View clinical trials related to Aged.
Filter by:White matter hyperintensity (WMH) has been found to be related with cognitive and emotional dysfunction. A presumed mechanism is that WMH disrupts the structural connectivity within a large-scale brain network, thereby impairing the brain's ability to integrate the neural processes efficiently. It is not yet clear, what the pattern of brain network disruption relates to WMH and how the brain network disruption induced by WMH has an effect on cognition and emotion performance. Using multi-model magnetic resonance imaging (MRI) techniques, we aimed to explore the mechanisms of cognitive decline and depression related with brain network dysfunction in patients with WMH, and to provide objective imaging marker for early diagnosis and prevention of WMH associated cognitive decline and depression.
In this study the investigators will incorporate a wide range of clinical variables associated with aging and cardiovascular disease to determine whether they are associated with mutation status independent of chronologic age. Clinically, aging can be operationalized using geriatric assessment, which entails a comprehensive multi-dimensional assessment of the health of an older adult, including measures of comorbidity, polypharmacy, functional status, cognition, depression, falls, social activities and social support. Given that aging is heterogeneous, geriatric assessment allows greater specificity for aging than chronological age alone.
Advances in medical care have increased the proportion of elderly Americans and enabled them to remain more physically active. This has resulted in an unprecedented increase in the number of geriatric patients admitted to trauma centers. The elderly constitute 23% of trauma center admissions, but 36% of all trauma deaths. This disproportionately high mortality is attributable to a higher prevalence of pre-existing conditions, particularly, cardiac disease. Multi-system injuries result in critical cardiac stress. Although beta-blockade has been shown to decrease morbidity and mortality in patients at risk for myocardial infarction after elective surgery, their use in trauma patients with potential underlying cardiac disease has not been previously studied. We hypothesize that routine administration of beta-blockers after resuscitation will reduce morbidity and mortality in elderly trauma patients with, or at risk for, underlying cardiac disease. This study is a randomized, prospective clinical trial. One cohort will receive routine trauma intensive care, and the other, the same care plus beta-blockade after completion of resuscitation. The primary outcome will be mortality. Secondary outcomes include MI, length of stay, organ dysfunction, cardiac, and other complications. Changes in outcome may not be due to reduction in myocardial oxygen demand and heart rate. Laboratory studies demonstrate that circulating inflammatory cytokines contribute to cardiac risk in trauma patients, and their production is influenced by adrenergic stimulation. We will measure circulating IL-6, TNF alpha, IL-1beta, and measure NF-kB and p38 MAP kinase activation in peripheral blood leukocytes, and determine the effect of beta-blockade on the production of these inflammatory markers. Finally, the wide variation in patient response to beta-blockers is attributed to genetic variability in the adrenergic receptor. Therefore, we will identify single nucleotide polymorphisms (SNPS) within the beta-adrenergic receptor, and determine their effects on mortality and response to beta-blockade. This study will provide the first randomized, prospective trial designed to reduce morbidity and mortality in elderly trauma patients at risk for cardiac disease. The laboratory and genetic component will provide additional insights that may explain treatment effects, lead to new therapeutic strategies, and have the potential to lead to additional areas of investigation.