Table of contentsP001 - Sepsis impairs the capillary response within hypoxic capillaries and decreases erythrocyte oxygen-dependent ATP effluxR. M. Bateman, M. D. Sharpe, J. E. Jagger, C. G. EllisP002 - Lower serum immunoglobulin G2 level does not predispose to severe flu.J. Solé-Violán, M. López-Rodríguez, E. Herrera-Ramos, J. Ruíz-Hernández, L. Borderías, J. Horcajada, N. González-Quevedo, O. Rajas, M. Briones, F. Rodríguez de Castro, C. Rodríguez GallegoP003 - Brain protective effects of intravenous immunoglobulin through inhibition of complement activation and apoptosis in a rat model of sepsisF. Esen, G. Orhun, P. Ergin Ozcan, E. Senturk, C. Ugur Yilmaz, N. Orhan, N. Arican, M. Kaya, M. Kucukerden, M. Giris, U. Akcan, S. Bilgic Gazioglu, E. TuzunP004 - Adenosine a1 receptor dysfunction is associated with leukopenia: A possible mechanism for sepsis-induced leukopeniaR. Riff, O. Naamani, A. DouvdevaniP005 - Analysis of neutrophil by hyper spectral imaging - A preliminary reportR. Takegawa, H. Yoshida, T. Hirose, N. Yamamoto, H. Hagiya, M. Ojima, Y. Akeda, O. Tasaki, K. Tomono, T. ShimazuP006 - Chemiluminescent intensity assessed by eaa predicts the incidence of postoperative infectious complications following gastrointestinal surgeryS. Ono, T. Kubo, S. Suda, T. Ueno, T. IkedaP007 - Serial change of c1 inhibitor in patients with sepsis – A prospective observational studyT. Hirose, H. Ogura, H. Takahashi, M. Ojima, J. Kang, Y. Nakamura, T. Kojima, T. ShimazuP008 - Comparison of bacteremia and sepsis on sepsis related biomarkersT. Ikeda, S. Suda, Y. Izutani, T. Ueno, S. OnoP009 - The changes of procalcitonin levels in critical patients with abdominal septic shock during blood purificationT. Taniguchi, M. OP010 - Validation of a new sensitive point of care device for rapid measurement of procalcitoninC. Dinter, J. Lotz, B. Eilers, C. Wissmann, R. LottP011 - Infection biomarkers in primary care patients with acute respiratory tract infections – Comparison of procalcitonin and C-reactive proteinM. M. Meili, P. S. SchuetzP012 - Do we need a lower procalcitonin cut off?H. Hawa, M. Sharshir, M. Aburageila, N. SalahuddinP013 - The predictive role of C-reactive protein and procalcitonin biomarkers in central nervous system infections with extensively drug resistant bacteriaV. Chantziara, S. Georgiou, A. Tsimogianni, P. Alexandropoulos, A. Vassi, F. Lagiou, M. Valta, G. Micha, E. Chinou, G. MichaloudisP014 - Changes in endotoxin activity assay and procalcitonin levels after direct hemoperfusion with polymyxin-b immobilized fiberA. Kodaira, T. Ikeda, S. Ono, T. Ueno, S. Suda, Y. Izutani, H. ImaizumiP015 - Diagnostic usefullness of combination biomarkers on ICU admissionM. V. De la Torre-Prados, A. Garcia-De la Torre, A. Enguix-Armada, A. Puerto-Morlan, V. Perez-Valero, A. Garcia-AlcantaraP016 - Platelet function analysis utilising the PFA-100 does not predict infection, bacteraemia, sepsis or outcome in critically ill patientsN. Bolton, J. Dudziak, S. Bonney, A. Tridente, P. NeeP017 - Extracellular histone H3 levels are in...
How Are Clinicians Treating Children With Sepsis in Emergency Departments in Latin America?
Objective: Guidelines adherence in emergency departments (EDs) relies partly on the availability of resources to improve sepsis care and outcomes. Our objective was to assess the management of pediatric septic shock (PSS) in Latin America's EDs and to determine the impact of treatment coordinated by a pediatric emergency specialist (PEMS) versus nonpediatric emergency specialists (NPEMS) on guidelines adherence.Methods: Prospective, descriptive, and multicenter study using an electronic survey administered to PEMS and NPEMS who treat PSS in EDs in 14 Latin American countries. Results:We distributed 2164 surveys with a response rate of 41.5%, of which 22.5% were PEMS. Overall American College of Critical Care Medicine reported guidelines adherence was as follows: vascular access obtained in 5 minutes, 76%; fluid infusion technique, 60%; administering 40 to 60 mL/kg within 30 minutes, 32%; inotropic infusion by peripheral route, 61%; dopamine or epinephrine in cold shock, 80%; norepinephrine in warm shock, 57%; and antibiotics within 60 minutes, 82%. Between PEMS and NPEMS, the following differences were found: vascular access in 5 minutes, 87.1% versus 72.7% (P < 0.01); fluid infusion technique, 72.3% versus 55.9% (P < 0.01); administering 40 to 60 mL/kg within 30 minutes, 42% versus 29% (P < 0.01); inotropic infusion by peripheral route, 75.7% versus 56.3% (P < 0.01); dopamine or epinephrine in cold shock, 87.1% versus 77.3% (P < 0.05); norepinephrine in warm shock, 67.8% versus 54% (P < 0.01); and antibiotic administration within first 60 minutes, 90.1% versus 79.3% (P < 0.01), respectively. Good adherence criteria were followed by 24%. The main referred barrier for sepsis care was a failure in its recognition, including the lack of triage tools. Conclusions:In some Latin American countries, there is variability in self-reported adherence to the evidence-based recommendations for the treatment of PSS during the first hour. The coordination by PEMS support greater adherence to these recommendations.
