47 Clinical Trials for Various Conditions
The purpose of this study is to determine the accuracy of the Pre-Interventional Preventive Risk Assessment (PIPRA) tool in predicting clinical cases of Intensive Care Units (ICU)-delirium, in a population at high risk of developing this syndrome (i.e., admitted patients to Cardiothoracic Intensive Care Units). The population to be studied has already been enrolled in a parallel study intended to determine the accuracy of an electroencephalogram (EEG)-based diagnosis for delirium.
This is a single-center, prospective observational pilot study. The objective of this study is to evaluate the effectiveness of trazodone as compared to quetiapine, in the management of ICU delirium in adult (\>=18 years old) surgical and medical ICU patients. The investigators will compare outcomes such as delirium duration, delirium-free days, coma-free days, in-hospital mortality, 28-day mortality, hospital length of stay (LOS), ICU LOS, mechanical ventilator days, complications, adverse effects, rescue medication use, delirium symptom severity, sleep duration, and sleep quality among participants receiving trazodone or quetiapine. The investigators hypothesize participants receiving trazodone will be associated with a shorter duration of delirium, decreased delirium severity, and improved sleep quality compared to participants receiving quetiapine.
The objective of this study is to evaluate the effectiveness of trazodone as compared to quetiapine and placebo, in the management of ICU delirium in adult (\>=18 years old) surgical ICU patients. The investigators will compare outcomes such as delirium incidence and duration, in-hospital mortality, 28-day mortality, hospital length of stay (LOS), ICU LOS, mechanical ventilator days, complications, adverse effects, rescue medication use, delirium symptom severity, sleep duration, and sleep quality among participants receiving trazodone, quetiapine, or placebo. The investigators hypothesize participants receiving trazodone will have a shorter duration of delirium, decreased delirium severity, and improved sleep quality compared to participants receiving quetiapine and placebo.
This study will investigate if enteric feeding schedules alter the development of delirium in Intensive Care Unit patients who have been placed on mechanical ventilation. Delirium is an altered state of consciousness, which can involve agitation, inattention, and decreased awareness. We will enroll Intensive Care Unit patients who have been placed on a ventilator and are being given tube feedings. We will randomize participants into two groups: one group will receive continuous feedings via feeding tube, and the other group will receive feedings on a schedule to mimic breakfast, lunch, a snack, and dinner. Subjects will be assessed for the development of delirium. Subjects will also be monitored for sleep quality.
The purpose of the research is to see if dexmedetomidine (a drug that has a calming effect - a sedative) is effective for the treatment of acute delirium
Fully two-thirds of ICU patients develop delirium, which is associated with longer stays, billions of dollars in costs globally, and 3-fold excess mortality at 6 months. Over one-half of ICU survivors suffer a functionally debilitating dementia-like illness, which appears related to delirium duration. This study will focus on applying Awakening-Breathing Coordination, Delirium Monitoring/Management \& Early Mobility (ABCDE), a program of delirium screening, prevention, and treatment developed at Vanderbilt University. Specifically, the study will implement the ABCDE program in a medical center that does not currently perform routine ICU delirium screenings and identify facilitators and barriers to program adoption; test the impact of the ABCDE program on patient outcomes, nursing quality outcomes, and system outcomes; and assess the extent to which ABCDE implementation is effective, sustainable, and conducive to dissemination into other settings.
Aim1a: Statin naive patient's scheduled for cardiac surgery will be randomized to 80mg atorvastatin or placebo on the day prior to surgery and then 40mg daily thereafter until hospital discharge to test the hypothesis that short-term atorvastatin use decreases: 1. acute kidney injury following cardiac surgery. 2. postoperative delirium following cardiac surgery. Aim1b: Patients using statins preoperatively will be randomized to atorvastatin 80mg or placebo on day of surgery and 40mg or placebo on postop day 1 with resumption of preoperative statin therapy on postop day 2 to test the hypothesis that short-term atorvastatin use decreases: 1. acute kidney injury following cardiac surgery. 2. postoperative delirium following cardiac surgery. Endpoints include glomerular filtration, urine and plasma markers of renal dysfunction, markers of oxidative stress, mitochondrial function, systemic inflammatory markers, delirium, dialysis, stroke, myocardial infarction, time to extubation, ICU length of stay, and death.
