Alain Rudiger1. 1. Intensive Care Unit, University Hospital Zurich, Zurich, Switzerland. alain.rudiger@usz.ch
Abstract
OBJECTIVES: Cardiac depression is a well-described manifestation of the sepsis syndrome. An important underlying mechanism is the attenuation of the adrenergic response at the cardiomyocyte level. By reducing their cell-specific function (contractility), the cardiomyocytes reduce their energy expenditure. Consequently, the cardiac myocytes survive in a hibernation-like state as long as intracellular energy generation is limited. The objective of this study was to review β-blocker therapy for the treatment of septic patients. DATA SOURCE: MEDLINE database. DATA SYNTHESIS: During established sepsis with organ failure, external adrenergic stimulation of the heart must be kept at a minimum. To blunt the adrenergic response, β-blockers have been used in several preclinical and clinical studies. In septic animals, β-blockers reduced heart rate, whereas stroke volume was maintained. Esmolol in vivo prevented the downregulation of adrenergic pathways, preserving full cardiac function ex vivo. In addition, β-blockers reduced the inflammatory response and the degree of lung injury. Some animal studies documented survival benefits, particularly when β-blockers were administered before the septic insult. In patients with septic shock, blood pressure increased and cardiac indices remained stable with metoprolol administration. CONCLUSIONS: Preclinical and clinical studies with β-1 receptor blockers during sepsis show promising results. Future studies are needed to establish the optimal dose and timing of its administration.
OBJECTIVES:Cardiac depression is a well-described manifestation of the sepsis syndrome. An important underlying mechanism is the attenuation of the adrenergic response at the cardiomyocyte level. By reducing their cell-specific function (contractility), the cardiomyocytes reduce their energy expenditure. Consequently, the cardiac myocytes survive in a hibernation-like state as long as intracellular energy generation is limited. The objective of this study was to review β-blocker therapy for the treatment of septic patients. DATA SOURCE: MEDLINE database. DATA SYNTHESIS: During established sepsis with organ failure, external adrenergic stimulation of the heart must be kept at a minimum. To blunt the adrenergic response, β-blockers have been used in several preclinical and clinical studies. In septic animals, β-blockers reduced heart rate, whereas stroke volume was maintained. Esmolol in vivo prevented the downregulation of adrenergic pathways, preserving full cardiac function ex vivo. In addition, β-blockers reduced the inflammatory response and the degree of lung injury. Some animal studies documented survival benefits, particularly when β-blockers were administered before the septic insult. In patients with septic shock, blood pressure increased and cardiac indices remained stable with metoprolol administration. CONCLUSIONS: Preclinical and clinical studies with β-1 receptor blockers during sepsis show promising results. Future studies are needed to establish the optimal dose and timing of its administration.
Authors: Martin Balik; Jan Rulisek; Pavel Leden; Michal Zakharchenko; Michal Otahal; Hana Bartakova; Josef Korinek Journal: Wien Klin Wochenschr Date: 2012-07-20 Impact factor: 1.704
Authors: Samuel M Brown; Quinn Tate; Jason P Jones; Daniel B Knox; Kathryn G Kuttler; Michael Lanspa; Matthew T Rondina; Colin K Grissom; Subhasis Behera; V J Mathews; Alan Morris Journal: J Crit Care Date: 2013-08-17 Impact factor: 3.425