"Got Guts" The Micro Version: Electromechanical Coupling of the In-Vivo Pylorus

Update: 2024-11-01

Description

Join coauthors Sam Simmonds, Ashton Matthee, and Timothy R. Angeli-Gordon as they delve into their recently published research, "Electromechanical Coupling and Anatomy of the In Vivo Gastroduodenal Junction." In this episode, they explore cutting-edge techniques like electrical mapping, impedance planimetry, and histological analysis to investigate the complex dynamics of the gastroduodenal junction. Discover how contractions in the terminal antrum and pyloric sphincter correlate with gastric slow waves, while the duodenum experiences bursts of spike activity that trigger oscillating contractions. The team discusses their intriguing hypothesis regarding the relative scarcity of myenteric interstitial cells of Cajal in the pylorus, which may hinder coupling between antral and duodenal slow waves.

Electromechanical coupling and anatomy of the in vivo gastroduodenal junction
Sam Simmonds, Ashton Matthee, Jarrah M. Dowrick, Andrew J. Taberner, Peng Du, and Timothy R. Angeli-Gordon

American Journal of Physiology-Gastrointestinal and Liver Physiology 2024 327:1, G93-G104

Comments

In Channel

Cinnabarinic acid protects against metabolic dysfunction-associated steatohepatitis by activating Aryl hydrocarbon Receptor-dependent AMPK signaling

2025-09-0808:39

Uncovering the Gut-Adipose-Liver Axis: Microbiota Encroachment and Metabolic Dysfunction in MASLD

2025-07-2409:37

Modeling Eosinophilic Esophagitis: Insights from Mouse Models into Mechanisms and Therapies

2025-07-2410:47

Probiotics, Tryptophan, and Gut Health: How L. rhamnosus GG Remodels Arginine Metabolism to Protect the Barrier

2025-07-2409:11

Dietary Fibers and Gut Signals: How Fructooligosaccharides Modulate Colonic Motility via Calcium and 5-HT3 Receptors

2025-07-2409:59

Unraveling Appetite: The Microbiota-Brain Connection Across the Lifespan

2025-05-2210:16

Unraveling Fabry Disease: Lyso-Gb3’s Role in Gut Physiology

2025-04-1412:22

Got Guts: A Chance to Put Liver Biopsy Back to Its Former Glory?

2025-03-1306:37

"Got Guts" The Micro Version: Pacing Inhibits Slow Wave Dysrhythmias in the Intestine

2025-02-2107:25

"Got Guts" Special Episode: The GI and Liver Section at the 2025 American Physiology Summit

2025-01-2320:09

"Got Guts" The Micro Version: Electromechanical Coupling of the In-Vivo Pylorus

2024-11-0113:02

"Got Guts" The Micro Version: Effect of amniotic fluid on the esophageal epithelium

2024-10-1507:50

"Got Guts" The Micro Version: The Effects of Simulated Gastroesophageal Reflux on Infant Pig Oropharyngeal Feeding Physiology

2024-10-1407:20

"Got Guts" The Micro Version: Autoimmune liver disease and hormonal responses

2024-09-2705:56

"Got Guts" The Micro Version: Inhibitory neurotransmission in the internal anal sphincter

2024-09-0608:43

"Got Guts" The Micro Version: Mechanical Stress-induced Connective Tissue Growth Factor and Intestinal Fibrosis

2024-08-2308:25

"Got Guts" The Micro Version: Characterization of Rat Gastric Slow Wave Activity

2024-08-1408:29

"Got Guts" The Micro Version: Implicating the Cholecystokinin B Receptor in Liver Stem Cell Oncogenesis

2024-06-2104:39

"Got Guts" The Micro Version: Corticotropin-Releasing Hormone Effects on Gastric Function

2024-06-0706:26

"Got Guts" The Micro Version: Effects of L. Casei-Fermented Milk on Mice with DSS Colitis

2024-05-2407:07

00:00

"Got Guts" The Micro Version: Electromechanical Coupling of the In-Vivo Pylorus

#box-pro-ellipsis-175809402041873{-webkit-line-clamp:2;}"Got Guts" The Micro Version: Electromechanical Coupling of the In-Vivo Pylorus

"Got Guts" The Micro Version: Electromechanical Coupling of the In-Vivo Pylorus

ajpgi

"Got Guts" The Micro Version: Electromechanical Coupling of the In-Vivo Pylorus