This BRAIN-ICU-2 study \[Bringing to light the Risk factors And Incidence of Neuropsychological dysfunction (dementia) in ICU Survivors, 2nd Study\] is in direct response to PAR-17-038 and will determine ICU patients' main paths to decline, maintenance, or recovery of brain function. We will answer gaps in knowledge about long-term outcome of post-ICU brain disease by following the remaining ICU survivors from the original BRAIN-ICU-1 study with complete cognitive testing for the first time ever to 12 years (AIM 1). We will consent and enroll 567 new ICU patients at Vanderbilt and Rush Universities (i.e., BRAIN-ICU-2 cohort) and determine how detailed neuroimaging and cerebrospinal fluid samples can help reveal locations and mechanisms of injury beyond what we learned from the clinical information collected in our original study (AIM 2). Importantly, we are mirroring the existing world-renowned Rush Alzheimer's Disease Research Center brain bank program so that all patients enrolled in Aims 1 and 2 will able to donate their brains to science for the first-ever in-depth pathological study of those who do and do not get post-ICU dementia to define this disease formally (AIM 3)
Delirium affects up to 80% of intensive care unit (ICU) patients and is associated with longer hospital stays, increased morbidity and mortality, and increased costs. There is no FDA-approved treatment for delirium; the most effective strategy is prevention by nonpharmacological methods. The investigators propose to study a comprehensive delirium prevention bundle that has been effective against delirium in preliminary studies in elderly in-hospital patients and elderly ICU patients. This delirium prevention bundle includes the novel addition of psychiatrists to daily ICU rounds, as these professionals are specially trained to screen for latent mental illness and provide treatment for these illnesses. The effects of daily psychiatric evaluation of ICU patients has never been systematically studied, as ICU professionals are well-equipped to manage ICU delirium. Psychiatric consultation is reserved for severe and/or refractory cases of delirium. The investigators hypothesize that a multidisciplinary rounding approach including psychiatry within the ICU team will help diagnose psychiatric components that may contribute to delirium at an earlier time point, and thus can reduce the incidence and duration of delirium. The investigators also hypothesize that the proposed multidisciplinary approach will shorten hospital and ICU lengths of stay, duration of mechanical ventilation, and decrease in-hospital mortality.
The primary purpose of this study is to better understand the impact of the Society of Critical Care Medicine (SCCM) THRIVE Collaboratives on patients, their families and clinicians. The investigators have formed an international and interprofessional evaluative team with experts in the field in an effort to explore interactions between survivors and THRIVE. This approach is reflective of the international ethos of SCCM and its collaboratives, with the potential to improve the generalizability of this survivorship research to different health systems.
The purpose of this study is to determine if administering methadone to mechanically ventilated patients in the medical intensive care unit (ICU) requiring continuous infusions of sedatives and analgesics will decrease the time of mechanical ventilation, when initiated within 48 hours of their admission. Patients meeting enrollment criteria will be randomly assigned to receive methadone or placebo in addition to standard care. Methadone is a long acting pain medication that is approved by the Food and Drug Administration (FDA) to manage withdrawal from opioids and moderate to severe pain. Both of these indications are a frequent concern for critically ill patients that require mechanical ventilation. These patients often require intravenous (IV) opioids to manage the pain they experience due to their illness, procedures, and mechanical ventilation. During this time patients can develop physical dependence, which leads to withdrawal symptoms when the opioids are stopped or the dose is reduced. These symptoms can include agitation, pain, diarrhea and several others. Currently this is managed by a slow reduction in the dose of the IV opioid, but this can lead to prolonged time on mechanical ventilation, which has been associated with increased morbidity. Administering oral methadone to patients experiencing withdrawal symptoms has been shown to reduce and even eliminate these symptoms in the outpatient setting. This should also benefit patients in the ICU experiencing withdrawal from intravenous opioids required during their stay. It may allow for the other opioids to be discontinued more quickly, allowing for a shorter duration of mechanical ventilation. The level of pain and sedation will be assessed between groups randomized to either methadone or placebo in addition to current intravenous sedative and analgesic agents. The duration of mechanical ventilation will be assessed between both groups. Opioid withdrawal symptoms may manifest or be mistaken for delirium symptoms. ICU delirium is often managed with antipsychotic medications. To assess if methadone can reduce the need for antipsychotic medication, all administered antipsychotic doses will be recorded and total consumption will be compared between the two groups. Methadone has been associated with abnormal heart rhythms in rare instances. To ensure patient safety, data from the heart monitor will be collected and compared between the two groups to assess for QT interval prolongation.
