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lüll Role of the respiratory muscles in acute respiratory failure of COPD: lessons from weaning failure Tobin MJ; Laghi F; Brochard LJ Appl Physiol (1985) 2009[Sep]; 107 (3): 962-70It is problematic to withhold therapy in a patient with chronic obstructive pulmonary disease (COPD) who presents with acute respiratory failure so that detailed physiological measurements can be obtained. Accordingly, most information on respiratory muscle activity in patients experiencing acute respiratory failure has been acquired by studying patients who fail a trial of weaning after a period of mechanical ventilation. Such patients experience marked increases in inspiratory muscle load consequent to increases in resistance, elastance, and intrinsic positive end-expiratory pressure. Inspiratory muscle strength is reduced secondary to hyperinflation and possibly direct muscle damage and the release of inflammatory mediators. Most patients recruit both their sternomastoid and expiratory muscles, even though airflow limitation prevents the expiratory muscles from lowering lung volume. Even when acute hypercapnia is present, patients do not exhibit respiratory center depression; indeed, voluntary activation of the diaphragm, in absolute terms, is greater in hypercapnic patients than in normocapnic patients. Instead, the major mechanism of acute hypercapnia is the development of rapid shallow breathing. Despite the marked increase in mechanical load and decreased force-generating capacity of the inspiratory muscles, patients do not develop long-lasting muscle fatigue, at least over the period of a failed weaning trial. Although the disease originates within the lung parenchyma, much of the distress faced by patients with COPD, especially during acute respiratory failure, is caused by the burdens imposed on the respiratory muscles.|*Ventilator Weaning[MESH]|Humans[MESH]|Muscle Fatigue/physiology[MESH]|Pulmonary Disease, Chronic Obstructive/*physiopathology/therapy[MESH]|Respiration, Artificial[MESH]|Respiratory Function Tests[MESH]|Respiratory Insufficiency/*physiopathology[MESH]|Respiratory Muscles/innervation/*physiopathology[MESH]|Treatment Failure[MESH] |