The Mito-Frail Trial: Effects of MitoQ on Vasodilation, Mobility and Cognitive Performance in Frail Older Adults

Overview

The goal of this clinical trial is to test the effects of MitoQ supplementation in older adults and frail older adults with physical dysfunction and/or cognitive dysfunction. The main question\[s\] it aims to answer are: * To compare vascular function, oxidative stress levels, and physical and cognitive function among older adults and frail older adults with physical and cognitive dysfunction * To determine whether MitoQ supplementation has the potential to improve vascular function in central and cerebral vessels * To determine whether MitoQ supplementation can enhance physical and cognitive capabilities.

Chronic diseases and associated declines in physical and cognitive performance contribute greatly to lost independence with aging. In addition to a lack of effective interventions other than exercise to address either problem, few studies have examined strategies for targeting both conditions in frail individuals who may experience difficulties with both walking and memory. Use of geroscience-guided therapies permits us to target mechanisms shared by aging with chronic conditions for which aging represents a major risk factor. Thus, instead of focusing on one single disease at a time, it may be possible to delay the onset and progression of disability involving multiple functional domains. Gait speed is predictive of mobility, morbidity, and mortality in older adults. Vasoreactivity is a critical cerebrovascular control mechanism used to maintain brain perfusion during metabolic demands such as walking. In contrast to healthy older adults, middle cerebral artery blood flow velocities fail to increase proportionally in response to walking speed in slow walkers. Thus, abnormalities in vasoreactivity and perfusion adaptation to metabolic demands may reflect and contribute to declines in gait speed. Mild cognitive impairment (MCI), an intermediate condition between normal cognitive performance and dementia, significantly increases the risk of transitioning dementia caused by Alzheimer's disease (AD). Moreover, changes in physical and cognitive function frequently co-exist in the same individual and influence each other. In the absence of other effective therapies, modifiable cardiovascular risk factors (e.g., hypertension, atherosclerosis, cerebral hypoperfusion) represent opportunities to prevent declines in physical and cognitive function by targeting the vascular endothelium and vasodilation. Physiological reactive oxygen species (ROS) levels play critical roles in cerebral vasculature, which can contribute to the regulation of brain perfusion through their action in vascular tone control. Of the many potential cellular sources of ROS in the vasculature, mitochondria are the major source in endothelium regulation of vascular homeostasis and are associated with aging and cardiovascular disease. Specifically, mitochondrialtargeted antioxidant, MitoQ, improves vascular endothelial function by reducing mitochondrial ROS (mtROS) in older adults and animal models. Investigators have recently shown that MitoQ, a mitochondria-targeted antioxidant known to improve endothelial function and Nitric Oxide (NO) bioavailability, also restore impaired flow-mediated vasodilation in frail older adults, enhancing gait speed. In the Mito-Frail study, investigators will explore the hypothesis that MitoQ attenuates aging-related declines in flow-mediated vasodilation involving both peripheral and cerebral blood vessels. At the same time, investigators will obtain feasibility and pilot data involving measures of physical mobility and cognitive performance that may help us design and power a future clinical trial. Thus, this study will seek to develop strategies for preventing or slowing the progression of Alzheimer's Disease and the vascular contribution to dementia. Therefore, Aim 1 will assess peripheral and cerebral NO bioavailability and mitochondrial reactive oxygen species (mtROS) levels in older adults who are healthy, others who are frail with slow walking speed and those who meet criteria for mild cognitive impairment (MCI). Aim 2 will determine whether MitoQ supplementation can enhance NO bioavailability and improve declines in flow-mediated vasodilation central and cerebral vessels. Moreover, this study will also generate physical performance and cognitive data needed to design and power a future clinical trial focused on these functional outcomes.