Brain–gut connections in functional GI disorders: anatomic and physiologic relationships

  Understanding the neural regulation of gut function and sensation makes it easier to understand the interrelatedness of emotionality, symptom‐attentive behavior or hypervigilance, gut function and pain. The gut and the brain are highly integrated and communicate in a bidirectional fashion largely through the ANS and HPA axis. Within the CNS, the locus of gut control is chiefly within the limbic system, a region of the mammalian brain responsible for both the internal and external homeostasis of the organism. The limbic system also plays a central role in emotionality, which is a nonverbal system that facilitates survival and threat avoidance, social interaction and learning. The generation of emotion and associated physiologic changes are the work of the limbic system and, from a neuroanatomic perspective, the ‘mind‐body interaction’ may largely arise in this region. Finally, the limbic system is also involved in the ‘top down’ modulation of visceral pain transmission as well as visceral perception. A better understanding of the interactions of the CNS, ENS and enteric immune system will significantly improve our understanding of ‘functional’ disorders and allow for a more pathophysiologic definition of categories of patients currently lumped under the broad umbrella of FGID.