Tongue Pressure Resistance Training for Swallowing Impairment Post-Stroke

Overview

For patients who have suffered a stroke, tongue strength may be decreased compared to healthy individuals. Research on strengthening the tongue in the stroke population has shown positive effects of a tongue resistance training protocol. Research also suggests that swallow safety, or protection of the airway, may be improved as a result of such interventions, however the mechanism of improvement remains poorly understood. This study aims to determine what aspects of the swallowing mechanism (response time, movement, etc. of different structures) are directly impacted in order to provide guidance to clinicians using such treatments.

Swallowing dysfunction (dysphagia) following stroke results from damage to sensory and motor nerve pathways, impairing muscular physiology and impacting swallow timeliness and airway closure. People with dysphagia experience impaired swallowing safety (entry of food or liquid into the airway - aspiration) and/or impaired swallowing efficiency (food or liquid remaining in the oropharyngeal cavities after the swallow - residue). People with dysphagia following stroke are more likely to experience aspiration pneumonia, which has been associated with higher mortality rates. The tongue functions to contain food and liquid within the oral cavity before the bolus moves into the pharynx. The tongue generates the primary driving forces, which carry the bolus through the pharynx; consequently, impairments in tongue function can affect both swallowing safety and efficiency. For people who have experienced a stroke, lingual strength is decreased compared to healthy participants. Tongue pressure resistance training has been utilized as an intervention in this population, and has been shown to positively influence tongue strength. It remains unclear whether changes in tongue pressure impact swallowing mechanisms, safety, and efficiency for patients who complete these interventions. In particular, the impact of tongue pressure resistance training on swallow timeliness (swallow onset timing, airway closure reaction time, speed of hyolaryngeal movement) remains unknown. This study will be a randomized trial of tongue pressure resistance training in people with tongue weakness and impaired swallowing safety post-stroke. The goal is to understand the physiological changes that occur as an outcome of tongue pressure resistance training and their relationship to swallowing safety and efficiency. Additionally, the impact of a training protocol involving a home practice component to delineate the impact of patient-driven practice will be explored. A sample of approximately 40 patients will be enrolled. Participants will complete an 8-week program involving a 4-week course of tongue-pressure resistance training and a 4-week no-treatment phase. Participants will be randomized either to an immediate treatment group (followed by a 4-week post-treatment detraining phase) or to a delayed treatment group involving a 4-week waiting period prior to beginning training. Swallowing outcomes will be measured based on videofluoroscopic swallowing studies (VFSS) performed at baseline, 4-weeks and 8-weeks post enrollment. The tongue pressure resistance training program will involve practice of tongue-palate pressure generation tasks and swallowing tasks, with biofeedback provided using the Iowa Oral Performance Instrument (IOPI).