Biomechanical assessment of the esophagogastric junction and application of predictive analytics to enhance evaluation of functional dysphagia

Project: Research project

Project Details


Dysphagia is a commonly encountered symptom that accounts for more than one million outpatient visits per year.1 If a mechanical esophageal obstruction is not identified on endoscopy, an evaluation of esophageal motility with manometry is recommended.6 However, in more than 75% of patients evaluated with high-resolution manometry (HRM), a major esophageal motility disorder (such as achalasia) is not detected and an etiology for patients’ symptoms is not identified.7, 8 This often leads to a diagnosis of functional dysphagia.8 Clinical management of functional dysphagia can be challenging as mechanisms for symptom generation are poorly understood and therapeutic strategies are varied with inconsistent effectiveness. However, we hypothesize that ‘functional dysphagia’ may actually include a cohort with abnormalities in function that are not detected by the standard evaluation. Thus, methods to improve clinical characterization, and subsequently direct targeted therapies, in functional dysphagia are needed. A novel, FDA-approved and commercially-available device to evaluate esophageal motility is the functional luminal imaging probe (FLIP). The FLIP measures luminal diameters along the length of the esophagus in response to controlled distension. Distensive pressure is also measured which provides assessment of distensibility, i.e. the relationship of pressure and luminal dimensions. By shifting the focus from esophageal pressures as assessed with HRM to esophageal diameters and distensibility, FLIP provides a method to complement (or improve upon) the esophageal motility evaluation. Further, FLIP evaluates a novel property of esophageal function, the response to distension, which may have important consequences related to esophageal bolus clearance and symptom generation. Our lab developed a novel analysis paradigm (FLIP panometry) that simultaneously assesses esophagogastric junction (EGJ) opening and distension-induced esophageal contractility akin to esopha
Effective start/end date7/1/196/30/22


  • American College of Gastroenterology (ACG Scholar 2/21/19)


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