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Survival was tracked. Tumor tissue was collected after death and stained with hematoxylin and eosin, Masson's trichrome, terminal deoxynucleotidyl transferase dUTP nick end labeling and anti-CD8 stains for histology. RESULTS DC-vaccinated mice demonstrated stronger anti-tumor cytotoxicity compared with control groups on lactate dehydrogenase assay. DC vaccine mice also demonstrated decreased tumor volume, prolonged survival and increased ΔADC compared with control groups. On histology, the DC vaccine group had increased apoptosis, increased CD8+ T cells and decreased collagen. ΔADC negatively correlated with % collagen in tumor tissues. DISCUSSION Prophylactic DC vaccination may inhibit PDAC tumor growth during recurrence and prolong survival. N-Methyl-D-aspartic acid solubility dmso ΔADC may be a potential imaging biomarker that correlates with tumor histological features. Sleep disturbances, posttraumatic stress disorder, and traumatic brain injury are highly prevalent in military personnel and veterans. These disorders can negatively impact military performance. Although literature evaluating how posttraumatic stress disorder and traumatic brain injury directly impact military performance is limited, there is evidence supporting that these disorders negatively impact cognitive and social functioning. What is not clear is if impaired performance results from these entities individually, or a combination of each. Further research using standardized evaluations for the clinical disorders and metrics of military performance is required to assess the overall performance decrements related to these disorders. This article reviews the effects of obstructive sleep apnea on neurocognitive performance, proposed mechanisms of cognitive impairment, and the effects of continuous positive airway pressure on performance. Obstructive sleep apnea can affect several domains of neurocognitive performance to include attention and vigilance, memory and learning, psychomotor function, emotional regulation, and executive function. Proposed mechanisms include intermittent hypoxemia, sleep deprivation and fragmentation, hypercapnia, and disruption of the hypothalamic-pituitary-adrenal-axis. Continuous positive airway pressure can improve cognitive defects associated with obstructive sleep apnea. More data are needed to determine whether other therapies improve cognitive function. Published by Elsevier Inc.Insomnia is the most common sleep problem, affecting between 30% and 50% in the general adult population. Insomnia is characterized by difficulty initiating and maintaining sleep, along with dissatisfaction with sleep quality or quantity. Insomnia complaints are linked to clinically significant distress or impairment in key areas of functioning, especially daytime cognitive performance. Cognitive impairments related to insomnia are subtle, and may represent distinct differences from those seen in other sleep disorders. This article updates and summarizes the recent literature investigating cognitive impairments in individuals with insomnia, and identifies the cognitive domains of functioning that are consistently impaired. College students show high levels of insufficient sleep, excessive daytime sleepiness, sleep schedule irregularity, poor sleep quality, and inadequate sleep hygiene. This article describes the evidence linking poor sleep with impaired academic performance; discusses mediating environmental, behavioral, and demographic factors that correlate with sleep; and highlights examples of successful health promotion initiatives on college campuses. Given that students who are traditionally minoritized on college campuses tend to have worse sleep, improving sleep health emerges as an important issue for retention, equity, and inclusion. Research has characterized the sleep of elite athletes and attempted to identify factors associated with athletic performance, cognition, health, and mental well-being. Sleep is a fundamental component of performance optimization among elite athletes, yet only recently embraced by sport organizations as an important part of training and recovery. Sleep plays a crucial role in physical and cognitive performance and is an important factor in reducing risk of injury. This article aims to highlight the prevalence of poor sleep, describe its impacts, and address the issue of sport culture surrounding healthy sleep. Sleep has a widespread impact across different domains of performance, including sensorimotor function. From an ecological dynamics perspective, sensorimotor function involves the continuous and dynamic coupling between perception and action. Sport performance relies on sensorimotor function as successful movement behaviors require accurate and efficient coupling between perceptions and actions. Compromised sleep impairs different aspects of sensorimotor performance, including perceptual attunement and motor execution. Changes in sensorimotor performance can be related to specific features of sleep, notably sleep spindles and slow waves. One unaddressed area of study is the extent to which specific sleep features contribute to overall sport-specific performance. Given the critical role of sleep, particularly sleep slow oscillations, sleep spindles, and hippocampal sharp wave ripples, in memory consolidation, sleep enhancement represents a key opportunity to improve cognitive performance. Techniques such as transcranial electrical and magnetic stimulation and acoustic stimulation can enhance slow oscillations and sleep spindles and potentially improve memory. Targeted memory reactivation in sleep may enhance or stabilize memory consolidation. Each technique has technical considerations that may limit its broader clinical application. Therefore, neurostimulation to enhance sleep quality, in particular sleep slow oscillations, has the potential for improving sleep-related memory consolidation in healthy and clinical populations. Sleep is crucial for the proper functioning of bodily systems and for cognitive and emotional processing. Evidence indicates that sleep is vital for health, well-being, mood, and performance. Consumer sleep technologies (CSTs), such as multisensory wearable devices, have brought attention to sleep and there is growing interest in using CSTs in research and clinical applications. This article reviews how CSTs can process information about sleep, physiology, and environment. The growing number of sensors in wearable devices and the meaning of the data collected are reviewed. CSTs have the potential to provide opportunities to measure sleep and sleep-related physiology on a large scale.

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