The Gastric Phase

The Gastric Phase • Storage • Stomach stores food and controls its passage into the small intestine • Digestion • Stomach • Chemical: Acid, enzymes, and signal molecules • Mechanical • Protection • Stomach acid destroys many bacteria and other pathogens. Stomach protects itself w/thick mucus

The Gastric Phase Activity of secretory cells of the gastric mucosa Figure 21-25

The Gastric Phase Input via vagus nerve 1 1 Food Food or cephalic reflexes initiate gastric secretion. 1 Gastric mucosa Gastrin stimulates acid secretion by direct action on parietal cells or indirectly through histamine. Enteric sensory neuron Amino acids or peptides 2 G cell Gastrin Lumen of stomach 3 Acid stimulates short reflex secretion of pepsinogen. 2 Somatostatin D cell + Somatostatin release by H+ is the negative feedback signal that modulates acid and pepsin release. 4 4 Negative feedback pathway Enterochromaffin-like cell Histamine KEY Parietal cell H+ Stimulus Enteric plexus Enteric sensory neuron 3 Receptor Integrating center Chief cell Pepsinogen Pepsin Efferent pathway Integration of cephalic and gastric phase secretion in the stomach Figure 21-26

The Gastric Phase Input via vagus nerve 1 1 Food Food or cephalic reflexes initiate gastric secretion. 1 Gastric mucosa Enteric sensory neuron Amino acids or peptides G cell Gastrin Lumen of stomach KEY Stimulus Enteric plexus Receptor Integrating center Efferent pathway Figure 21-26, step 1

The Gastric Phase Input via vagus nerve 1 1 Food Food or cephalic reflexes initiate gastric secretion. 1 Gastric mucosa Gastrin stimulates acid secretion by direct action on parietal cells or indirectly through histamine. Enteric sensory neuron Amino acids or peptides 2 G cell Gastrin Lumen of stomach 2 ECL cell Histamine KEY Parietal cell H+ Stimulus Enteric plexus Receptor Integrating center Efferent pathway Figure 21-26, steps 1–2

The Gastric Phase Input via vagus nerve 1 1 Food Food or cephalic reflexes initiate gastric secretion. 1 Gastric mucosa Gastrin stimulates acid secretion by direct action on parietal cells or indirectly through histamine. Enteric sensory neuron Amino acids or peptides 2 G cell Gastrin Lumen of stomach 3 Acid stimulates short reflex secretion of pepsinogen. 2 ECL cell Histamine KEY Parietal cell H+ Stimulus Enteric plexus Enteric sensory neuron 3 Receptor Integrating center Chief cell Pepsinogen Pepsin Efferent pathway Figure 21-26, steps 1–3

The Gastric Phase Input via vagus nerve 1 1 Food Food or cephalic reflexes initiate gastric secretion. 1 Gastric mucosa Gastrin stimulates acid secretion by direct action on parietal cells or indirectly through histamine. Enteric sensory neuron Amino acids or peptides 2 G cell Gastrin Lumen of stomach 3 Acid stimulates short reflex secretion of pepsinogen. 2 Somatostatin D cell + Somatostatin release by H+ is the negative feedback signal that modulates acid and pepsin release. 4 4 Negative feedback pathway ECL cell Histamine KEY Parietal cell H+ Stimulus Enteric plexus Enteric sensory neuron 3 Receptor Integrating center Chief cell Pepsinogen Pepsin Efferent pathway Figure 21-26, steps 1–4

The Gastric Phase The mucus-bicarbonate barrier of the gastric mucosa Figure 21-27

The Intestinal Phase The effects of intestinal-phase events on gastric function Figure 21-28

The Intestinal Phase • Bicarbonate neutralizes gastric acid • Goblet cells secrete mucus for protection and lubrication • Bile • Fat digestion • Digestive enzymes • Enteropeptidase

Activation of Pancreatic Zymogens Figure 21-29

Hepatic Portal System Most fluid is absorbed in the small intestine Figure 21-30

The Intestinal Phase • Most digestion occurs in small intestine • Large intestine concentrates waste for excretion • Motility in large intestine • Mass movement triggers defecation • Defecation reflex • Digestion and absorption in large intestine • Diarrhea can cause dehydration

Anatomy of the Large Intestine Figure 21-31

Anatomy of the Large Intestine Figure 21-31a

Anatomy of the Large Intestine Figure 21-31b

Anatomy of the Large Intestine Figure 21-31c

Immune Function • M cells sample the contents of the gut • Immune cells secrete cytokines • Cytokines trigger inflammatory response • Increase in Cl–, fluid, and mucus secretion • Vomiting is a protective reflex

Summary • Function and processes • Digestion, absorption, motility, secretion, and GALT • Anatomy • Motility • Tonic and phasic contractions • Slow wave potentials, interstitial cells of Cajal, migrating motor complex, peristaltic contractions, and segmental contractions

Summary • Secretion • Parietal cells, CFTR chloride channel, mucous cells, goblet cells, saliva, and bile salts • Regulation • Short reflexes, ENS, long reflexes, intrinsic neurons, gastrin family, secretin family, and other hormones

Summary • Digestion and absorption • Amylase, disaccharidases, endopeptidases, exopeptidases, lipase, colipase, micelles, chylomicrons, and intrinsic factor • The cephalic phase • The gastric phase • Mucous cells, chief cells, D cells, ECL cells, and G cells

Summary • The intestinal phase • Brush border, mass movement, and defecation reflex • Immune functions • M cells and vomiting

The Gastric Phase

The Gastric Phase

Presentation Transcript

Gastric cancer

Gastric Secretions

Gastric Secretion

Gastric tumors

GASTRIC PLICATION

Gastric Phase

THE GASTRIC CARCINOMA

Gastric Cancer

Gastric Cancer

GASTRIC CANCER

GASTRIC CANCER

The Gastric Phase

GASTRIC CARCINOMA

GASTRIC MALIGNANCIES

Gastric tumors

Gastric banding

Gastric Bypass

Gastric Balloon

GASTRIC MALIGNANCIES

Gastric Cancer