87 Clinical Trials for Various Conditions
Sleep disturbances, cognitive reserve, and continuing pain and inflammation are other risk factors contributing to delirium (confusion and agitation) and neurocognitive decline (in the long term) following heart surgery. Investigators aim to test a bundle of sleep optimization, cognitive exercise before surgery, and extended pain relief for 48 hours with intravenous acetaminophen combined with enhanced recovery after surgery protocols (SCOPE bundle). SCOPE will fill significant gaps in evidence by testing the value of a patient and care-provider-focused intervention that can potentially minimize POD and improve outcomes (cognitive \& physical function, sleep quality, pain, depression or anxiety, and survival) important to patients and families. The SCOPE trial will address many heart surgery outcome-related questions commonly asked by patients: What can I do to reduce my chances of developing confusion, hallucinations, or delirium after surgery? How can I best prepare before surgery to improve my long-term health and avoid disability? Are there exercises I can participate in that improve my sleep, pain, and mood after surgery? Intellectual pursuits, physical activity, and social interactions support cognitive reserve, while poor health, poor sleep hygiene, poor nutrition, and mental health disease can diminish reserve. Various interventions with different intensities and timing to augment cognitive reserve have been associated with positive outcomes on neuropsychological testing. Adaptive video gaming for as little as 10 hours leads to the maintenance of independence in activities of daily living and sustained improvements in speed of processing, attention, and working memory in older people. Likely through the increased cognitive reserve, perioperative brain exercise aims to protect against morbid cognitive recovery after surgery. Sleep is vital for memory and cognitive function. Poor sleep traits in older adults that are potentially modifiable, including short/long duration, daytime napping, and associated sleepiness, led to an almost 2-fold increase in delirium risk. Patients will complete an evidence-based course on healthy sleep habits and will complete guided exercises designed to restructure behaviors and thinking. They are encouraged to follow a set of recommendations to improve their sleep (e.g., optimal sleep duration, advice for habits such as daytime napping, maintaining a regular sleep schedule, avoiding caffeine, regular daylight exposure, dimming lights or electronics and relaxation and thought exercises for optimal sleep); many of these sleep behaviors have been strongly linked to increased risk for cognitive decline. Investigators propose that sleep optimization before AND after (an established best practice sleep bundle) surgical insult will contribute to cognitive reserve leading to decreased delirium risk and key patient-centered outcomes (postoperative sleep, pain, cognition, mood, and survival). Inadequate pain relief and opioids are both risk factors for delirium. Surgery on the chest is a significant pain source. Approximately 30-75% of patients suffer from moderate to severe pain in the postoperative period. Almost half of the patients have severe pain at rest, and three-quarters have severe pain during coughing and movement. Pain and inflammation are closely biochemically linked. Sleep, brain exercise, and adequate pain control with opioid-sparing can be additive or synergistic interventions to prevent delirium following heart surgery. Investigators propose three specific aims by conducting a 1:1 randomized controlled trial in 406 heart surgery patients 60 or older undergoing heart surgery. They will be administered perioperative sleep optimization, brain exercise training, and intravenous acetaminophen over 48 hours. A trained expert will administer the sleep and cognitive exercise protocols at least two weeks before surgery. This expert will handhold the patients for two weeks until the surgery. Thus, the gains made before surgery with better sleep quality and improved brain reserve will be sustained with postoperative pain control to lower the ongoing inflammation. Through this trial, investigators will evaluate if the SCOPE bundle can reduce 1) in-hospital delirium, 2) long-term (one, six, and twelve months) cognitive, physical, and self-care function, and 3) barriers to implementation of this bundle. Currently, no options are routinely available to patients to optimize their sleep and cognition before cardiac surgery. The proposed research is significant because it will be the first to test the bundled behavioral intervention approach (sleep optimization, brain exercise) before surgery with extended, scheduled pain management with non-opioids following surgery. The SCOPE trial will yield relevant and immediately actionable data to improve care for over 900,000 adults in the U.S. each year.
The purpose of this study is to determine whether giving omega-3 fatty acids prior to and after cardiac bypass surgeries decreases the incidence of postoperative delirium in patients aged 65 and over.
