Mild-stretch mechanical ventilation upregulates toll-like receptor 2 and sensitizes the lung to bacterial lipopeptide

INTRODUCTION: Mechanical ventilation (MV) could prime the lung toward an inflammatory response if exposed to another insult such as bacterial invasion. The underlying mechanisms are not so far clear. Toll-like receptors (TLRs) allow the host to recognize selectively bacterial pathogens and in turn to trigger an immune response. We therefore hypothesized that MV modulates TLR2 expression and in turn modifies responsiveness to agonists such as bacterial lipopeptide (BLP). METHOD: Both in vitro and in vivo experiments were conducted. First, TLR2 expression and protein were measured in the A549 pulmonary epithelial cell line submitted to 8-hour cyclic stretch (20% elongation; 20/minute rate). After a 24-hour period of cyclic stretch, the inflammatory response of the A549 cells to the synthetic BLP, Pam(3)CSK(4), was tested after 8 hours of exposure. In a second set of experiments, healthy anesthetized and paralyzed rabbits were submitted to 8-hour MV (tidal volume = 12 ml/kg, zero end-expiratory pressure; FIO(2 )= 50%; respiratory rate = 20/minute) before being sacrificed for TLR2 lung expression assessment. The lung inflammatory response to BLP was then tested in animals submitted to 24-hour MV before being sacrificed 8 hours after the tracheal instillation of Pam(3)CSK(4). RESULTS: Cyclic stretch of human pulmonary epithelial cell lines increased both TLR2 mRNA and protein expression. Cells submitted to cyclic stretch also increased IL-6 and IL-8 secretion in response to Pam(3)CSK(4), a classical TLR2 ligand. A mild-stretch MV protocol induced a 60-fold increase of TLR2 mRNA expression in lung tissue when compared with spontaneously breathing controls. Moreover, the combination of MV and airway exposure to Pam(3)CSK(4 )acted synergistically in causing lung inflammation and injury. CONCLUSIONS: Mild-stretch MV increases lung expression of TLR2 and sensitizes the lung to bacterial TLR2 ligands. This may account for the propensity of mechanically ventilated patients to develop acute lung injury in the context of airway bacterial colonization/infection

Impact de la ventilation mécanique sur la réponse inflammatoire médiée par les Toll-like receptors 2 et 4 dans un modèle de pneumopathie bactérienne

Introduction: Ventilator-associated pneumonia is common in patients subjected to mechanical ventilation (MV). Cyclic stretch subsequent to MV could prime the lung toward an inflammatory response if exposed to bacteria. Toll-like receptors (TLRs) recognize pathogens thus triggering immunity. MV could modulate TLRs expression and responsiveness to agonists. The prone position (PP) reduces lung stretch.Methods:TLR2 levels and response to the TLR2 ligands were measured in human pulmonary cells submitted to cyclic stretch, and either spontaneously breathing (SB) or MV rabbits. Ex vivo stimulation of whole blood taken from SB or MV rabbits was performed.Enterobacter aerogenes pneumonia was induced in rabbits subjected to MV and kept supine or turned to the PP. Results: Cyclic stretch of human cells as well as rabbitsÕ lung increased both TLR2 levels and inflammatory response to its agonist. MV and airways exposure to TLR2 ligands acted synergistically in causing lung injury.A decrease of lung bacterial clearance and a greater likelihood of bacteremia were observed in MV rabbits with S. aureus pneumonia. Circulating cytokines rose significantly only in these animals. MV induced TLR2 spleen overexpression. Whole blood obtained from MV animals released larger amounts of cytokines after stimulation. PP was associated with lower levels of bacterial concentrations and inflammation. Conclusions: MV sensitizes the lung to bacterial TLR2 ligands, alters lung bacterial clearance, promotes lung injury and inflammation. Both pulmonary and peripheral blood stretch-induced TLR2 overexpression could account at least in part for such differences. The PP could be protective.Introduction: La pneumonie associée à la ventilation mécanique (VM) est fréquente chez les patients ventilés. L’étirement cyclique (EC) induit par la VM pourrait amorcer le poumon vers une réponse inflammatoire en cas d'exposition à des bactéries. Les Toll-like Receptors (TLR) reconnaissent les bactéries et déclenchent l'immunité. La VM pourrait moduler l'expression des TLR et leur réactivité aux agonistes. Le décubitus ventral (DV) réduit l’étirement du poumon. Méthodes: Les niveaux de TLR2 et la réponse à ses agonistes ont été mesures dans des cellules pulmonaires soumises à un EC, et dans un modèle de lapin ventilé. Une stimulation ex vivo du sang total prélevé sur lapins ventilés a été réalisée. Une pneumonie a été induite chez des lapins soumis à VM et maintenus en décubitus dorsal ou tournés en DV. Résultats: L’EC des cellules ainsi que des poumons de lapins augmente les niveaux de TLR2 et la réponse inflammatoire à ses agonistes. La VM et l’exposition du poumon à des agonistes TLR2 induisent synergiquement des lésions. Chez des lapins avec pneumonie sous VM la clairance bactérienne pulmonaire est réduite, la probabilité de bactériémie et le taux des cytokines circulantes augmentés. Le sang total provenant d'animaux sous VM libère de grandes quantités de cytokines après stimulation. Le DV est associe à des niveaux plus faibles de concentrations bactériennes et d'inflammation. Conclusions: La VM sensibilise le poumon aux ligands bactériens de TLR2, modifie la clairance bactérienne pulmonaire, favorise les lésions pulmonaires et de l'inflammation. La surexpression de TLR2 induite par l’EC pourrait expliquer ces différences. Le DV pourrait avoir un effet protecteur

