View clinical trials related to Critical Illness.
Filter by:Delirium is one of the most common manifestations of cerebral dysfunction in severely ill patients. The international guidelines for the prevention of delirium in intensive care recommend the daily application of environmental, behavioral and pharmacological strategies. In the case of the agitated form of delirium, experts recommend the use of low-dose neuroleptics and α-2 agonists to control psychotic manifestations rather than traditional sedatives (mainly benzodiazepines) that can clearly aggravate delirium. Currently, two pharmacological α-2 agonists, clonidine (Catapressan®, Boehringer Ingelheim) and dexmedetomidine (Dexdor®, Orion Corporation), are marketed and commonly used in intensive care for their sedative, anxiolytic and analgesic properties. To our knowledge, no studies have compared the effects of clonidine and dexmedetomidine in agitated delirium in intensive care patients. Therefore, our goal is to compare the safety of clonidine and dexmedetomidine (in terms of bradycardia and / or hypotension) in addition to standard treatment in the context of agitated delirium in intensive care patients.
Profile known and novel biomarkers in blood in COVID19 patients to characterize the host response to SARS-CoV-2 over time and in response to treatment. The investigators aim to: - Better understand the disease. The investigators will achieve this by characterizing the biology of COVID-19 infection and the pathophysiology of the host response using clinical data together with cellular and molecular measurements over the course of the disease. This will allow better insights for the discovery and development of novel therapeutics. - Understand why different patients have different phenotypes and disease presentations over time. The investigators will achieve this by analyzing for patient subgroups. This will allow targeted patient stratification and better matching of resources. - Understand how patients are responding to the different medications being tested in clinical trials. The investigators will achieve that by co-enrolling with therapeutic trials. This will allow an understanding of the biological effects of these interventions. Study Design: Observational adaptive study of a translational nature, combining clinical data and basic science investigations in blood samples in the same patients, longitudinally, with serial interim analyses. Primary outcomes: 90 day ICU mortality. Secondary outcomes: measures of ICU utilization and disease severity, and 90 day in-hospital mortality. The study ends after 3 months from admission to the ICU, hospital discharge or death. Location: St. Michael's Hospital (Unity Health Toronto), an academic center in downtown Toronto affiliated with the University of Toronto. The investigators will collect: A) Detailed clinical data including investigations, mechanical ventilation and cardiovascular parameters. B) Blood samples for state-of-the-art multi-omics biomarker discovery and development: cytokines, anti-COVID19 antibodies, autoimmune serology, metabolomics, transcriptomics, epigenomics, deep immune phenotyping, viral loads. For those patients who die with COVID19 The investigators will perform bedside post-mortem biopsies of lung, heart, kidney and muscle. Sampling times: From admission to the maximal severity phase through convalescence, in order to capture the evolution and dynamics of the disease and the recovery process: days 0,1, 3, 5, 7, 10, 15 and 22, and then every 2 weeks until the end of the study (3 months from admission to the ICU, hospital discharge or death).
Introduction. Initiation of acute kidney replacement therapy (KRT) is common in critically ill adults admitted to the intensive care unit (ICU), and is associated with increased morbidity and mortality. KRT has been linked to poor neurocognitive outcomes, leading to a reduced quality of life, as well as increased utilization of healthcare resources. Adults initiated on dialysis in the ICU may be particularly at risk of neurocognitive impairment, as survivors of critical illness are already predisposed to developing cerebrovascular disease and cognitive dysfunction over the long-term relative to healthy controls. Regional cerebral oxygen saturation (rSO2) may provide a critical early marker of long-term neurocognitive impairment in patients in this population. The INCOGNITO-AKI study aims to understand cerebral oxygenation in patients undergoing KRT, either continuous or intermittent, in the ICU. These findings will be correlated with long-term cognitive and functional outcomes, as well as structural brain pathology. Methods and analysis. 108 patients scheduled to undergo treatment for acute kidney injury with KRT in the Kingston Health Sciences Centre ICU will be recruited into this prospective observational study. Enrolled patients will be assessed with intradialytic cerebral oximetry using near infrared spectroscopy (NIRS). Delirium will be assessed daily with the Confusion Assessment Method-Intensive Care Unit (CAM-ICU) and delirium severity quantified as cumulative CAM-ICU-7 scores. Neurocognitive impairment will be assessed at 3- and 12-months after hospital discharge using the Kinarm and Repeatable Battery for the Assessment of Neuropsychological Status (RBANS). Structural brain pathology on MRI will also be measured at the same timepoints. Driving safety, adverse events, and medication adherence will be assessed at 12-months to evaluate the impact of neurocognitive impairment on functional outcomes. Ethics and dissemination. This study has been approved by the Queen's University Health Sciences and Affiliated Teaching Hospitals Research Ethics Board (Approval number: DMED-2424-20). Results will be presented at critical care scientific conferences and a lay summary will be provided to patients and families in their preferred format.