This study will be a pilot randomized controlled trial that will determine the effect of an indicator of delirium risk, which will be delivered either via a paper form or via the electronic medical record, on (1)postoperative delirium incidence; and (2)the development of long term cognitive decline and dementia.
The goal of this observational study is to learn the how to determine the mean arterial pressure(MAP) or blood pressure level to be maintained during non-cardiac surgery for optimal brain health in patients above the age of 60 undergoing major non-cardiac surgery. The main question\[s\] it aims to answer are: * Is there a way to tailor the blood pressure to be maintained in such patients during surgery for optimal brain health using non-invasive monitors that check the brains electrical activity, the electroencephalogram(EEG) monitor, and the brain's blood oxygen levels, the cerebral oximetry(CO) monitor? * How much does this optimal blood pressure level vary between patients? Participants will be asked to: * Complete a questionnaire at the time they enroll into the study, as well as a daily questionnaire to help determine their level of thinking and brain health. This questionnaire will be administered by a member of the study team. * They will also have an EEG and CO monitoring sticker placed on their foreheads. This will be connected to a monitor that will collect this data just before, during, and after their surgery. The data collected through these monitors will help us with our study goals.
The goal of this prospective cohort study is to assess potential differences in sleep biomarkers in older adult patients undergoing major orthopedic surgery. The main questions it aims to answer are: 1. To define sleep/circadian biomarkers of delirium (sleep duration, regularity, stability and timing of rhythm) in a prospective observational study. 2. To determine if plasma Alzheimer's disease (AD) pathology/inflammatory burden interacts with or moderates the relationship between a sleep/circadian biomarker and post-operative delirium (POD) risk. 3. To determine whether sleep/circadian regulation interacts with the genetic risk of AD to influence POD/cognitive decline. Participants will be asked to: 1. Donate several blood samples both intraoperatively and postoperatively 2. Complete baseline and postoperative neurocognitive assessments 3. Wear an actigraphy data collection watch for the two weeks prior to their surgery
Among patients with cognitive impairment (CI) that undergo surgery, the risk for developing postoperative delirium (POD) is high (50%) and associated with further morbidity and mortality. Yet, 30-40% of POD cases are preventable with perioperative management. This randomized pragmatic clinical trial aims to assess incidence of POD in adult surgical patients with CI, as well as provider adherence to a set of 12 perioperative best practice recommendations for perioperative management. Electronic health record (EHR) data will be used to identify patients as high risk for developing POD and clinical decision support (CDS) prompts within the EHR will display best practices. Cases will be randomized to either the control group, usual care or the intervention which includes the high-risk alert and best practice prompts.
The objective of this study is to test the effects of caffeine on neurocognitive and clinical recovery after major surgery. Specifically, this trial tests the primary hypothesis that caffeine will reduce the incidence of postoperative delirium.
The purpose of this research is to study pre-operative sleep problems and delirium in Hispanic/Latino patients after heart and lung surgery.
Our objective is to find an effective prophylactic intervention by evaluating IV acetaminophen's impact in reducing the frequency of postoperative delirium, one of the most common and detrimental complications of cardiac surgery in older adults.
B-FREE is a pragmatic, multicentre, cluster crossover trial evaluating whether a policy limiting the use of intra-operative benzodiazepine reduces post-operative delirium when compared with a policy of 'ad libitum' administration. The knowledge generated by this study will provide the basis for cardiac anesthesia practice guidelines.
The investigators are performing this research study to understand the role of sleep disturbance on the incidence/severity of delirium after surgery. The investigators will study the brain using a polysomnography device (PSG), which records the brain's electrical activity during sleep.
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.
In this study, post-operative delirium will be measured in patients undergoing surgery for bladder resection, and associated microRNA biomarkers will be evaluated in patients considered delirious and non-delirious after surgery.
The IPOD-B3 study aims to characterize the relationship between premorbid brain activity and postoperative delirium in patients undergoing major surgery. This is a expansion of the NeuroVISION Bolt-On study, NCT01980511.
