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Hormones Secreted by the Stomach01:25

Hormones Secreted by the Stomach

2.8K
Enteroendocrine cells, accounting for only 1% of stomach epithelial cells, play a significant role in digestion and are classified by their digestive hormone secretions.
Each of these hormones secreted by different enteroendocrine cells plays a unique role in digestion. Here are a few examples:
2.8K
Gastric Phase of Digestion01:26

Gastric Phase of Digestion

4.0K
The gastric phase of digestion begins as soon as food enters the stomach. The incoming food bolus triggers neural and hormonal mechanisms, which last approximately 3 to 4 hours. During this phase, the stomach undergoes significant changes to prepare the food for further digestion and absorption.
When food enters the stomach, it stretches the stomach walls and activates stretch receptors. This triggers local reflexes of the enteric nervous system, mediated through the myenteric plexus. These...
4.0K
Gastric Emptying01:16

Gastric Emptying

5.3K
Gastric emptying occurs when the stomach gradually releases chyme into the duodenum. When the stomach is distended, it triggers the release of gastrin, a hormone that promotes gastric acid secretion to aid in digestion. Additionally, stomach distension contributes to peristaltic waves that propel gastric contents toward the pyloric region. The gastroenteric reflex, on the other hand, primarily stimulates peristalsis in the intestines, facilitating the movement of contents further along the...
5.3K
Intestinal Phase of Digestion01:29

Intestinal Phase of Digestion

9.9K
The intestinal phase of digestion is the third and final stage of the digestive process, occurring after the cephalic and gastric phases. It begins when chyme, a partially digested mixture of food and digestive enzymes, enters the small intestine from the stomach. This phase is crucial for nutrient absorption and involves complex hormonal and enzymatic interactions.
The arrival of the chyme in the small intestine distends the duodenum, which triggers the enterogastric reflex. This distension...
9.9K
Gastric Motility01:16

Gastric Motility

4.4K
Gastric motility is the coordinated contraction and relaxation of stomach muscles that convert ingested food into chyme, a semi-liquid substance ready for further digestion in the intestines. The process begins with the vagus nerve inducing the relaxation of the smooth muscles in the fundus and body of the stomach, allowing these regions to expand and accommodate up to approximately 1.5 liters of food and liquid.
Peristaltic Waves and Chyme Formation
Upon food entry, the stomach initiates...
4.4K
Hormonal Regulation01:40

Hormonal Regulation

37.4K
Hormones regulate a significant portion of digestion through activation of the neuroendocrine system. The neuroendocrine system of digestion contains many different hormones all with multiple functions that are both, directly and indirectly, involved in digestion.
37.4K

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Related Experiment Video

Updated: Apr 24, 2026

Mechanisms Underlying Gut Hormone Secretion Using the Isolated Perfused Rat Small Intestine
07:00

Mechanisms Underlying Gut Hormone Secretion Using the Isolated Perfused Rat Small Intestine

Published on: February 26, 2019

9.1K

Gastric secretion.

Mitchell L Schubert1

  • 1aDivision of Gastroenterology, Department of Medicine, Virginia Commonwealth University Health System bDivision of Gastroenterology, Department of Medicine, Hunter Holmes McGuire Veterans Affairs Medical Center, Richmond, Virginia, USA.

Current Opinion in Gastroenterology
|September 12, 2014
PubMed
Summary
This summary is machine-generated.

This review covers recent advances in understanding gastric acid secretion regulation. Key findings highlight the roles of various stimulants, inhibitors, and proteins in managing acid-peptic disorders.

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Area of Science:

  • Gastroenterology
  • Physiology
  • Molecular Biology

Background:

  • Gastric acid is vital for protein digestion, nutrient absorption (iron, calcium, vitamin B12), and medication efficacy.
  • High gastric acidity aids in pathogen elimination, potentially preventing various infections.
  • Understanding gastric acid regulation is crucial for treating acid-related disorders.

Purpose of the Study:

  • To review the latest literature on the neural, paracrine, hormonal, and intracellular mechanisms regulating gastric acid secretion.
  • To provide an updated overview of factors influencing gastric acid production.

Main Methods:

  • Literature review of studies published within the past year.
  • Synthesis of findings on regulatory pathways and molecular mechanisms.

Main Results:

  • Identified key stimulants (histamine, gastrin, acetylcholine, ghrelin) and inhibitors (somatostatin, gastric inhibitory polypeptide, calcitonin gene-related peptide, adrenomedullin) of gastric acid secretion.
  • Discussed the complex role of Helicobacter pylori in modulating acid secretion.
  • Highlighted proteins (myosin IIB, F-actin, ezrin, Rab GTPases) involved in H-K-ATPase membrane trafficking.

Conclusions:

  • Advances in understanding gastric acid secretion regulation are ongoing.
  • This knowledge is essential for developing novel therapeutic strategies, including cholecystokinin-2 receptor antagonists, for acid-peptic disorders.