View clinical trials related to Intensive Care Unit Delirium.
Filter by:Introduction: Intensive care unit (ICU) delirium is an acute onset of brain dysfunction, which can affect 25-80% of ICU patients. Delirium is also associated with long term cognition impairment, higher mortality and higher ICU costs. Previous acupuncture studies showed the potential to prevent delirium. This study will examine the ability of acupuncture to treat ICU delirium. Methods: A double-blind randomized control trial will examine the effect of press tack acupuncture vs. press tack placebos. The patients will be randomly divided (1:1) into one of two groups. A total of 80 ICU patient will have to meet the following criteria: age 20-90, APACHE score <30, Intensive Care Delirium Screening Checklist (ICDSC) >4 points (indicates existing delirium), Richmond Agitation-Sedation Scale (RASS): +1, +2, +3, +4, -1, -2. Three interventions will be given in each group. The main outcomes will be the delirium days according to the ICDSC.
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)
In intensive care unit (ICU) patients, the ability to predict delirium may help reduce its incidence, duration, and severity. The PREdiction of DELIRium in ICU (PRE-DELIRIC) model was recently developed for this purpose. Our aim was to test the PRE-DELIRIC model in the medical ICU.
Critically ill older adults admitted to the intensive care unit (ICU) are at a higher risk to develop delirium, which predisposes them to longer lengths of ICU and hospital stay, increased in-patient mortality, and higher risk of new acquired cognitive impairment and dementia. Music listening is a non-pharmacological intervention that holds potential to decrease ICU delirium. The investigators propose a randomized controlled trial to evaluate the efficacy of a seven-day slow-tempo music intervention on the primary outcome of delirium/coma free days among mechanically ventilated, critically ill older adults.
Almost half of critically ill patients experience delirium. Delirium is associated with impaired cognition, mortality, and increased healthcare costs. Family members of critically ill patients are also at risk for adverse consequences such as depression and anxiety. One strategy that may help improve outcomes is to engage family members in the prevention, detection, and management of delirium. This study will employ an educational module to educate families on delirium symptoms, how to identify delirium, and how to prevent and manage delirium using non-pharmacological strategies. Family delirium detection may result in earlier and more accurate recognition of delirium and meaningful family involvement, and therein the potential for better patient and family outcomes. We aim to determine the efficacy of employing family-administered delirium prevention, detection, and management in the critically ill, compared to usual care. We hypothesize that family-administered delirium prevention, detection, and management in the critically ill will be superior to standard of care in: 1. reducing psychological distress in family members, 2. reducing the prevalence, duration, and severity of delirium in critically ill patients, 3. increasing delirium identification in medical charts, 4. increasing delirium knowledge in family members of critically ill patients, and 5. reducing the burden of delirium experienced by family members and caregivers.
The incidence of delirium following open abdominal aortic aneurysm (AAA) surgery is significant, with incidence rates ranging from 12 to 33%. The occurrence of delirium on the surgical ward after intensive care unit (ICU) dismissal in AAA patients remains unclear. Differences in outcomes between a delirium on the ICU and a delirium on the surgical ward have not been previously investigated. Delirium is a frequent complication in patients who underwent open AAA surgery. This study demonstrated that patients on the surgical ward remain at risk for developing a delirium after ICU dismissal. Physicians should therefore maintain a high level of awareness for delirium in AAA patients who return to the surgical ward after ICU dismissal. This simultaneously emphasises the necessity of delirium preventive measures and early recognition on the surgical ward in order to improve clinical outcomes.
ICU delirium are assessed by clinical nurses twice every day. Delirious patients are matched with patients according to their disease, gender and age range(±3 years). Stool samples for gene sequencing are collected. Gut barrier function are studied with several serum biomarkers (endotoxin, etc.). Ecological analyses, regression models and mediation equation will be performed.