In this study, we propose to use EEG and a brain imaging technique known as diffuse optical tomography (DOT) to study when people are in delirium and when they recovery. We plan to also compare brain function of patients who recovered from delirium to patients who did not have delirium using DOT and fMRI. We will also continually monitor the participant's EMR to help coordinate timing of study procedures, as well as to collect information pertaining to their surgery, recovery progress, and indicators of mental status including delirium.
Postoperative delirium is a significant public health concern, affecting up to 70% of elderly patients presenting for surgery. Furthermore, postoperative delirium is associated with increased mortality, persistent cognitive decline, increased hospital length of stay, and elevated healthcare costs. Unfortunately, there is a lack of evidence-based strategies that consistently and effectively reduce the risk of delirium. In fact, although the American Geriatrics Society has released guidelines for the prevention of postoperative delirium, the evidence supporting many of the proposed preventive measures has been deemed low quality. Cognitive training exercises have been shown to improve cognitive function and functional status in community-dwelling elderly adults, and benefits may last for several months to years. Specifically, training exercises have led to improved performance in attention, short-term memory, and visuospatial processing; all of which are implicated as clinical features of delirium. Cognitive training has also strengthened connectivity in brain networks implicated in postoperative delirium. Thus, given these specific neurological benefits afforded, preoperative cognitive training may provide protection against the development of postoperative delirium. As such, the aim of this pilot study is to assess the feasibility of implementing a preoperative cognitive training program for surgical patients at high-risk for delirium and other associated complications.
The IPOD-B2 Study aims to understand the pathogenesis of postoperative delirium in patients undergoing major surgery. The investigators will identify then correlate soluble biomarkers in blood and cerebral spinal fluid with changes in High Density-Electroencephalogram.
Up to 50% of patients over 60 years old develop postoperative delirium following cardiac surgery. Delirium increases morbidity and mortality, and may lead to long-term cognitive impairment similar to patients with a diagnosis of Alzheimer's disease. The underlying mechanisms behind delirium are not understood, and therefore the current prevention and treatment strategies are inadequate. Several hypotheses exist for the pathophysiology of delirium, one of which is the role of neuroinflammation. The stress associated with high-risk procedures such as cardiac surgery may lead to systemic inflammation causing endothelial dysfunction and disruption of the blood brain barrier (BBB). When this occurs, the brain is susceptible to neuronal injury via neuroinflammation after which a state of delirium may ensue. To characterize the mechanisms of neuroinflammation in delirium, the investigators will explore the biomarkers most closely linked to each step of the proposed pathway.
Postoperative delirium occurs in up to 65% of elders undergoing surgery for repair of a hip fracture and this complication is independently associated with increased morbidity, mortality, length of hospital stay, and placement in long-term care institutions. To date, the only intervention shown to be effective at minimizing postoperative delirium is a proactive geriatric consultation. This prospective randomized clinical trial will randomize 160 adults, aged 65 years or older, to either optimized general anesthesia or usual general anesthesia care for hip fracture surgery to determine if the optimized anesthesia management reduces the severity of postoperative delirium.
Investigators will assess the incidence and duration of postoperative delirium in patients ≥60 years old undergoing coronary artery bypass grafting (CABG), with/without valve surgery (aortic and/or mitral) based on different regimens for postoperative sedation and analgesia. Patients will receive either intravenous (IV) dexmedetomidine and IV acetaminophen or standard postoperative management using IV propofol with morphine or hydromorphone. The Confusion Assessment Method (CAM) will be used to assess delirium in these patients. Investigators also seek to compare postoperative (48 hours) analgesic requirements in patients with or without IV acetaminophen. Investigators will finally assess postoperative cognition in post-surgical patients up to one year post-discharge using a cognitive assessment scale.
Identification of specific circulating microRNAs and microemboli formation (diagnosed by TC Doppler) in both delirious groups and nondelirious group will be our primary target. Delirium assessment through standardized questionnaires will be done at baseline (day of the surgery - pre operatory), immediately after surgery (in post anesthesia care unit) and then every 12 hours in Day 1 and Day2 after surgery. The investigators will use linear mixed models to describe the change patterns overtime, and compare differences at each time point. Inflammatory biomarkers will be explored overtime as well. The investigators will also explore age effect on cognitive function - cognitive reserve - based on the score of the cognitive test administered at baseline.