Impact of mechanical ventilation on inflammatory response mediated by Toll-like Receptors 2 and 4 in a model of bacterial pneumonia

Introduction: La pneumonie associée à la ventilation mécanique (VM) est fréquente chez les patients ventilés. L’étirement cyclique (EC) induit par la VM pourrait amorcer le poumon vers une réponse inflammatoire en cas d'exposition à des bactéries. Les Toll-like Receptors (TLR) reconnaissent les bactéries et déclenchent l'immunité. La VM pourrait moduler l'expression des TLR et leur réactivité aux agonistes. Le décubitus ventral (DV) réduit l’étirement du poumon. Méthodes: Les niveaux de TLR2 et la réponse à ses agonistes ont été mesures dans des cellules pulmonaires soumises à un EC, et dans un modèle de lapin ventilé. Une stimulation ex vivo du sang total prélevé sur lapins ventilés a été réalisée. Une pneumonie a été induite chez des lapins soumis à VM et maintenus en décubitus dorsal ou tournés en DV. Résultats: L’EC des cellules ainsi que des poumons de lapins augmente les niveaux de TLR2 et la réponse inflammatoire à ses agonistes. La VM et l’exposition du poumon à des agonistes TLR2 induisent synergiquement des lésions. Chez des lapins avec pneumonie sous VM la clairance bactérienne pulmonaire est réduite, la probabilité de bactériémie et le taux des cytokines circulantes augmentés. Le sang total provenant d'animaux sous VM libère de grandes quantités de cytokines après stimulation. Le DV est associe à des niveaux plus faibles de concentrations bactériennes et d'inflammation. Conclusions: La VM sensibilise le poumon aux ligands bactériens de TLR2, modifie la clairance bactérienne pulmonaire, favorise les lésions pulmonaires et de l'inflammation. La surexpression de TLR2 induite par l’EC pourrait expliquer ces différences. Le DV pourrait avoir un effet protecteur.Introduction: Ventilator-associated pneumonia is common in patients subjected to mechanical ventilation (MV). Cyclic stretch subsequent to MV could prime the lung toward an inflammatory response if exposed to bacteria. Toll-like receptors (TLRs) recognize pathogens thus triggering immunity. MV could modulate TLRs expression and responsiveness to agonists. The prone position (PP) reduces lung stretch.Methods:TLR2 levels and response to the TLR2 ligands were measured in human pulmonary cells submitted to cyclic stretch, and either spontaneously breathing (SB) or MV rabbits. Ex vivo stimulation of whole blood taken from SB or MV rabbits was performed.Enterobacter aerogenes pneumonia was induced in rabbits subjected to MV and kept supine or turned to the PP. Results: Cyclic stretch of human cells as well as rabbitsÕ lung increased both TLR2 levels and inflammatory response to its agonist. MV and airways exposure to TLR2 ligands acted synergistically in causing lung injury.A decrease of lung bacterial clearance and a greater likelihood of bacteremia were observed in MV rabbits with S. aureus pneumonia. Circulating cytokines rose significantly only in these animals. MV induced TLR2 spleen overexpression. Whole blood obtained from MV animals released larger amounts of cytokines after stimulation. PP was associated with lower levels of bacterial concentrations and inflammation. Conclusions: MV sensitizes the lung to bacterial TLR2 ligands, alters lung bacterial clearance, promotes lung injury and inflammation. Both pulmonary and peripheral blood stretch-induced TLR2 overexpression could account at least in part for such differences. The PP could be protective

