallinckrodt® Medical) used in the study
Rationale: Ventilator-associated pneumonia (VAP) causes substantial morbidity and mortality. The influence of subglottic secretion drainage (SSD) in preventing VAP remains controversial.

Objectives: To determine whether SSD reduces the overall incidence of microbiologically confirmed VAP.

Methods: Randomized controlled clinical trial conducted at four French centers. A total of 333 adult patients intubated with a tracheal tube allowing drainage of subglottic secretions and expected to require mechanical ventilation for 48 hours was included. Patients were randomly assigned to undergo intermittent SSD (n = 169) or not (n = 164).

Measurements and Main Results: Primary outcome was the overall incidence of VAP based on quantitative culture of distal pulmonary samplings performed after each clinical suspicion. Other outcomes included incidence of early- and late-onset VAP, duration of mechanical ventilation, and hospital mortality. Microbiologically confirmed VAP occurred in 67 patients, 25 of 169 (14.8%) in the SSD group and 42 of 164 (25.6%) in the control group (P = 0.02), yielding a relative risk reduction of 42.2% (95% confidential interval, 10.4–63.1%). Using the Day 5 threshold, the beneficial effect of SSD in reducing VAP was observed in both early-onset VAP (2 of 169 [1.2%] patients undergoing SSD vs. 10 of 164 [6.1%] control patients; P = 0.02) and late-onset VAP (23 of 126 [18.6%] patients undergoing SSD vs. 32 of 97 [33.0%] control patients; P = 0.01). VAP was clinically suspected at least once in 51 of 169 (30.2%) patients undergoing SSD and 60 of 164 (36.6%) control patients (P = 0.25). No significant between-group differences were observed in duration of mechanical ventilation and hospital mortality.

Conclusions: Subglottic secretion drainage during mechanical ventilation results in a significant reduction in VAP, including late-onset VAP.

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