Postoperative delirium is commonly observed in elderly patients in the postanesthesia care unit (PACU) and during the first 2-3 days following surgical procedures. This is an important clinical problem in the geriatric surgical patient; morbidity and mortality rates are significantly higher in patients who develop delirium. At the present time, the etiology of delirium has not been precisely defined. However, studies suggest that inflammation related to the surgical stress response is an important contributing factor in inducing neuroinflammation and subsequent cognitive dysfunction and delirium. Therefore it is possible that agents which attenuate perioperative inflammation may reduce the risk of the development of delirium following surgery. Dexamethasone is a potent corticosteroid that is used by anesthesiologists primarily as an antiemetic agent. Small doses of dexamethasone have also been demonstrated to significantly reduce the release of inflammatory markers after surgery. The anti-inflammatory effects of corticosteroids have the potential to beneficially impact neuroinflammation and the risk of developing postoperative delirium. The aim of this randomized, controlled, double-blinded investigation is to determine if dexamethasone, administered at induction of anesthesia, can decrease the incidence of delirium at the time of discharge from the PACU and during the first 2 days following surgery.
Recent limited evidence suggests that anesthetic depth may influence postoperative cognitive outcomes, however, the mechanism between this association is unclear.
Patients with a medical condition known as obstructive sleep apnea may be at increased risk of delirium following surgery. This study loans autotitrating CPAP machines to randomly-selected patients who are at high-risk for obstructive sleep apnea with the goal of preventing post-operative delirium.
Delirium (confusion) after surgery is common and associated with a longer hospitl stay and increased hopsital cost. There is very little information available about how often delirium occurs and the complications associated with it. Elderly patients are at high risk for delirium after surgery. This research is being done to measure how often delirium after spine surgery occurs and to see if there are ways to predict if delirium will develop. The results from this study will provide important information on a possible mechanism and predictor of delirium.
The purpose of this study is to determine whether preoperative administration of Rivastigmine prevents the incidence of postoperative delirium in patients undergoing major surgery as well as postoperative cognitive dysfunction.
In this study we wanted to determine if perioperative administration of olanzapine prior to knee or hip replacement surgery in high risk patients would prevent the onset of postoperative delirium.
The purpose of this chart review study is to determine whether the use of dexmedetomidine, a selective α2-adrenergic receptor agonist with sedative, analgesic, and antinociceptive properties, would be associated with a lower incidence of delirium when compared to propofol and midazolam. We hypothesize that sedation with dexmedetomidine following cardiac surgery with CPB will be associated with a lower incidence of postoperative delirium.
This will be a double blind, placebo-controlled study of patients ≥65 years of age undergoing surgery of the spine, hips and knees replacement at the University of California, San Francisco (UCSF) Medical Center. Intraoperative anesthetic and postoperative pain management will be standardized. Patients will be randomized to receive either placebo or gabapentin preoperatively, and continued postoperatively until discharge. Intraoperative anesthetic and other postoperative pain management strategies will be standardized. Postoperative delirium will be measured using structured interviews. Cognitive function will be measured using a battery of neurocognitive tests pre- and post-operatively. Using an intention to treat strategy, we, the researchers at UCSF, will compare the incidence of postoperative delirium and cognitive dysfunction, the amount of postoperative pain, and narcotic requirements between the two groups. The primary outcome will be postoperative delirium. Secondary outcomes will be postoperative pain and opioids use, and length of hospital stay, and cognitive dysfunction.
The goal of this phase 2 clinical trial is to demonstrate the feasibility of the current study methods and obtain preliminary data for an adequately powered trial of daridorexant with the aim of preventing delirium after heart surgery. The main aims this feasibility trial aims to answer are to demonstrate: (1) the feasibility of study recruitment; (2) the ability deliver study compounds to subjects according to the proposed methods; and (3) completeness of data capture; and (4) recording of potential adverse events. Participants will: (1) complete a baseline visit; (2) take the study drug--either daridorexant or placebo--each of the first 3 nights after heart surgery; and (3) be evaluated for sleep and delirium each of the first three days after heart surgery.