Background: In the past four to five decades, the field of swallowing science has made significant strides in the evaluation and treatment of swallowing disorders (dysphagia). Despite these strides, several gaps in knowledge remain and optimal approaches for dysphagia management have yet to be established. Part of this hindrance stems from our relatively limited understanding of the complex underlying swallowing mechanisms which further limits our ability to examine how these mechanisms may be altered in patients with dysphagia and how to optimally target them in therapy. To overcome this hindrance, it is critical that we develop sensitive new tools and methods that will allow for the precise and personalized examination of patients’ complex swallowing control and neurophysiological changes, and for the direct targeting of this control to improve treatment effectiveness. 

Summary: Herein, the advantages and limitations of current approaches in the study of swallowing biomechanics and central and peripheral swallowing control mechanisms are first summarized. Then, two examples of recent technological advances developed by the author’s multidisciplinary team are described, including an integrative MRI sequence that allows for the simultaneous examination of oropharyngeal swallow and brain activity (SimulScan), and a novel wearable surface electromyography sensor technology (i-Phagia) designed for swallowing rehabilitation monitoring. The current state, limitations, and future applications of both technologies are discussed. Upon optimization and validation, such technological advancements can offer unprecedented opportunities to gain direct and precise insights on the swallowing mechanism. Information gained from these and similar new technologies can act as a catalyst for the future development of optimized personalized dysphagia care. By leveraging advances in current methods, multidisciplinary collaborations, and new digital age technologies, the field of dysphagia can take the next giant leap forward in improving clinical care and patient lives. 

Key Messages: There is a critical need to develop sensitive new tools and methods that will allow for the precise and personalized examination of the complex swallowing mechanism and lead to the development of physiology-based and more effective interventions. The digital age is the ideal time to begin leveraging the technological advancements of fields such as imaging, electrophysiology, wearables, and machine learning to advance dysphagia research and practice. A new integrative MRI sequence and a novel wearable surface electromyography sensor technology developed by the author’s team are presented, as examples of recent technological advances that can play an important role in the future of personalized dysphagia care.

 

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