<ol> <li>Luminal Chemoreceptors and Intrinsic Nerves- Key Modulators of Digestive Motor Function</li> <li>Comparative and evolutionary aspects of the ENS</li> Exploring synaptic transmission in the ENS: electrophysiology, functional studies and modelling <li>Mucosal Serotonin</li> <li>Ca2+ signaling in Interstitial cells of Cajal: The mechanistic basis for many GI motility behaviors</li> <li>Identifying types of neurons in the enteric nervous system</li> <li>Clinico-Pathological Features of severe gut dysmotility</li> <li>Purinergic signaling in the ENS</li> <li>Myogenic and neural control in concert</li> <li>colonic response to physiological and chemical stimuli</li> <li>Molecular targets to alleviate enteric neuropathy and gastrointestinal dysfunction</li> <li>The emerging role of the gut-brain microbiota axis in neurodevelopmental disorders</li> <li>A view on how enteric neurons monitor luminal content</li> Interaction of the microbiota and the developing ENS <li>Influence of the circadian rhythm on enteric nervous system function</li> <li>Mechanosensitive Enteric Neurons (MEN) at work</li> <li>Neurogenetic investigation of the ENS and gut motility</li> <li>The shaggy dog story of enteric signaling: serotonin, a molecular megillah</li> <li>Contribution of enteric neuroglial remodelling to inflammatory bowel disease and cancer evolution</li> <li>Examining cellular metabolism in the enteric nervous system</li> <li>Embryonic development of motility: a bottom-up approach to the workings of the intestine</li> Quantitative analysis of intestinal movements with spatiotemporal maps <li>The roles of Mas related G-protein coupled receptors in the gut</li> <li>Refining Enteric Neural Circuitry by Quantitative Morphology, Transcriptomics and Function in Mice”</li> <li>Extrinsic modulation of enteric circuits that regulate colon function in health and disease</li> <li>Activating and Modeling ENS Circuits in Mouse Colon</li> Neurons, macrophages and glia: the role of intercellular communication for gut motility <li>Modelling development of the ENS: What's been done and what's next</li> <li>Epithelial 5-HT4 receptors as a target for treating constipation and colitis</li> <li>Activity in Enteric Neural circuits underlying propulsion</li> <li>Contribution of the ENS to autoimmune diseases and irritable bowel syndrome</li> </ol>
