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"Got Guts" The Micro Version: The Effects of Simulated Gastroesophageal Reflux on Infant Pig Oropharyngeal Feeding Physiology
Manage episode 445139868 series 3332773
Join coauthor Chloe Edmonds in this insightful episode as she delves into her recently published paper, "The Effects of Simulated Gastroesophageal Reflux on Infant Pig Oropharyngeal Feeding Physiology." Chloe explores how simulating gastroesophageal reflux in an infant pig model reveals significant alterations in pharyngeal swallowing dynamics. Discover how the integration of esophageal afferents impacts motor outputs to the pharynx, leading to decreased swallow frequency and increased bolus sizes. This research not only sheds light on the mechanisms behind esophageal pathologies and oropharyngeal dysphagia but also highlights the potential for developing intervention strategies grounded in neurophysiology. Tune in for a deep dive into the implications of this work for both animal models and clinical practice!
Article Citation:
The effects of simulated gastroesophageal reflux on infant pig oropharyngeal feeding physiology Chloe E. Edmonds, Kaitlyn N. Robbins, Elizabeth G. Dvorak, Stephen P. Howe, Sarah A. Sheldon, Christopher J. Mayerl, Brianna A. Owairu, Brady M. Young, and Rebecca Z. GermanAmerican Journal of Physiology-Gastrointestinal and Liver Physiology 2024 327:1, G105-G116
39 episodios
"Got Guts" The Micro Version: The Effects of Simulated Gastroesophageal Reflux on Infant Pig Oropharyngeal Feeding Physiology
American Journal of Physiology-Gastrointestinal and Liver Physiology Podcast
Manage episode 445139868 series 3332773
Join coauthor Chloe Edmonds in this insightful episode as she delves into her recently published paper, "The Effects of Simulated Gastroesophageal Reflux on Infant Pig Oropharyngeal Feeding Physiology." Chloe explores how simulating gastroesophageal reflux in an infant pig model reveals significant alterations in pharyngeal swallowing dynamics. Discover how the integration of esophageal afferents impacts motor outputs to the pharynx, leading to decreased swallow frequency and increased bolus sizes. This research not only sheds light on the mechanisms behind esophageal pathologies and oropharyngeal dysphagia but also highlights the potential for developing intervention strategies grounded in neurophysiology. Tune in for a deep dive into the implications of this work for both animal models and clinical practice!
Article Citation:
The effects of simulated gastroesophageal reflux on infant pig oropharyngeal feeding physiology Chloe E. Edmonds, Kaitlyn N. Robbins, Elizabeth G. Dvorak, Stephen P. Howe, Sarah A. Sheldon, Christopher J. Mayerl, Brianna A. Owairu, Brady M. Young, and Rebecca Z. GermanAmerican Journal of Physiology-Gastrointestinal and Liver Physiology 2024 327:1, G105-G116
39 episodios
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