View clinical trials related to Critical Illness.
Filter by:The goal of this multi-site observational study is to compare delirium rates, days on mechanical ventilation, and Post Intensive Care Syndrome (PICS) rates in adult Intensive Care Unit (ICU) patients. The study will examine patients whose sedation and analgesia infusion titration is managed with both Richmond Agitation and Sedation Scale (RASS) and Processed Electroencephalography (pEEG) monitoring vs patients who receive RASS monitoring alone. The main questions are: - Compared to RASS monitoring method alone, does the use of 4 channel pEEG monitor in conjunction with RASS to guide the management of sedation and analgesic in patients who are ventilated reduce the average number of delirium days, measured by Intensive Care Delirium Screening Checklist (ICDSC)? - To determine when compared to RASS monitoring alone if the use of 4 channel pEEG monitor in conjunction with RASS to guide the management of Intravenous (IV) sedation and analgesia in ventilated patients reduces the days a patient spends on a mechanical ventilator when compared to RASS only monitoring from retrospective data. - To determine when compared to RASS monitoring method alone, does the use of 4 channel pEEG monitor in conjunction with RASS experience lower doses of sedation and analgesia infusions? - To determine when compared to RASS monitoring method alone, does the use of 4 channel pEEG monitor in conjunction with RASS experience less incidence and duration of PICS?
The primary aim is to study change of critical frailty scale (CFS) and health related quality of life (EQ-5D-5L) in a long-term follow-up of ICU survivors. We aim to identify important ICU related predictors for change in CFS and EQ-5D-5L in long term follow up (1 yr). Secondary aim is to investigate how CFS pre-admission is related to intrahospital treatment intensity level, severity score and mortality.
This is a prospective longitudinal study that will evaluate the unmet needs of older adults (65 and older) who return home (either directly or after short-term rehab) after an ICU hospitalization, evaluate the association of these unmet needs with clinically relevant outcomes, and assess barriers and facilitators to addressing these unmet needs. The proposed research will inform the development and evaluation of a subsequent intervention to improve functional outcomes among older ICU survivors, in alignment with the NIH's mission to reduce disability.
Older adults are at risk for ICU-acquired cognitive decline discernible from clinical, biological, and imaging- related changes in the brain following delirium and critical illness. Our Driving Rehabilitation and Innovation for Evaluating Risk in Post Intensive Care Unit Survivors (DRIVE-PICS) application seeks to implement in-vehicle kinematic driving data with neurocognitive assessments for essential formative work to develop data-based insights into driving behaviors. DRIVE-PICS is designed to contribute to a critical gap in health promotion to develop an evidence-based, in-vehicle driving assessment system to provide actionable driving safety data and rehabilitation strategies tailored to older ICU survivors, the participants' care partners, and clinicians.
The intensive care unit (ICU) is recognizably detrimental to sleep and circadian health, and critical survivors frequently report the presence of alterations in this regard after hospital discharge. However, an appropriate evaluation of sleep and circadian rhythms is often neglected given the high associated cost and/or the need of collaboration of the patients. In this project, the investigators propose alternatives to ultimately improve the management of sleep and circadian health after critical illness. The researchers will evaluate the role of microRNA (miRNAs) expression profile in identifying the compromised sleep and circadian health of critical patients during the ICU stay, in the short (3 months after hospital discharge), and in the long-term (12 months after hospital discharge). Also, models based on machine learning techniques will be developed to predict adverse outcomes in this regard after hospital discharge.
Investigation of the feasibility of using near-infrared spectroscopy (NIRS) to monitor microvascular function in critically ill patients.
Evaluation and management of intravascular volume are a central challenge for the critical ill patients. Hypotensive patients are commonly resuscitated with intravenous crystalloid fluid as a recommendation for treatment of many shock states. There has been a growing interest in the implementation of lung ultrasound in critical care management in the last decade as it is easy, bedside, non-expensive, non invasive and radiation free. The object of the current study is to assess the ability of lung and inferior vena cava sonography versus pulse pressure variation to predict fluid responsiveness in patients with circulatory failure on mechanical ventilation.
The goal of this prospective observational study is to evaluate the incidence, risk factors, and outcomes for development of acute kidney injury (AKI) in intensive care pateints. The main questions it aims to answer are: - What is the incidence of acute kidney injury in intensive care patients? - What are risk factors for development of acute kidney injury? All adult patients admitted to the ICU with a stay of 48 h or more will be included in the study.
Sleep of critically ill patients is highly disturbed with a high sleep fragmentation; patients spend most of their sleep in very short sleep episodes, lasting less than 10 minutes. Causes of theses sleep alterations are complex including environmental noise (alarms, beepers, conversationsā¦), continuous light, nurse care and repetitive measures of vital parameters. Numerous studies have reported a relationship between severe sleep alterations and a prolonged weaning period and mortality. Improving sleep quality in critically ill patients is a major challenge to promote ICU patient's recovery. A very promising treatment is the application of a nocturnal " quiet-time " during which non urgent care, comfort care, systematic measures of vital parameters are delayed and clustered in order to limit room entries. However, " quiet time " procedures have failed to improve sleep quality to date. A miniaturized medical device recording one EEG channel and embedding an automated sleep scoring algorithm running in real-time was devised. This device (positioned on forehead, and continuously recording noise and light levels) indicates if the patient is awake or asleep using a tablet positioned at doorstep of the room, so that nurses know if patient is sleeping, without entering the room. Hypothesis proposes that applying sleep protection procedures (clustering cares, limiting room entries, reducing lights and noise, delaying non urgent careā¦) when patients are sleeping (= EEG-guided strategies) will increase patients sleep quality. This study will assess the effect of such device on sleep quality in ICU patients. This is a "before / after" design. The first group ("control group"), will be recorded but the sleep scoring will not be displayed by the tablet and patient will be expose to standard care. Then, procedure will be established collegially with nurses, nurses assistants and doctors. Then, the second group ("treated group") will be recorded with the device displaying the status of the patient (asleep/awake) and all caregivers will be asked to follow the established rules ("EEG-guided sleep protection rules")
Pain is common in intensive care and gives rise to multiple consequences that can impact the future of patients. The placement of deep venous catheters are painful gestures of common practice in intensive care. However, some patients are ventilated and sedated and their level of pain is difficult to judge. Quantitative pupillometry seems to be a reliable tool for assessing pain in these patients unable to communicate. The method is already common practice in the operating room for this indication and recent studies increasingly validate its use in intensive care. The aim of the study is to validate the different levels of pain that can be assessed by pupillometry within this population during catheterization and to identify any non-responding subgroups (in order to conduct future clinical trials evaluating pain therapies).