Effects of intravenous and inhaled levosimendan in severe rodent sepsis.

PURPOSE: We aimed at comparing the effects of intravenous (i.v.) and inhaled (inh.) levosimendan (LEVO) on survival, inflammatory cytokines and the apoptotic mediator caspase-3 in a rat model of severe sepsis induced by cecal ligation and incision (CLI). METHODS: Twenty-eight anesthetized/ventilated male Sprague-Dawley rats (body weight 528 +/- 20 g) underwent laparotomy. Cecal mobilisation served as control (SHAM, n = 7). In all other groups, severe sepsis was induced by CLI. No further intervention occurred in the CLI-group (n = 7). 180 min after CLI, 24 microg/kg i.v. LEVO was administered in the CLI + LEVO-IV-group (n = 7), and 24 microg/kg inh. LEVO was administered via jet nebulizer in the CLI + LEVO-INH-group (n = 7). RESULTS: CLI induced arterial hypotension, with i.v. and inh. LEVO attenuating blood pressure decrease over 390 min [CLI 34(31/50), CLI + LEVO-IV 82(69/131)*, CLI + LEVO-INH 78(62/85)* mmHg; median(25/75% quartile), *P < 0.05]. CLI induced metabolic acidosis. I.v. and inh. LEVO avoided arterial pH [CLI 7.18(7.16/7.2), CLI + LEVO-IV 7.27(7.24/7.31)*, CLI + LEVO-INH 7.26(7.24/7.28)*] and base excess deterioration [CLI -19(-21.8/-17.9), CLI + LEVO-IV -13(-14.8/-12)*, CLI + LEVO-INH -12.7(-14/-12.2)* mmol/l]. Overall mortality in the CLI-group was 57% compared to 0%* in both LEVO-treated groups after 390 min. LEVO administration significantly attenuated the increase in proinflammatory interleukin (IL)-1beta [CLI 896(739/911), CLI + LEVO-IV 302(230/385)*, CLI + LEVO-INH 346(271/548) pg/ml] and IL-6 [CLI 35651(31413/35816), CLI + LEVO-IV 21156(18397/28026), CLI + LEVO-INH 13674(10105/24843) pg/ml] in the plasma and reduced cleaved caspase-3 expression in the spleen. CONCLUSIONS: In a rat model of severe sepsis induced by CLI, i.v. and inh. LEVO equally attenuated arterial hypotension, metabolic acidosis and prolonged survival. Moreover, i.v. and inh. LEVO inhibited proinflammatory mediator release and reduced splenic caspase-3 expression.

Inhaled IL-10 reduces biotrauma and mortality in a model of ventilator-induced lung injury.

BACKGROUND: High-pressure ventilation induces barotrauma and pulmonary inflammation, thus leading to ventilator-induced lung injury (VILI). By limiting the pulmonal inflammation cascade the anti-inflammatory cytokine interleukin (IL)-10 may have protective effects. Via inhalation, IL-10 reaches the pulmonary system directly and in high concentrations. METHODS: Thirty six male, anesthetized and mechanically ventilated Sprague-Dawley rats were randomly assigned to the following groups (n=9, each): SHAM: pressure controlled ventilation with p(max)=20cmH(2)O, PEEP=4; VILI: ventilator settings were changed for 20min to p(max)=45cmH(2)O, PEEP=0; IL-10(high): inhalation of 10microg/kg IL-10 prior to induction of VILI; and IL-10(low): inhalation of 1microg/kg IL-10 prior to induction of VILI. All groups were ventilated and observed for 4h. RESULTS: High-pressure ventilation increased the concentrations of macrophage inflammatory protein (MIP)-2 and IL-1beta in bronchoalveolar lavage fluid (BALF) and plasma. This effect was reduced by the inhalation of IL-10 (10microg/kg). Additionally, IL-10 increased the animal survival time (78% vs. 22% 4-h mortality rate) and reduced NO-release from ex vivo cultured alveolar macrophages. Moreover, VILI-induced pulmonary heat shock protein-70 expression was reduced by IL-10 aerosol in a dose-dependent manner. Similarly, the activation of matrix metalloproteinase (MMP)-9 in BALF was reduced dose-dependently by IL-10. IL-10-treated animals showed a lower macroscopic lung injury score and less impairment of lung integrity and gas exchange. CONCLUSIONS: Prophylactic inhalation of IL-10 improved survival and reduced lung injury in experimental VILI. Results indicate that this effect may be mediated by the inhibition of stress-induced inflammation and pulmonary biotrauma.

Inhaled levosimendan reduces mortality and release of proinflammatory mediators in a rat model of experimental ventilator-induced lung injury.

OBJECTIVES: Mechanical ventilation during critical care can cause structural and functional disturbances in the lung with subsequent release of proinflammatory mediators, termed ventilator-induced lung injury (VILI). VILI progressively provokes decreased efficiency of gas exchange with subsequent hypoxic pulmonary vasoconstriction leading to cardiopulmonary alterations, such as pulmonary hypertension and right heart failure. We therefore aimed to evaluate whether inhalation therapy with levosimendan, a calcium-sensitizer with pulmonary vasodilating properties, could attenuate VILI and improve short-term survival in a rat experimental model. DESIGN: Experimental animal model. SETTING: University hospital. SUBJECTS: Forty male Sprague-Dawley rats. INTERVENTIONS: Rats were randomly treated as follows (n = 8, each group): 1) inhalation of the solvent only before induction of VILI, no further intervention; 2) inhalation of 240 microg of levosimendan before VILI induction; 3) inhalation of 24 microg of levosimendan before VILI induction; 4) intravenous administration of 24 microg/kg levosimendan before VILI induction; 5) control group with surgical preparation only. All groups were observed for 4 hrs. MEASUREMENTS AND MAIN RESULTS: After 4 hrs following induction of VILI, levels of interleukin-1beta and macrophage inflammatory protein-2 in plasma and bronchoalveolar lavage fluid were analyzed by enzyme-linked immunosorbent assay. Nitric oxide release from alveolar macrophages was measured by Griess assay. Content of matrix metalloproteinase-2 and matrix metalloproteinase-9 in bronchoalveolar lavage fluid was analyzed by gelatin zymography. Inhalation of 240 microg of levosimendan significantly improved survival after 4 hrs and mean arterial blood pressure compared with VILI only. Additionally, inhalation of 240 microg and infusion of 24 microg/kg levosimendan significantly reduced the release of interleukin-1beta, the nitric oxide release from alveolar macrophages, macrophage inflammatory protein-2 in plasma, and the macrophage inflammatory protein-2 and matrix metalloproteinase-9 content in bronchoalveolar lavage fluid compared with VILI only. CONCLUSIONS: Our study demonstrates that prophylactic inhalation of 240 microg of levosimendan improves survival and reduces release of inflammatory mediators in our experimental model of VILI. This might affect the clinical prophylaxis and treatment of VILI.