View clinical trials related to Late Life Depression.
Filter by:The purpose of this study was to investigate the one-year trajectory of cognitive change in elderly patients with depression, to explore the transfer characteristics and transfer rules of various states of cognitive impairment in patients, to predict the relevant risk factors of cognitive decline, and to find possible influencing factors affecting state change, so as to provide a theoretical basis and reference for subsequent targeted intervention research on geriatric depression.
Perceived loneliness causes a global health burden on older adults. Mindfulness training may be a feasible solution. Through our study, we expect that comprehensive and convincing neuroscientific evidence may support the efficacy underpinning mindfulness training in loneliness reduction.
Transcranial magnetic stimulation (TMS) is a noninvasive brain stimulation technique, its approved therapeutic indication is high-frequency stimulation to the left dorsolateral prefrontal cortex (DLPFC) for treatment resistant.
Resistant Depression is a common condition in older adults and there is an urgent need for novel antidepressant in this population. Nitrous Oxide (N2O) has recently shown rapid antidepressant effect in midlife depression but no study has currently investigated the efficacy and safety of N2O in Late-Life Depression (LLD), while N2O may prove to be an ideal treatment for LLD because of glutamatergic antagonism and cerebrovascular effects and also a relatively good safety profile. The goal of our study is to compare changes in depressive symptoms after 2 hours, 24 hours, 1 week and 2 week of a 1-hour exposure to EMONO (Equimolar Mixture of Oxygen and Nitrous Oxide) versus Medical Air. Secondary Objectives include comparing differences in neuroimaging measures between 3 groups (responders and non-responders in the EMONO group, and patients in the control group).
Late-Life Depression (LLD), or depression in older adults, often presents with motivational deficits, deficits in performance in cognitive domains including processing speed and executive dysfunction, and mobility impairments. This triad of findings implicate dopaminergic dysfunction as a core pathophysiologic feature in depression, and may contribute to cognitive decline and motor disability. Normal aging results in brain-wide dopamine declines, decreased D1/D2 receptor density, and loss of dopamine transporters. Although brain changes associated with depression and aging converge on dopamine circuits, the specific disturbances in LLD and how responsive the system is to modulation remain unclear. In this study, investigators are testing integrative model that aging, in concert with pro-inflammatory shifts, decreases dopamine signaling. These signally changes affects behaviors supported by these circuits, in the context of age-associated cortical atrophy and ischemic microvascular changes, resulting in variable LLD phenotypes. Investigators propose a primary pathway where dopaminergic dysfunction in depressed elders contributes to slowed processing speed and mobility impairments that increase the effort cost associated with voluntary behavior. The central hypothesis of this study is that late-life depression is characterized by dysfunction in the dopamine system and, by enhancing dopamine functioning in the brain. By improving cognitive and motor slowing, administration of carbidopa/levodopa (L-DOPA) will improve depressive symptoms.