The lung and carbon dioxide: implications for permissive and therapeutic hypercapnia

Autor: E R Swenson, D A Kregenow
Rok vydání: 2002
Předmět:
Zdroj: The European respiratory journal. 20(1)
ISSN: 0903-1936
Popis: Although acute respiratory acidosis may be a sign of impending respiratory failure in spontaneously breathing patients, it is commonly encountered in intubated patients with acute lung injury (ALI). This is especially the case now that limiting tidal volumes and airway pressures have been proven to reduce mortality in ALI, presumably by reducing additional lung injury caused by mechanical ventilation itself 1. A respiratory acidosis arising from lung-protective ventilation strategies has been termed permissive hypercapnia 2–5. As the name indicates, permissive hypercapnia has been regarded as an inconvenient side-effect that must be tolerated in order to realise the mortality benefits of a low lung-stretch strategy. There is growing evidence that hypercapnic acidosis may itself minimise or reduce lung injury as a result of suppressing inflammatory events. The mechanism(s) for this effect is (are) not entirely known. Nonetheless, there was sufficient suggestive data from cell culture and isolated organ studies over the past two decades for Laffey and Kavanagh 6 not only to support the use of permissive hypercapnia but also to advocate the use of “therapeutic hypercapnia” through the addition of carbon dioxide (CO2) to the inspired gas. In addition to the possibility of improved outcomes due to anti-inflammatory effects, hypercapnic acidosis has effects on ventilation-perfusion matching that improve gas exchange. Therapeutic hypercapnia has previously been shown to increase arterial oxygenation by this mechanism in normal animals 7, 8 and in a sheep model of Klebsiella pneumonia 9. The only study of changes in gas exchange with permissive hypercapnia in humans with ALI showed an increase in shunt 10. This was most likely due to a reduction in tidal volume used to produce a hypercapnic acidosis than to permissive hypercapnia itself. Thus, the effects of hypercapnic acidosis on ventilation, perfusion, and their regional …
Databáze: OpenAIRE