View clinical trials related to Critical Care.
Filter by:To compare the duration of mechanical ventilation and the weaning period between two groups of patients managed with either Standard Care or with mechanical ventilation adjusted according to the Beacon Caresystem, in patients receiving mechanical ventilation for more than 24 hours
De-escalation aims at reducing the use of broad-spectrum antibiotics and therefore the emergence of multidrug-resistant (MDR) pathogens. Observational studies suggested that this strategy seems to be safe. However, there is no adequate, direct evidence showing de-escalation of antimicrobial agents to be effective and safe for onco-hematology patients with sepsis or septic shock. Thus, randomized clinical trials are needed for testing the safety and efficiency of de-escalation of antimicrobial therapy. The investigator's hypothesis is that de-escalation of empirical antimicrobial therapy in onco-hematology patients with sepsis or septic shock is noninferior to the continuation of empirical antimicrobial therapy. The first aim of the study is to demonstrate that de-escalation is noninferior to the continuation of broad-spectrum antibiotics in terms of hospital mortality. The secondary aims are to compare the two strategies in terms of mortality, duration of antimicrobial therapy, durations of mechanical ventilation, vasopressor use, numbers of superinfections, organ failure. Antimicrobial de-escalation (ADE) of antimicrobial therapy is a strategy proposed to allow for the rational use of broad-spectrum antimicrobial therapy as the empiric treatment for infections and minimize the overall exposure to these broad-spectrum agents. The need for prompt, effective antimicrobial therapy for patients with known or suspected infections is widely accepted. This principle leads to the use of very broad-spectrum antimicrobial therapy to increase the odds that all suspected potential pathogens are adequately treated. However, the potential drawback is selection of multidrug-resistant (MDR) organisms. ADE is widely recommended in the management of antimicrobial therapy in intensive care unit (ICU) patients. The Surviving Sepsis Campaign guidelines describe and recommend the process for selecting antimicrobial therapy as commencement of antimicrobials within the first hour, antimicrobial therapy broad enough to cover all likely pathogens, and daily reassessment for potential ADE. To date, no randomized study assessing this strategy is available for this specific population of cancer critically ill patients. In a recent systematic review based on 13 observational studies and one randomized controlled trial, the authors conclude that the equipoise remains and a large randomized trial is required to assess the effect of the antibiotics de-escalation strategy on the bacterial ecosystem, on MDR carriage, and on patient outcomes.
Analysis of the randomized controlled SOMS trial of early, goal-directed mobilization to investigate if the treatment effect is consistent and independent of the initial conscious state without evidence of moderation or modification.
Registry database of intensive care patients. These data comprises of routine data including mobilization data and follow up assessments.
Beta-lactams are the most prescribed antibiotics in intensive care units. The lack of linearity between the dose administered and the exposition due to the very high variability of the pharmacokinetics in critically ill patients requires that the treatment be adapted on a case-by-case basis depending on the drug serum concentration. However, maximum concentrations not to be exceeded in order to limit beta-lactams toxicity are generally unknown. The main toxic risk of beta-lactams in intensive care is indeed neurological, but the neurotoxicity is probably underdiagnosed due to the variability of the signs observed, their time to onset, and confounding factors. Apart from recommendations for dose adjustment in the event of renal insufficiency, the procedures for the proper use of beta-lactams in intensive care are poorly established. The study presented here aims to assess the impact of the neurotoxic risk of beta-lactams in intensive care based on therapeutic drug monitoring, and thus to improve beta-lactam safety in critically ill patients. This is a prospective cohort study evaluating change in neurological status of patients admitted to the ICU and treated with a beta-lactam antibiotic with therapeutic drug monitoring. Neurological evaluation and scoring (Glasgow scale, CAM-ICU, Richmond agitation-sedation scale) and beta-lactam serum concentration assay are performed together 2 to 3 times a week.