This study seeks to examine the effects of overnight noise reduction in critically ill patients who are receiving mechanical ventilation. The investigators will randomly place subjects into one of three groups: 1) usual care 2) overnight earplugs 3) overnight earplugs and noise-canceling headphones. The investigators will monitor for safety, and will measure the amount of delirium experienced by subjects, record the amount of sedating and painkilling medicines required, and measure sleep quality during the study, among other information. The investigators will also measure noise levels experienced by patients in each group. The investigators predict that the use of overnight noise reduction will be safe and will reduce the amount of delirium by improving the quality of sleep in critically ill patients.
About one-third of the patients who develop mild, acute confusion (i.e., subsyndromal delirium) will go on to develop a severe acute confusional state (i.e. delirium). Delirium refers to a temporary change in the way a person thinks about things. Delirium occurs in patients admitted to the hospital particularly those patients that are very sick, who are given a number of medications, and who are not able to sleep normally. It affects their behavior, their understanding of the people and things around them, and their ability to make decisions. While ICU doctors do everything possible to eliminate the factors that may cause delirium, delirium may cause a person to become very agitated which if not controlled is dangerous to their safety as well as the safety of those around them. As well, if delirium develops in patients in the ICU, it may increase the risk for death, keep patients in both the ICU and hospital for longer and send patients to a long term care facility rather than home after they are discharged from the hospital. A recent medical report found that patients in the ICU who develop subsyndromal delirium have a mortality rate, a length of stay in both the ICU and the hospital, and a transfer rate to a long term care facility that is nearly as great as patients with delirium and greater than patients who develop neither subsyndromal delirium or delirium. Recent studies in non-ICU patients suggest that if a patient who is at high risk for developing delirium receives a medication called an antipsychotic (e.g. haloperidol) they may not be as likely to develop delirium or if they do develop delirium it will not last as long. No studies have evaluated the effect of administering an antipsychotic in patients in the ICU who have subsyndromal delirium. Another study completed in the ICUs at Tufts Medical Center found that there may be an association between the development of delirium in patients with subsyndromal delirium and the use of haloperidol. However, this small study had many limitations and thus it is not currently known whether using haloperidol in patients with subsyndromal delirium will actually cause fewer of these patients to develop delirium. Haloperidol makes a person sleepy and helps control behavior like agitation. Haloperidol is the drug that is used most often to help control delirium in the ICU. This prospective, double-blind, randomized controlled study will determine if haloperidol administered through the vein four times daily (1mg IV q6h) to patients who have subsyndromal delirium, and who are on a breathing machine and being cared for by the Medical ICU service at Tufts Medical Center, will help prevent patients from developing delirium. A total of 68 participants will be enrolled. Exclusion criteria are extensive and include conditions that could affect the ability to determine if delirium is present or increase the risk for side effects related to the administration of haloperidol. Patients older than 80 will be excluded from the study. Study medication (i.e. haloperidol) will be administered until one the following occurs: 1) delirium develops (that is confirmed by a staff psychiatrist or his designate, 2) the patient is discharged from the ICU at Tufts Medical Center, 3) the patient has received haloperidol or placebo for 10 days or 4) an adverse event potentially attributable to the study drug is experienced by a patient that is deemed, in the opinion of a pulmonologist member of the investigative team to warrant discontinuation of therapy. Haloperidol may cause unwanted side effects such as low blood pressure, twitching, and an unsafe abnormal heart rhythm. Patients with chronic confusion (e.g., a dementia such as Alzheimer's Disease) should not receive haloperidol and will not be included in this study. Patients will be carefully monitored for side effects that are potentially related to haloperidol. Patients who become confusion-free in the ICU before they leave the ICU (i.e., have no subsyndromal delirium) will be asked to provide consent for all research activities that occured in the ICU. If patients where cognition is regained (ie. no subsyndromal delirium or delirium) are not willing to provide consent then any study data collected from them while they were in the ICU will be destroyed and they will not be approached to participate in the post-ICU component of the study. This study also seeks to understand how the use of haloperidol in the ICU in patients with subsyndromal delirium may have affect memory, emotional status, happiness, ability to function, and quality of sleep in patients after they leave the ICU. Patients (that do not have delirium based on CAM screening at the time the 3-10 day and 6 month assessments are attempted) will be approached to participate in this post-ICU component of the study.
