View clinical trials related to Delirium.
Filter by:Postoperative delirium is a condition in which patients develop temporary difficulties in maintaining attention and thinking clearly. These new problems can appear after surgery and change throughout the day. This confusion can last several days. The overall purpose of this study is to measure brain activity during sleep and wakefulness to learn about their relationships to delirium after surgery. While participants may not feel like their normal self during the study, they are in the best position to help us learn how to improve the recovery of brain function and sleep in others having surgery. The investigators need to learn from those who have and have not become confused after their surgical procedure.
To assess the impact of daily awakening from sedation on the amount of vasoactive medication required in the ICU. The hypothesis of this proposal is that the amount of vasoactive drug required to maintain an adequate mean arterial blood pressure will be reduced during a daily awakening from sedation.
Patients assume that cognitive performance rapidly returns to baseline after anesthesia and surgery. Several studies have shown that one week after major non-cardiac surgery about 27% of patients have postoperative cognitive dysfunction (POCD) and 10% of patients at 3 months. Very few studies have assessed the incidence of POCD beyond 3 months. POCD significantly reduces quality of life. Identifying risk factors for POCD is important because it is associated with prolonged hospital stay, loss of independence, and premature retirement. There is an urgent need to measure and document the level of cognitive change associated with surgery with an easy to use tool, both prior to admission and after discharge. This information can be used to plan appropriate care paths and to identify or test the efficacy of potential new treatments to alter the negative trajectory.
Sepsis associated encephalopathy (SAE) is a poorly understood acute cerebral dysfunction that frequently appears in the setting of sepsis induced systemic inflammation. In fact, altered mentation is recognized as an independent predictor of death and poor outcomes in patients with sepsis. SAE may be manifested by a number of symptoms characterized by a change in baseline behavior, attention, alertness, cognition, or executive functioning. It occurs in the absence of direct Central Nervous System (CNS) infection, and the exact pathophysiology is of SAE is unknown, but theoretically seems to encompass a constellation of mechanisms such as impairment of the blood brain barrier (BBB), endothelial dysfunction, alteration in cerebral blood flow and neurotransmission, circulating inflammatory mediators, cellular hypoxia, and metabolic disturbances, that ultimately result in neuronal dysfunction and cell death. SAE is characterized by an altered mental status (AMS) that ranges from delirium to coma, and can lead to long-term cognitive impairment. SAE may appear early in the course of sepsis, and is often underestimated as an independent factor of mortality, yet the pathophysiology of SAE remains unknown, and there is a lack of specific investigations available to clinicians. Studies have evaluated biomarkers as prognostic tools. The Investigator propose to measure neuron specific enolase (NSE), S-100B, glial fibrillary acidic protein (GFAP), ubiquitin C-terminal hydrolase L1 (UCH-L1), Tau protein, Copeptin, spectrin breakdown products (SBDP 145, SBDP150), αII-spectrin N-terminal fragment (SNTF), neurofilament light and heavy chains (NF-L, NF-H), myelin basic protein (MBP), secretoneurin (SN), and other peptide levels in the serum of sepsis patients who develop altered mental status, to evaluate the kinetics of said biomarkers for 72 hours. The Investigator will monitor the course of the patients' hospitalization to determine whether there are biomarker correlates with survival and outcomes, including neurologic impairment. Finally, this investigation may provide a mechanistic pathway that defines the development of AMS in septic patients.
Cognitive skills are essential to live independently, manage finances, maintain employment, and function in society. Loss of these cognitive skills puts a tremendous burden on society as seen with dementias, Alzheimer's disease, and traumatic brain injury. The INSIGHT-ICU Study (Illuminating Neuropsychological dysfunction and Systemic Inflammatory mechanisms Gleaned after Hospitalization in Trauma-ICU Study) is the first comprehensive and longitudinal long-term cognitive impairment study after traumatic injury. The societal impact of long-term cognitive impairment after trauma is immense given that these patients are young and constitute a large proportion of employable adults.
This randomized phase II/III trial studies how well haloperidol with or without chlorpromazine works in treating delirium in patients with cancer that has spread to other parts of the body or has come back. Haloperidol and chlorpromazine may control the symptoms of delirium (loss of contact with reality) in patients with cancer.
The goal of the project is to determine the effects of noise masking and noise reduction on stress related physiological parameters in critically ill patients admitted to the intensive care unit.
Sleep deprivation is known to affect brain function but is often ignored in the sickest patients including those in the intensive care unit after major surgery. In these patients, the levels of melatonin can also be altered. Melatonin is a hormone secreted in the brain that maintains the body's sleep-wake, or circadian, cycle. The investigators want to test whether improving sleep quality affects the risk of developing confusion (delirium) in patients having clot removed from their lung (open heart surgery). In order to improve sleep quality, the investigators will conduct a study of Ramelteon, a medication that mimics the activity of melatonin and measure its effects on levels of melatonin and monitor sleep.
This is a randomized, prospective controlled trial in patients undergoing cardiac surgery, specifically on-pump coronary artery bypass grafting, comparing level of administered oxygen and partial pressure of arterial oxygen in the operating room and its impact on a widely-used and validated neurocognitive score, the telephonic Montreal Cognitive Assessment (t-MoCA), throughout the hospital stay and at 1 month, 3 months, and 6 postoperatively. It is hypothesized that cardiac surgical patients who undergo normoxic conditions throughout the intraoperative period will have better neurocognitive function than those with maintenance of hyperoxia.
Delirium, as a common complication of hospitalization, poses significant health problems in hospitalized patients. Though about a third of delirium cases can benefit from intervention, detecting and predicting delirium is still very limited in practice. A common characterization of delirium is change in activity level, causing patients to become hyperactive or hypoactive which is manifested in facial expressions and total body movements. This pilot study is designed to test the feasibility of a delirium detection system using movement data obtained from 3-axis wearable accelerometers and commercially available camera with facial recognition video system in conjunction with electronics medical record (EMR) data to analyze the relation of whole-body movement and facial expressions with delirium.