Anatomical parts of the Anti-Reflux Barrier
Ever wondered how your stomach contents defy gravity and don’t leak out when you hang upside down?
Knowing the anatomical parts of anti-reflux barrier helps explain this phenomenon and leads to a better understanding of why heartburn happens.
In Part I, we discuss the physical structures.
In Part 2, we get into the details of how they all work together forming the high pressure zone (HPZ).
|Esophagus||An organ in vertebrates which consists of a muscular tube through which food passes from the pharynx (throat) to the stomach. The esophagus is sometimes called the “gullet”|
|Respiratory Diaphragm||A dome-shaped muscle shelf extending across the lower rib cage. The diaphragm separates the thoracic cavity from the abdominal cavity. It is controlled by the phrenic nerve.|
|A small ring of smooth muscle fibers at the junction of the esophagus and stomach (also called cardiac sphincter, gastroesophageal sphincter).|
|Fundus||Upper portion of the stomach. This rounded part of the upper stomach allows for the accumulation of gases produced by chemical digestion.|
|Angle of His||Angle at which the esophagus enters the stomach. When intact, creates a valve that acts as a functional sphincter which helps prevents stomach acid from traveling back into the esophagus where it can cause GERD.|
|The term for the junction orifice of the esophagus into the stomach. At this level, the mucosa of the esophagus transitions into gastric mucosa.|
|Z-line||The squamocolumnar junction where the lining changes from white esophageal squamous tissue to red gastric columnar tissue. The line is irregular hence the name Z (zigzag) line. The lower esophageal sphincter is located in this area.|
|3 – 4 cm musculomucosal fold created by the oblique angle at which the esophagus enters the stomach. It opens only for swallowing and closes promptly. When competent and fully intact, it prevents the reflux of gastric contents up into the esophagus.|
GERD is a progressive disease with symptoms that start with occasional episodes of heartburn. As the anatomical structures and high pressure zone break down, the frequency and intensity of reflux symptoms increase. Click here to read Part II on how the HPZ is formed and its role in GERD.
*Note to GERD nerds: by calling this region the “Gastroesophageal junction” many clinicians point to the diseased state. The proper anatomical term is “esophagogastric junction” since medical terms should always indicate normal, proximal-to-distal flow.
A special thanks to Dr. Miranda providing these links to more terms that are relevant to this anatomy:
Dr. Efrain A. Miranda is the CEO of Clinical Anatomy Associates, Inc. A former professor of Neuroanatomy at the University of Chile Medical College, he also serves as an Adjunct Professor of Anatomy at the Cell Biology, Anatomy and Neuroanatomy Department of the University of Cincinnati College of Medicine. Dr. Miranda is an active member of the American Association of Clinical Anatomists and host of www.medicalterminologydaily.com
Debbie Donovan is in the marketing department and is editor of this blog. She’s also managing the GERDHelp social media channels where we post hot stories on heartburn, acid reflux, GERD, Barrett’s esophagus and esophageal cancer. Deb ice skates and likes routines with fancy footwork and spins.