The effect of induced hypothermia on respiratory parameters in mechanically ventilated patients

Aim

Mild hypothermia is increasingly applied in the intensive care unit. Knowledge on the effects of hypothermia on respiratory parameters during mechanical ventilation is limited. In this retrospective study, we describe the effect of hypothermia on gas exchange in patients cooled for 24 h after a cardiac arrest.

Methods

Respiratory parameters were derived from electronic patient files from 65 patients at the start and end of the hypothermic phase and at every centigrade increase in body temperature until normo-temperature, including tidal volume, positive end expiratory pressure (PEEP), plateau pressure, respiratory rate, exhaled CO₂ concentrations (etCO₂) and FIO₂. Static compliance was calculated as V_T/P_plateau − PEEP. Dead space ventilation was calculated as (PaCO₂ − etCO₂)/PaCO₂.

Results

During hypothermia, PaCO₂ decreased, at unchanged PaCO₂-etCO₂ gap and minute ventilation. During rewarming, PaCO₂ did not change, while etCO₂ increased at unchanged minute ventilation. Dead space ventilation did not change during hypothermia, but lowered during rewarming. During hypothermia, PaO₂/FIO₂ ratio increased at unchanged PEEP levels. Respiratory static compliance did not change during hypothermia, nor during rewarming.

Conclusion

Hypothermia possibly improves oxygenation and ventilation in mechanically ventilated patients. Results may accord with the hypothesis that reducing metabolism with applied hypothermia may be beneficial in patients with acute lung injury, in whom low minute ventilation results in severe hypercapnia.