R01AG085564

Mechanisms of Swallowing Dysfunction and Rescue in a Translational Rat Model of Alzheimer's Disease - Abstract

Dysphagia is a major consequence of Alzheimer's disease (AD) that is understudied and thus undertreated despite high prevalence and high cost to health care systems. Pathology in AD (inflammation, amyloidosis, phosphorylated tau) occurs in the central and peripheral nervous systems early in disease progression and in brain regions and muscle systems associated with swallowing functions.

Barriers to effectively treating dysphagia in AD are the lack of: (a) an understanding of central and peripheral pathology associated with dysphagia, and (b) controlled studies of interventions at crucial timepoints, including early versus later in the disease process. The proposed research is significant in addressing these barriers and rigorous in that we will apply established translational research approaches currently used in our labs in models of aging and Parkinson's disease.

Our scientific premise is that pathology in AD occurs in the central and peripheral nervous systems early in disease progression and that exercise interventions can mitigate deficits induced by the presence of pathology and potentially change the course of sensorimotor decline in function. Because tongue muscles are primary actors in the swallowing process, our central hypotheses are that pathology manifests in tongue muscle and brainstem, subcortical, and cortical regions associated with oropharyngeal swallowing and that early implementation of tongue exercise leads to better swallowing outcomes.

We will gain insight into mechanisms by using the well-established TGF344-AD rat model and conducting physiological, morphological, bioenergetic, neuroimaging, and behavioral assays in the brain and tongue muscles. Feasibility data show the oromotor and swallowing dysfunction, evidence of inflammation in the brainstem, and increased beta-amyloid in brain regions associated with swallowing in 12-month-old TGF344-AD rats.

The tongue exercise intervention is modeled after those used in clinical practice. However, these clinical protocols are not optimized due to barriers in human research, such as presence of co-morbidities, adherence confounds, and limited access to tissues. Aim 1 will test the hypothesis that TGF344-AD rats demonstrate deficits in oromotor and swallowing behaviors and manifest pathology in tongue muscles and brain structures critical to swallowing function. Aim 2 will test the hypothesis that early implementation of tongue exercise improves oromotor and swallow function and modulates pathology in TGF344-AD rats.

This research is innovative and will provide a new understanding of mechanisms that underlie swallowing deficits in AD, query relationships among relatively unexplored AD pathology and physiological function in swallow-related systems, and establish the effectiveness of early versus late tongue exercise intervention for AD. Rehabilitation is often not provided to patients with AD due to uncertain benefit. To advance evidence-based treatment, we must provide preclinical data. This foundational work has a high impact because of the large and increasing population of people with AD-associated dysphagia who can benefit from treatments optimized in the proposed studies.

University Of Wisconsin System

NOT APPLICABLE

93.866 - Aging Research

National Institute on Aging (NIA) [HHS - NIH]

Madison, Wisconsin 53715 United States

Single Zip Code

NIH Research Project Grant (Parent R01 Clinical Trial Not Allowed) (PA-20-185)

Amendment Since initial award the total obligations have increased 297% from $768,119 to $3,053,249.