This will be the first large cohort study to define the epidemiology of and identify modifiable risk factors for long-term CI and functional deficits of ICU survivors. The investigators will measure the independent contribution of risk factors such as delirium and exposure to sedative and analgesic medications to the incidence of long-term CI, controlling for established risk factors (e.g., age, pre-existing CI, and apoE genotype). Defining the contributions of these risk factors will make it possible to develop preventive and/or treatment strategies to reduce the incidence, severity and/or duration of long-term CI and improve functional recovery of patients with acute critical illness.
This study is designed to determine and evaluate the optimal BXCL501 starting dose (StartD) that will safely and effectively reduce agitation associated with delirium in ICU patients. This is an ascending adaptive dose study evaluating the safety and efficacy of four potential starting doses of BXCL501 (120 μg, 180 μg, 240 μg, and 300 μg) in reducing agitation levels in adult ICU patients with delirium. For subjects 65 years of age and older, the potential doses will be reduced 50% in line with the Precedex (reference drug) label. The purpose of this clinical trial is to identify an optimally safe and effective BXCL501
Investigators will evaluate the efficacy of postoperative oral suvorexant treatment on nighttime wakefulness after persistent sleep onset (WASO) among adult cardiac surgical patients recovering in the cardiac intensive care unit (ICU). The study include patients ≥ 60 years old undergoing coronary artery bypass graft surgery (CABG), with or without valve surgery (aortic or mitral). Patients will receive either oral suvorexant or placebo for 7 nights starting the night after extubation. The primary hypothesis is that suvorexant compared with placebo decreases WASO, as measured by a specialized electroencephalogram (EEG), the SedLine monitor, during the first night in the cardiac ICU. Investigators will also assess total sleep time (TST), time to sleep onset (TSO), and postoperative delirium and delirium-free days.
Delirium is the most often encountered psychiatric diagnosis in the general hospital, with incidence up to 85% in the intensive care unit (ICU) setting and with significant consequences on patients' morbidity and mortality. Currently, although not FDA approved, antipsychotics are often considered the first-line pharmacological treatment. However, there can be limitations to their use, including side effects or lack of efficacy. Valproic acid (VPA) is one of the alternatives at times used in such patients which from limited case series data appears to be helpful and tolerated. VPA can provide relief from agitation that poses a threat to the safety and recovery of the patient. Moreover, mechanistically it addresses the neurochemical and cellular abnormalities inherent in delirium (it has NMDA-antagonist, anti-dopaminergic, GABAergic,anti-inflammatory, anti-apoptotic, and histone deacetylase inhibitor properties, among others). The purpose of this study is to evaluate the efficacy and tolerability of the VPA in the first known to us randomized controlled trial.
Specific Aims 1. Establish the feasibility of larger trial by implementing a sleep protocol in the ICU at 2 different sites. Specifically will be estimating the recruitment rates of patients and the compliance with both interventions. 2. Measure the safety and tolerance of adding night-time sedation with dexmedetomidine using adverse effects and withdrawal rates as indicators. 3. Measure the effect of nocturnal dexmedetomidine on pertinent clinical outcomes and use this outcome data to plan a larger, multicenter trial in this area. The goal of this study is to determine whether a night-time protocol that incorporates a pharmacologic intervention associated with improved sleep (i.e. dexmedetomidine) will improve sleep quality and reduce the incidence of delirium and sub-syndromal delirium in critically ill patients.
