2 Clinical Trials for Various Conditions
Progressive age-related cognitive deficits occurring in both AD and DS have been connected to the degeneration of several neuronal populations, but mechanisms are not fully elucidated. The most consistent neuronal losses throughout the progression of AD are seen in cholinergic neurons where these losses negatively affect cognition, particularly in attention, learning, and memory formation. Evidence of reduced cholinergic integrity in DS is largely limited to animal models and post-mortem human data. The investigators propose to use molecular, functional, and structural biomarkers to assess the cholinergic integrity in adults with DS. The investigators anticipate using the data gathered in this pilot study to inform future study designs to determine AD risk stratification in DS by identifying individuals who show an accelerated decline in cholinergic integrity that correlates with cognitive and neurobehavioral changes. Also, our cholinergic biomarkers may identify whether individuals with DS are likely to respond to pro-cholinergic interventions, including the novel cholinergic modulators that are being developed to enhance cholinergic-sensitive cognitive functioning. The investigators anticipate using the data gathered here to inform future treatment studies in TRC-DS and beyond where novel cholinergic treatments may offer opportunities for early intervention in DS and be complementary to disease-modifying approaches such as anti-amyloid treatments.
To explore the effects of Partial Body Weight Support (PBWS) within an enriched play environment for infants with Down Syndrome (DS), who are not yet walking, to better understand how PWBS may impact their mobility; exploration; and overall activity level. * Hypothesis1 A: Infants will demonstrate increased movement counts on an ActiGraph during intervention compared to a control phase. Hypothesis 1B: Infants will demonstrate a higher frequency of exploratory behaviors during the intervention as compared to a control phase. * Hypothesis 2: Infants will demonstrate an increased rate of improvement in Gross Motor Function Measure scores after the intervention compared to a control phase. * Hypothesis 3: Infants will demonstrate higher parent-reported mastery motivation on the Dimensions of Mastery Questionnaire after the intervention compared to a control phase.