View clinical trials related to Gait Impairment.
Filter by:Growing evidence suggests that dopamine contributes to key cognitive, emotional, and motor functions across the lifespan. In Late-Life Depression (LLD), dysfunction in these areas is common, predicts poor outcomes, and manifests as difficulties in motivation and effort along with cognitive and gait impairment. While studies of dopamine function in early and midlife depression primarily focus on individuals' ability to feel pleasure and respond to rewards, they often exclude the cognitive and physical function domains relevant for older adults despite a recognized decline in dopamine function with normal aging. The objectives of this collaborative R01 proposal between Columbia University/New York State Psychiatric Institute and Vanderbilt University Medical Center are to: 1) characterize dopaminergic dysfunction in LLD across cognitive, emotional, and motor domains at several levels of analysis (cellular Positron Emission Tomography [PET], circuit Magnetic Resonance Imaging [MRI], and behavioral / self-report); and 2) examine the responsivity of dopamine-related circuits and behavior to stimulation with carbidopa/levodopa (L-DOPA).
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.
The balance, gait and pain in Chronic Obstructive Pulmonary Disease (COPD) study will aim to investigate the link between balance and gait impairment, and high rates of pain in people with COPD. This cross-sectional observational study will compare balance and gait outcomes for people with COPD who have pain, to those who are pain free.
Stroke affects upwards of 800,000 Americans every year and has an enormous impact on the well-being of the American Veteran population with 6,000 new stroke admissions every year. Many of these stroke survivors are living with walking disabilities. Gait problems result in inability to function independently, high risk of falls and poor quality of life. Unfortunately, current gait rehabilitation treatments are limited and many stroke survivors do not achieve full recovery. Therefore, it is critical to develop new approaches to enhance gait rehabilitation methods. The investigators propose to evaluate a brain stimulation treatment called transcranial Direct Current Stimulation (tDCS) that can be added to physical therapy. tDCS has been applied for arm rehabilitation after stroke with positive results, but gait-related investigations are lacking. The investigators will test whether simultaneous tDCS and gait training produces greater improvement in walking abilities than gait training alone. Adjunct tDCS therapy may improve outcomes, and reduce cost of both rehabilitation and post-stroke care.
Alzheimer's Dementia (AD) contributes to poor balance, impaired gait and functional status, thereby, increasing the risk of falls. AD is an independent risk factor for hip fractures. Those with balance problems and gait impairments are at higher risk for long term placement and death related to falls. Exercise interventions improve gait and balance in the elderly. In participants with existing AD, physical activity has shown to prevent further cognitive decline and improve quality of life and prevent falls. However, it is difficult to engage patients with AD in long term exercise programs. The expense of physical therapy limits its easy accessibility. Use of everyday technology might bridge this gap by providing high level of engagement via the use of multimedia while providing a cost-effective alternative. Wii Fit is one such multimedia platform. Wii fit is a Nintendo gaming console used for aerobics, strength training and balance activities. This device includes a balance board that senses weight and shifts in movement and balance. Virtual trainers talk the user through the activity while tracking the user's progress. The investigators propose an 8-week prospective randomized study with the treatment group receiving the exercise program delivered by Wii-Fit system and the comparison arm receiving a walking exercise program in a community dwelling setting. Subjects in each arm will participate for 30 minutes daily five days a week.
The purpose of this research study is to examine whether Methylphenidate (MPD) can result in improvement of gait (walking) in a population of Parkinson's Disease (PD) patients whose main disability is freezing of gait. MPD (Ritalin®) is a drug which can excite or stimulate certain systems of the body that control motor function. This drug is FDA approved for the treatment of attention hyperactivity disorder, a condition unrelated to PD. The researchers hypothesize that daily treatment with a tolerable daily oral dose of MPD will improve gait velocity, stride length, cadence, and decrease freezing of gait, 3 months from treatment initiation in patients with moderately advanced PD, whose gait impairment is an important source of disability despite optimized antiparkinsonian treatment.