The goal of this clinical trial is to learn whether a tongue endurance exercise program can improve swallowing function in adults with dysphagia after a stroke. It also aims to explore how this exercise may affect brain structure and connectivity involved in swallowing. The main questions it aims to answer are: Primary Aim: Does lingual endurance exercise improve swallowing function compared to a sham therapy? Secondary Aim: Does lingual endurance exercise lead to changes in brain structure or neuroplasticity, as measured by MRI? Researchers will compare a group receiving tongue endurance exercises to a sham therapy group to see whether the treatment improves tongue function, swallowing. Participants will: * Complete a baseline swallowing assessment and MRI * Be randomly assigned to either the lingual exercise or sham therapy group * Complete 8 weeks of home-based tongue exercise therapy * Return for follow-up swallowing assessments * A subgroup of participants will complete a pre-treatment and post-treatment MRI.
This randomized, controlled clinical trial investigates the efficacy of a 8-week lingual endurance exercise program in adults with dysphagia following stroke. The study uses a two-arm, parallel-group design with participants randomized to either a lingual endurance exercise group or a sham therapy control group. Both interventions are delivered using a lingual manometer, which participants use at home under monitored conditions. The primary aim is to evaluate changes in oral-phase swallowing physiology using the Modified Barium Swallow Impairment Profile (MBSImP) Oral Total Score, as assessed through video-fluoroscopic swallowing study (VFSS). An exploratory aim will assess potential neuroplasticity associated with lingual endurance exercise using multimodal neuroimaging. Participants who meet MRI eligibility criteria undergo pre- and post-intervention imaging, including diffusion tensor imaging (DTI) to assess white matter integrity, high-resolution structural imaging for cortical thickness estimation, and functional MRI (task-based and resting state). Data will be used to evaluate intervention-related changes in regions associated with swallowing motor control and sensory integration. This study also supports the investigator's training in clinical trial methodology, swallowing outcomes analysis, and neuroimaging techniques, and will inform a future, fully powered efficacy trial.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
70
Pressing tongue against a pressure sensor at the set number of repetitions per session (individualized per participant) 3 times per day
Pressing tongue against pressure sensor at a low threshold (1-15kPa) 30x/day
University of Cincinnati
Cincinnati, Ohio, United States
RECRUITINGModified Barium Swallow Study Impairment Profile Oral Total (MBSImP OT Score)
MBSImP is a validated, standardized tool for assessing oral, pharyngeal, and esophageal swallowing function. We will be using change in OT score (sum of components 1-6) as our primary outcome measure.
Time frame: Change from Baseline (at the end of 8 weeks)
Pharyngeal Swallow Efficiency
Measurements via the ASPEKT method (Analysis of Swallowing Physiology: Events, Kinematics, and Timing) will be analyzed to compared pre and post treatment swallow efficiency. The amount will be presented as a percent of anatomical C2-C4 Scalar. Higher percentile, in general indicated greater impairment, however these will be compared to published normative data for reference.
Time frame: Change from Baseline (at the end of 8 weeks)
Penetration Aspiration Scale (PAS) Scores
8-point rating scale that is used to capture both degree and sensation of penetration and aspiration.
Time frame: Change from Baseline (at the end of 8 weeks)
Adherence
number of repetitions attempted/total number of repetitions prescribed
Time frame: At the end of 8 weeks
Pharyngeal Swallow Safety
Closure above the airway must be achieved for swallowing safety and in a timely manner. The ASPEKT method (Analysis of Swallow Physiology: Events, Kinematics and Timing) will be used to analyze changes of laryngeal vestibule closure pre and post treatment.
Time frame: Change from Baseline (at the end of 8 weeks)
Maximum Isometric Pressure imaging with video-fluoroscopy
Maximum isometric press will be recorded in kPa and with recorded imaging using video-fluoroscopy. This will be collected pre- and post-therapy to determine any changes in oropharyngeal movements with a lingual press.
Time frame: Change from Baseline (at the end of 8 weeks)
Dietary Intake (Average Daily Calorie Intake) Outcome
A pre treatment and post treatment 24 hour dietary recall will be collected in a subset or participants. This information will be used for estimating nutrient and food group intake to characterize usual diet and to assess changes over time. Nutrition Data Systems for Research (NDSR) (Nutrition Coordinating Center, University of Minnesota, Minneapolis, MN) software and foods database will be used to assess average daily energy (kJ) intake over 3 days
Time frame: Change from Baseline (at the end of 8 weeks)
Food Textures Consumed Outcome
A pre treatment and post treatment 24 hour dietary recall will be collected in a subset or participants. This information will be used for estimating nutrient and food group intake to characterize usual diet and to assess changes over time. Nutrition Data Systems for Research (NDSR) (Nutrition Coordinating Center, University of Minnesota, Minneapolis, MN) software and foods database will be used to assess the relative percentage (%) of dry texture food intake, on average, across three days
Time frame: Change from Baseline (at the end of 8 weeks)
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