Unlike in the outpatient setting, delivery of aerosols to ICU patients may be considered complex, particularly in ventilated patients. Successful delivery of aerosolized medications to ICU patients depends upon the selection of the aerosol device and its installation position, the humidification condition, and the adjustment of the ventilator mode and parameters, etc. And there is currently little guidance or information on standards of practice in aerosol therapy. Purpose:The aim of the present work was to assess the frequency, modalities of aerosol therapy in critically ill patients either breathing spontaneously or undergoing invasive or noninvasive ventilation. Method:This prospective cross-sectional point prevalence study will be carried out over 14 days in several intensive care units. Centers are recruited on a voluntary basis. During the study period, characteristics of each ICU patient will be prospectively recorded each day. If patients receive inhaled medication during the study period, extensive data such as the selection of the aerosol device and its installation position will be recorded. Data will be entered into a database and analyses will be performed using SPSS soft ware. A p value lower than 0.05 is considered significant.
The aim of this study is to evaluate the effect of early exercise by cycle ergometry and early targeted feeding in reducing muscle atrophy and improve functional outcomes in the older critically ill patient.
Stress induced by pain and anxiety is common in pediatric intensive care unit (PICU) patients and can impede the delivery of care as well as their recovery. Sedation/analgesia in PICU is usually achieved using narcotics and benzodiazepines. Excessive use of these drugs can put patients at risk for hemodynamic and respiratory instability, prolonged mechanical ventilation, withdrawal symptoms, and delirium. Non-pharmacologic measures for analgesia and anxiolysis may reduce the total medication requirement and their side effects. The use of non-pharmacologic interventions, including music, has been recommended by sedation guidelines for critically ill patients; however, it is not clear how these interventions should be provided. We plan to conduct a pilot 3-arm RCT to determine the feasibility of a music intervention and assess its effects on sedation/analgesia requirements in children admitted to PICU. Children will be randomly assigned to receive music, noise cancellation or control. Music will be delivered by headphones and an iPod. Music will consist on classical music selected by the study's pediatric music therapist. The noise cancellation group will receive the same headphones but without music. Clinical care of the participants, including use of sedation and analgesia drugs, will not be protocolized. Primary outcomes of this pilot trial is feasibility. Secondary outcomes are drug requirements for sedation and analgesia, and incidence of delirium. These requirements will be captured as a daily intensity score and intermittent dose (PRN) frequency. Mixed-effects models will be used to analyze the effect of the music on sedation/analgesia requirements.
Patients who are hospitalized in intensive care unit (ICU) require basic nursing care to improve patient hygiene, to promote comfort, to prevent pressure ulcer, and foot or hand's retractations. Those nursing cares require mobilization very frequently which expose critically ill patients to occurrence of serious adverse events (SAE) such as i) hemodynamic, neurologic, and respiratory variations ii) unplanned dislodgement (lines, drains, catheters, endotracheal tube..) Few study have evaluated relation between SAE occurence and several patient's, service's, health-care provider's caracteristics. We plan to analyse those factors to find some ways to prevent SAE occurence during nursing and hygiene cares.
Patients who survive critical illness usually experience long-lasting physical and psychological impairments, which are often debilitating. Rehabilitation interventions started in the ICU may reduce this morbidity. In-bed cycling, which uses a special bicycle that attaches to the hospital bed, allows critically ill patients who are mechanically ventilated (MV) to gently exercise their legs while in the ICU. The main goal of this study is to determine whether critically ill MV adults recover faster if they receive early in-bed cycling than if they do not. Another objective is to determine whether in-bed cycling is a cost-effective intervention. 360 patients admitted to the ICU and receiving MV will be enrolled in the study. Following informed consent, patients will be randomized to either (1) early in-bed cycling and routine physiotherapy or (2) routine physiotherapy alone. Patients' strength and physical function will be measured throughout the study. If early in-bed cycling during critical illness improves short-term physical and functional outcomes, it could accelerate recovery and reduce long-term disability in ICU survivors.