Deep Neuromuscular Block on Postoperative Delirium in Lumbar Surgery
Lumbar Spine DiseaseThe effect of deep neuromuscular blockade (NMB) during spine surgery reduced postoperative pain and bleeding in recent studies. Therefore by reducing these two factors, which were the contributing factors for postoperative delirium, deep NMB is expected to reduce the postoperative delirium. This study was designed to determine whether the deep NMB lowered the incidence of delirium after lumbar surgery.
The Use of PARO to Decrease Agitation in Persons With Dementia and/or Delirium
DementiaDeliriumThis Clinical trial tests the efficacy of using the PARO robotic seal to decrease agitation in hospitalized older adults with dementia and/or delirium. This clinical trial also tests the efficacy of the cleaning protocol for the robot. This randomized control trial includes a one hour interaction with the PARO robot two days in a row compared to an attention control with the researcher sitting with the participant in their room for one hour two days in a row. The outcomes being evaluated include both qualitative and quantitative data. Qualitative data from videotaped interactions with the persons interacting with the PARO Robot include episodes of agitation, and emotional responses to the robot via facial expressions. The quantitative outcomes include the Agitation, use of 1:1 sitters, use of psychoactive medications and length of stay.
Managing Agitated Delirium With Neuroleptics and Anti-Epileptics as a Neuroleptic Sparing Strategy...
DeliriumEpileptics1 moreTo examine the effects of haloperidol, chlorpromazine, valproic acid and placebo, in conjunction with standardized non-pharmacologic interventions, in the first line treatment of agitated delirium in hospitalized patients with cancer. This double-blind, randomized clinical trial aims to provide evidence on various therapeutic options for palliating delirium, thereby reducing delirium-related distress and ultimately alleviating suffering.
Determining the Preliminary Efficacy of the Emergency Department Delirium Screening and Detection...
DeliriumDelirium occurs in up to 20% of older adults presenting to the Emergency Department (ED) and is associated with poor outcomes. Failure to identify patients with ED delirium not only prevents initiation of mitigation strategies, but is also a barrier to advancing the field in terms of evaluating management and clinical outcomes. This project studies the potential of an ED Delirium Detection Program (ED-DDP), developed to address the need for consistent and accurate ED delirium detection. This research will have two objectives: Aim 1 will conduct a pilot stepped wedge cluster randomized trial (SW-CRT) of the ED-DDP across 3 diverse EDs to determine preliminary efficacy of the detection training program, and Aim 2 will use a mixed methods approach to assess RE-AIM implementation outcomes (Reach, Efficacy, Adoption, Implementation, and Maintenance) of the training program. Aim 1 will consist of a multicomponent 1-day delirium champion workshop where the training is delivered, real-time direct observation/training of champions via telehealth, practical training of nurses throughout each ED by champions, and patient chart review. In Aim 2, the investigators will assess implementation outcomes using training logs, tele-observation, interviews with champions and nurses, and electronic medical record screening. The overarching aim of this proposal is to determine the preliminary efficacy of the training program for improving ED delirium screening, detection, and management in older adults, while also evaluating implementation outcomes of the program for champions/nurses. The investigators will use findings from this study to inform a full-scale SW-CRT to evaluate the impact of the program on patient outcomes at Northwell Health. The long-term goal of this study is to implement and disseminate a comprehensive ED-DDP that will improve screening, detection, and management of ED delirium in older adults.
Sleep and Circadian Rhythm Biomarkers of Postoperative Delirium
DeliriumPostoperative2 moreThe 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: To define sleep/circadian biomarkers of delirium (sleep duration, regularity, stability and timing of rhythm) in a prospective observational study. 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. To determine whether sleep/circadian regulation interacts with the genetic risk of AD to influence POD/cognitive decline. Participants will be asked to: Donate several blood samples both intraoperatively and postoperatively Complete baseline and postoperative neurocognitive assessments Wear an actigraphy data collection watch for the two weeks prior to their surgery
Prediction Model of Long-term Cognitive Dysfunction and Delirium After Cardiac Surgery
DeliriumCognitive DysfunctionDelirium is a clinical syndrome caused by normal dysfunction of the brain, characterized by reduced awareness and responsiveness to the environment, as well as orientation disorders, incoherent thinking and memory disorders. Delirium indicates poor recovery of cognitive function, decreased ability of daily life, may need to enter nursing homes, and even lead to adverse outcomes such as death. According to a number of clinical studies, middle-aged and elderly people are prone to delirium after undergoing major surgery. Delirium occurs in 31 % -40 % of patients over 50 years old after cardiac surgery. Compared with patients without postoperative delirium, patients with postoperative delirium had significant cognitive impairment within 1 year after cardiac surgery. The occurrence of delirium suggests that the patient 's brain has become fragile, cognitive function has begun to decline, and the risk of future dementia has increased. Secondly, delirium and dementia have overlapping clinical features and common pathogenic mechanisms. Some scholars even speculate that delirium and dementia represent different stages of a common process. It is generally believed that the peripheral immune system may be involved in the pathogenesis and progression of dementia through the dysfunctional blood-brain barrier. The activation of microglia and astrocytes leads to the release of chemokines, which can recruit peripheral immune cells to the central nervous system. At the same time, cytokines released by peripheral cells can cross the blood-brain barrier and act on glial cells to change their phenotype. This study is a prospective cohort study of patients aged 65 and over who are about to undergo elective cardiac surgery.CyTOF can achieve accurate immunophenotyping of cell populations while comprehensively and accurately detecting and analyzing cytokines and signaling pathways. Therefore, the detection of peripheral blood biomarkers may effectively predict the risk of long-term cognitive dysfunction and postoperative delirium in patients undergoing cardiac surgery.
Circadian Rhythm and Delirium in ICU
Circadian RhythmSleep Quality1 moreThe study aims to investigate the status of circadian rhythm and sleep quality in ICU patients and their influence factors. And explore the pathway of circadian rhythm on ICU delirium. The hypothesis of study is that icu patients experience circadian and sleep rhythm disorder, especially in patient who have delirium.
Association of Frailty and Delirium in Elderly Hip Fracture Patients
Delirium in Old AgeFrailtySeveral studies have shown that frailty can be used as a marker for risk of adverse outcomes in elderly patients such as falls, disability, hospitalization, mortality, and can be used to predict patient clinical outcomes. The purpose of this study is to determine whether preoperative frailty can be used as a diagnostic and predictive factor for postoperative delirium in elderly patients with hip fracture.
Early Fall Risk Detection and Fall Prevention Among Inpatients With Delirium
Delirium in Old AgeDelirium Superimposed on Dementia2 moreDuring delirium patients are at risk of severe harm due to unattended bed-exits resulting in falls. This research intends to explore how effective alarming contact mats (CareMat®) in comparison to contactless bed-exit alarming devices (Qumea®) are to reduce the risk of unattended bed-exits and falls.
Sepsis Associated Encephalopathy (SAE) Biomarkers
SepsisAltered Mental Status4 moreSepsis 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.