BACKGROUND: Lidocaine is widely used in patients with acute cardiac disorders and has also been recently implicated as a possible cause of pulmonary edema after liposuction. The objective of this study was to assess the effect of lidocaine on alveolar fluid clearance, the primary mechanism responsible for the resolution of alveolar edema. METHODS: Alveolar fluid clearance was measured in 29 ventilated rats using our well-validated method over 1 h using a 5% albumin solution instilled into the distal air spaces of the lung. Lidocaine was added to the instilled albumin solution (10(-5) M) or administered intravenously at a dose estimated to achieve a clinically relevant plasma concentration of 10(-5) M. Standard agonists and antagonists were used to determine the effect of lidocaine on alveolar fluid clearance. To determine whether lidocaine acted predominantly on the apical or basal surface, we also used QX314, lidocaine n-ethyl bromide quaternary salt, an analog of lidocaine, which is unable to cross the alveolar epithelium. The effect of lidocaine on the apical epithelial sodium channel transfected in Xenopus oocytes was also studied. RESULTS: Alveolar or intravenous lidocaine decreased alveolar fluid clearance by 50%, an effect that was reversible with the beta2 agonist, terbutaline. Lidocaine acted predominantly on the basal surface of the epithelium because n-ethyl bromide quaternary salt decreased alveolar fluid clearance only when it was given intravenously and because lidocaine did not inhibit the apical epithelial sodium channel when expressed in oocytes. CONCLUSIONS: Lidocaine decreased alveolar fluid clearance by 50%, an effect that may have major clinical implications in the care of patients with cardiac disease or during the perioperative period in some patients. Importantly, the effect of lidocaine was completely reversible with beta2-adrenergic therapy.
BACKGROUND:Lidocaine is widely used in patients with acute cardiac disorders and has also been recently implicated as a possible cause of pulmonary edema after liposuction. The objective of this study was to assess the effect of lidocaine on alveolar fluid clearance, the primary mechanism responsible for the resolution of alveolar edema. METHODS: Alveolar fluid clearance was measured in 29 ventilated rats using our well-validated method over 1 h using a 5% albumin solution instilled into the distal air spaces of the lung. Lidocaine was added to the instilled albumin solution (10(-5) M) or administered intravenously at a dose estimated to achieve a clinically relevant plasma concentration of 10(-5) M. Standard agonists and antagonists were used to determine the effect of lidocaine on alveolar fluid clearance. To determine whether lidocaine acted predominantly on the apical or basal surface, we also used QX314, lidocaine n-ethyl bromide quaternary salt, an analog of lidocaine, which is unable to cross the alveolar epithelium. The effect of lidocaine on the apical epithelial sodium channel transfected in Xenopus oocytes was also studied. RESULTS: Alveolar or intravenous lidocaine decreased alveolar fluid clearance by 50%, an effect that was reversible with the beta2 agonist, terbutaline. Lidocaine acted predominantly on the basal surface of the epithelium because n-ethyl bromide quaternary salt decreased alveolar fluid clearance only when it was given intravenously and because lidocaine did not inhibit the apical epithelial sodium channel when expressed in oocytes. CONCLUSIONS:Lidocaine decreased alveolar fluid clearance by 50%, an effect that may have major clinical implications in the care of patients with cardiac disease or during the perioperative period in some patients. Importantly, the effect of lidocaine was completely reversible with beta2-adrenergic therapy.
Authors: Christian Fastner; Heimo Mairbäurl; Nina C Weber; Koen van der Sluijs; Florian Hackl; Lorenz Hotz; Albert Dahan; Markus W Hollmann; Marc M Berger Journal: PLoS One Date: 2014-11-11 Impact factor: 3.240