Introduction: Critically ill children in the pediatric intensive care unit (PICU) are at high risk for developing nutritional deficiencies and undernutrition is known to be a risk factor for morbidity and mortality. Malnutrition represents a continuous spectrum ranging from marginal nutrient status to severe metabolic and functional alterations and this in turn, affects clinical outcome. Objectives: The aim of the study was to assess nutritional status of critically ill children admitted to the PICU and its association to clinical outcomes. Methods: Critically ill children age 6 months to 18 years were prospectively enrolled on PICU admission. Nutritional status was assessed by weight for age (WFA: underweight), weight for height (WFH: wasting), height for age (HFA: stunting) z-scores and mid upper arm circumference (MUAC: wasting) according to the WHO. (1,2) Malnutrition was defined as mild, moderate, and severe if z-scores were > −1, > − 2, and > −3, respectively. Hospital and PICU length of stay (LOS), duration of mechanical ventilation (MV), and risk of mortality (ROM) by the Pediatric Index of Mortality 2 (PIM2) were obtained. Sensitivity and specificity of the MUAC to identify children with wasting (WFH) were calculated. Results: Two hundred and fifty children (136 males), aged 81 months (23-167; median (25-75 th IQR)), were prospectively included in the study. The hospital LOS was 8 (4-16) days; PICU LOS: 2 (1-4) days; duration of MV, 0 (0-1.5) days;
reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. carbon dioxide 30 [27][28][29][30][31][32][33][34][35] mmHg and median temperature 37.1 [36.8-37.3]°C. After removal of artefacts, the mean monitoring time was 22 h08 (8 h54). All patients had impaired cerebral autoregulation during their monitoring time. The mean IAR index was 17 (9.5) %. During H 0 H 6 and H 18 H 24 , the majority of our patients; respectively 53 and 71 % had an IAR index > 10 %. Conclusion According to our data, patients with septic shock had impaired cerebral autoregulation within the first 24 hours of their admission in the ICU. In our patients, we described a variability of distribution of impaired autoregulation according to time. ReferencesSchramm P, Klein KU, Falkenberg L, et al. Impaired cerebrovascular autoregulation in patients with severe sepsis and sepsis-associated delirium. Crit Care 2012; 16: R181. Aries MJH, Czosnyka M, Budohoski KP, et al. Continuous determination of optimal cerebral perfusion pressure in traumatic brain injury. Crit. Care Med. 2012.
Funding Acknowledgements VII Convocatoria del Banco de Santander and Alfonso X el Sabio University. Background Detection of symptoms in geriatric population with aortic stenosis (AS) is challenging, especially when they associate other comorbidities or frailty. Left ventricular global longitudinal strain (GLS) occurs before left ventricular ejection fraction impairment and could be useful for risk stratification and management of these patients. Purpose We sought to analyze the usefulness of GLS for predicting major cardiovascular adverse events (MACEs) in geriatric patients with asymptomatic severe AS. Material and Methods: Prospective study on 54 patients older than 70 years old with severe asymptomatic AS. Patient evaluation included biochemistry tests, electrocardiogram and echocardiography. We use a GLS cut-off point of 18% to dichotomize patients. Outcomes were defined as the composite of MACEs – occurrence of death from any cause, hospitalization for heart failure, appearance of symptoms or change in treatment. Results The mean age was 83.2 ± 7.1, with 60.4% of women. 24.5% showed atrial fibrillation. At 6 months of follow-up, 33% of patients reached the endpoint: 5.6% CHF, 11.1% death, 3.7% symptoms without changes in management and 13% were referred to an invasive treatment. The event-free survival rate at 6 months for the global population was 83%. 41.5 % of the subjects had GLS < 18%. Kaplan Meier analysis showed that the probability of freedom from MACEs was not significant in patients with lower GLS (Log Rank p = 0.39). In the multivariate analysis only AVA was an inverse predictor of events (AVA) HR 0.05 (95% CI 0.007- 0.471, p < 0.05). Conclusions The value of GLS was not a predictor of short term events in geriatric patients. Only assessment of AVA was an independent marker of MACES and in this kind of subjects. Charasteristics of the global population Global N = 53 (%) GLS ≥ 18 N = 31 (58.5%) GLS < 18 N = 22 (41.5%) (p) HBP 42 (79.2) 27 (87.1) 19 (82.6) 0.09 Atrial fibrillation 13 (24.5) 6 (19.4) 7 (31.8) 0.29 CVD 6 (11.3) 1 (3.2) 5 (22.7) 0.02 LVEF: Normal >50% 48 (92) 31 (100) 17 (77.2) 0.05 Peak velocity 3.72 ± 0.72 3.81 ± 0.71 3.60 ± 0.74 0.315 Mean gradient 34.01 ± 14.06 35.61 ± 13.54 32.09 ± 15.07 0.29 Integral ratio 0.25 ± 0.08 0.26 ± 0.09 0.25 ± 0.08 0.83 AVA 0.8 ± 0.26 0.78 ± 0.27 0.83 ± 0.26 0.651 Indexed AVA 0.48 ± 0.16 0.48 ± 0.17 0.48 ± 0.16 0.9 AVA Aortic valve area; CVD: cerebro vascular disease; HBP: High blood presure; LVEF: left ventricule ejection fraction. Abstract P905 Figure. Kapplan-Meier event-free survival curves
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