Study objectives: To determine whether, in critically ill patients with Acute Kidney Injury requiring renal replacement therapy (AKI-RRT), randomization to receive intravenous hyperoncotic albumin 20-25% (100 mL X two doses) compared to control/placebo normal saline boluses (100 mL X two doses) given during RRT sessions, leads to: 1. An increase in organ support-free days (primary outcome) at 28 days following randomization; and 2. An increase in RRT-free days (principal secondary outcome) at 28 days following randomization.
The new severe acute respiratory syndrome coronavirus 2019 (SARS-CoV-2) causes the illness named COVID-19, which is primarily characterized by pneumonia. As of 27 December, there have been over 79.2 million cases and over 1.7 million deaths reported since the start of the pandemic. In many cases, pneumonia evolves to acute respiratory distress syndrome (ARDS) with the need for mechanical ventilation and patient admission to intensive care unit, determining a marked increase in the need for intensive care beds worldwide. Pulmonary involvement causes predominantly hypoxemic respiratory failure. Although COVID-19 pneumonia often falls within the diagnostic criteria of ARDS, it differs from it for some peculiar pathophysiological characteristics. In particular, patients with ARDS secondary to COVID-19 often have the compliance of the respiratory system within the normal range. A significant role in the pathophysiology of hypoxemia seems to depend on vascular alterations such as altered pulmonary vascular self-regulation, pulmonary capillary leakage, and microvascular thrombosis in a complex process known as "immunothrombosis". All together they act by altering the relationship between ventilation and perfusion and increasing the dead space, which ultimately results in impaired efficiency of the pulmonary ventilation. Among the various markers associated with the prognosis of patients with COVID-19, D-dimer is linked to both the inflammatory state and thrombotic phenomena and could help to identify patients at greater risk of developing early ventilation-perfusion changes. This study aims at measuring the ventilatory efficiency, assessed by Ventilatory Ratio, in critically ill, mechanically ventilated, COVID-19 patients and its correlation with plasma D-dimer and quasi-static respiratory compliance.
Observational study Primary Objective: To study whether ECMO alters the PK of anti-infectives including voriconazole, posaconazole and caspofungin in critically ill patients on ECMO Secondary Objectives: Develop Population PK models of anti-infectives, including voriconazole, posaconazole and caspofungin in critically ill patients on ECMO Develop Physiological-Based PK (PBPK) model of anti-infectives, including: voriconazole, posaconazole and caspofungin in critically ill patients on ECMO Study population: Critically ill patients on ECMO Methodology: Observational study to determine whether ECMO alters the PK of anti-infectives, by developing PK models This is a non-interventional descriptive study in that the anti-infective drug selection and dosing will be at the discretion of the clinician, based on the clinical context and unit guidelines. Doses will be reconstituted and administered as per local hospital protocols in line with patient's routine care. Patients will be asked to provide additional blood samples over the course of the anti-infective dosing schedule, these samples will be taken from existing arterial lines to help guide treatment in future patients on ECMO receiving these anti-infectives.
Survivors of critical illness may suffer from persistent physical, cognitive and mental impairments, such as muscle weakness, dysfunction in the memory and executive domains, post-traumatic stress disorders, depression, and anxiety. This syndrome is referred to as Post Intensive Care Syndrome (PICS). This study aims to assess the frequency of impairments, their evolution over time, and to understand the pathogenetic mechanisms and the association between long-term sequelae and acute care events.
The Bone Zone trial is a prospective, multi-centre, double-blind, phase II, randomised controlled trial evaluating the effect of denosumab or zoledronic acid compared to placebo on change in bone mineral density over one year in women aged 50 years or older and men aged 70 years or older requiring admission to intensive care for greater than 24 hours. 450 women aged 50 years or older and men aged 70 years or older, admitted to intensive care for greater than 24 hours will be recruited into the study from participating study centres.
The role of the left ventricular diastolic function (LVDD) in the weaning failure from mechanical ventilation in unclear. Specifically, is unclear whether the outcome of the weaning process could be affected by a pre-existing LVDD (before ICU admission), or by the worsening of a chronic pattern, or by a de-novo LVDD presentation.
Early mobilization in Ventilated sEpsis & acute Respiratory failure Study: EVER Study