To determine if daytime bright light will promote circadian alignment and shorten or prevent delirium.
The goal of this observational study is to develop a passive digital marker (PDM) for delirium severity and examine its performance in comparison to validated delirium severity tools in ICU patients \>50 years of age. The main questions it aims to answer are: * Is the trained convolutional neural network able to reliably measure delirium severity. * Is the Passive Digital Marker able to accurately measure delirium severity * Is the Passive Digital Marker acceptable and usable by frontline ICU nurse clinicians, patients, and their identified proxies (i.e., caregivers). Participants will: * Study participation involves a video camera recording you 24 hours per day while you are a patient in the Intensive Care Unit (ICU). * Study staff will visit you 4 times each day you are in the ICU. You will be asked questions each time they visit to train the digital marker and see differences between assessments and camera data.
The investigators will perform a prospective, cohort study of 100 older intensive care unit (ICU) patients, to investigate the association between sleep disruption and ICU delirium.
This is a pragmatic phase III, randomized, blinded, double placebo-controlled, three-arm trial of elderly patients following cardiac surgery to assess the relationship between nighttime intravenous (IV) and sublingual dexmedetomidine on postoperative delirium and functional outcomes after surgery.
The overarching goal of this study is to support the "real world" assessment of strategies used to foster adoption of several highly efficacious evidence-based practices in healthcare systems that provide care to critically ill adults with known health disparities. Investigators will specifically evaluate two discrete strategies grounded in behavioral economic and implementation science theory (i.e., real-time audit and feedback and registered nurse implementation facilitation) to increase adoption of the ABCDEF bundle in critically ill adults.
The purpose of this study is to evaluate the effect of a pre-ICU admission virtual reality ICU simulation on post-operative delirium in the elective cardiothoracic surgical population while in the intensive care unit.
Important information related to the visual assessment of patients, such as facial expressions, head and extremity movements, posture, and mobility are captured sporadically by overburdened nurses, or are not captured at all. Consequently, these important visual cues, although associated with critical indices such as physical functioning, pain, delirious state, and impending clinical deterioration, often cannot be incorporated into clinical status. The overall objectives of this project are to sense, quantify, and communicate patients' clinical conditions in an autonomous and precise manner, and develop a pervasive intelligent sensing system that combines deep learning algorithms with continuous data from inertial, color, and depth image sensors for autonomous visual assessment of critically ill patients. The central hypothesis is that deep learning models will be superior to existing acuity clinical scores by predicting acuity in a dynamic, precise, and interpretable manner, using autonomous assessment of pain, emotional distress, and physical function, together with clinical and physiologic data.
This is a study of mechanically ventilated pediatric intensive care unit (ICU) teenage patients and the effects of the medication dexmedetomidine on sleep, delirium, and sedation level. The Investigators will assess sleep with an 8 lead polysomnogram study and increase the medication at night for one night to see if the sleep architecture changes. The Investigators will assess their sleep with our unit's sedation protocol for an additional night.
The purpose of the study is to develop and implement an evidence-based analgesia-sedation algorithm in the pediatric intensive care unit (PICU) using quality improvement and implementation science methodology. The analgesia-sedation protocol will be implemented for patients admitted to the pediatric ICU who require mechanical ventilation for greater than 24 hours. Specifically, we will examine the impact of this implementation on total benzodiazepine usage, ICU length of stay, and ventilator free days, using a pre- and post- algorithm implementation comparative design.
The investigators plan to create several sleep/circadian rhythm friendly rooms within the medical intensive care unit to determine if decreasing sleep fragmentation effects recovery in patients hospitalized in the ICU.
This study will apply an evidence based program to assist ICU survivors to overcome cognitive problems as a result of their critical illness. This study will determine feasibility of recruitment, retention and engagement with the program as well as acceptability of the program to the participants.
Delirium is a disturbance in attention and awareness that occurs over a short period of time. Delirium is common in critically ill patients, and poor sleep quality in the intensive care unit (ICU) often worsens delirium. We aim to lower delirium in the intensive care unit (ICU) by using ramelteon, which is a drug used to improve sleep at night.