Renal replacement therapy: Time to give up on early initiation? Yes

IF 2.200 (2017)International audienc

WITHDRAWN: Strategy focused on clinical parameters of microcirculation to resuscitate patients in septic shock: do not forget any tools

International audienc

Strategy focused on clinical parameters of microcirculation to resuscitate patients in septic shock: Do not forget any tools

International audienceEditorial Strategy focused on clinical parameters of microcirculation to resuscitate patients in septic shock: Do not forget any tools The current objective of initial resuscitation of patients with septic shock is the optimisation of general haemodynamic variables including heart rate, mean arterial blood pressure, cardiac output and cardiac preload using normalisation of arterial lactate as a marker of presumed success. However, microcirculatory blood flow can remain impaired despite restoration of macro-haemodynamic parameters. Ait-Oufella et al. clearly showed that persistence of skin mottling], an increased capillary refill time (CRT) and an increased toe-to-room temperature gradient were associated with worse patient outcomes. Similarly, Leone et al. reported that low oxygen tissue saturation (StO 2) was associated with poor outcomes in patients with septic shock. Few studies have assessed a strategy targeting the microcirculation..

Stratégie centrée sur les paramètres cliniques de microcirculation à la phase initiale du choc septique : ne négliger aucun outil

International audienc

Changes in the distribution of colonising and infecting Candida spp. isolates, antifungal drug consumption and susceptibility in a French intensive care unit: A 10-year study

International audienceMonitoring fungal ecology and resistance to antifungal agents within intensive care units (ICU) is essential for the management of invasive fungal infections. Therefore, a retrospective descriptive study was carried in the ICU of Nimes University Hospital, France, from 2007 to 2016. As the majority of invasive fungal infections in ICU are caused by Candida species, the study objectives were to describe Candida species distribution, to assess candidaemia incidence and to monitor the antifungal drug susceptibility of Candida isolates and the consumption of antifungal agents. Among the recorded invasive Candida infections (n=244), 43% were intra-abdominal and 22% bloodstream infections. Candida albicans was the most frequent species (55.8%), followed by Candida glabrata (14.1%), Candida tropicalis (10%), Candida parapsilosis (8%) and Candida krusei (5.3%). Candidaemia incidence was 4.49 per 1000 admissions. The mean consumption of antifungal agents was of 170.5 defined daily doses (DDD) for 1000 hospital days (HD) per year. Changes in antifungal drug consumption were observed, with an increased use of echinocandins (from 17.96 DDD/1000 HD in 2007 to 48.76 DDD/1000 HD in 2016), and the total treatment cost tripled during the study period. No significant change in fungal ecology or in the emergence of resistant species was observed; indeed, only 1.1% of isolates presented an unusual resistance to antifungal agents

Impact of the prone position in an animal model of unilateral bacterial pneumonia undergoing mechanical ventilation

Département EA Pôle MERS CT3 EJ3International audienceBackground: The prone position (PP) has proven beneficial in patients with severe lung injury subjected to mechanical ventilation (MV), especially in those with lobar involvement. We assessed the impact of PP on unilateral pneumonia in rabbits subjected to MV. Methods: After endobronchial challenge with Enterobacter aerogenes, adult rabbits were subjected to either "adverse" (peak inspiratory pressure = 30 cm H2O, zero end-expiratory pressure; n = 10) or "protective" (tidal volume = 8 ml/kg, 5 cm H2O positive end-expiratory pressure; n = 10) MV and then randomly kept supine or turned to the PP. Pneumonia was assessed 8 h later. Data are presented as median (inter-quartile range). Results: Compared with the supine position, PP was associated with significantly lower bacterial concentrations within the infected lung, even if a "protective" MV was applied (5.93 [0.34] vs. 6.66 [0.86] log(10) cfu/g, respectively; P = 0.008). Bacterial concentrations in the spleen were also decreased by the PP if the "adverse" MV was used ( 3.62 [1.74] vs. 6.55 [3.67] log(10) cfu/g, respectively; P = 0.038). In addition, the noninfected lung was less severely injured in the PP group. Finally, lung and systemic inflammation as assessed through interleukin-8 and tumor necrosis factor-alpha measurement was attenuated by the PP. Conclusions: The PP could be protective if the host is subjected to MV and unilateral bacterial pneumonia. It improves lung injury even if it is utilized after lung injury has occurred and nonprotective ventilation has been administered