1'Overview of the Gastrointestinal System - PowerPoint PPT Presentation

1 / 38
About This Presentation
Title:

1'Overview of the Gastrointestinal System

Description:

1'Overview of the Gastrointestinal System – PowerPoint PPT presentation

Number of Views:131
Avg rating:3.0/5.0
Slides: 39
Provided by: jxzh
Category:

less

Transcript and Presenter's Notes

Title: 1'Overview of the Gastrointestinal System


1
The Gastrointestinal System
  • 1.Overview of the Gastrointestinal System
  • A.Anatomical features of the gastrointestinal
    system
  • The digestive tract consists of
  • Mouth
  • Pharynx
  • Esophagus
  • Stomach
  • Small intestines (duodenum, jejunum and ileum)
  • large intestines (cecum with appendix, ascending
    colon, transverse colon, descending colon,
    sigmoid colon, rectum, anus)

2
  • Accessory structures
  • Salivary glands
  • Pancreas
  • Liver
  • Gallbladder
  • The wall of the digestive tract is composed of
    four coats
  • Mucosa
  • epithelial lining
  • lamina propria
  • muscularis mucosa
  • Submucosa (a layer of connective tissue with
    lymph and blood vessels, exocrine glands, and a
    plexus of nerve cells)

3
  • Muscularis externa
  • circular muscle layers
  • longitudinal muscle layers
  • a network of nerve cells
  • Serosa (a layer of connective tissue)
  • The salivary glands and pancreas contain clusters
    of exocrine secretary cells called the acini,
    which lead into a system of ducts that converge
    and empty into the mouth or duodenum
  • Gastrointestinal circulation
  • splanchnic circulation (circulation of the
    stomach, small and large intestines, pancreas,
    and liver)
  • portal circulation (which brings blood from the
    stomach, intestines, and pancreas to the liver)

4
(No Transcript)
5
  • B. The processes of the GI system
  • Motility
  • Mixing movements
  • Propulsive movements (rate depends on the
    function served by the organ)
  • Secretion
  • Inorganic ions (H, HCO3-)
  • Organic components
  • digestive enzymes (salivary glands, stomach, and
    pancreas)
  • bile salts
  • pigments
  • cholesterol
  • water and solutes

6
  • Digestion (Large organic molecules are broken
    down into smaller molecules that can be absorbed)
  • Absorption (Various transport systems are used to
    move digestive products from the lumen to the
    blood and lymph)
  • C. Regulation of GI functions by neural and
    hormonal mechanisms
  • Motility and secretion are regulated by neural
    and hormonal mechanisms, while digestion and
    absorption are not
  • Many of the stimuli that initiate the regulatory
    events are present in the lumen of the digestive
    system
  • Chemoreceptors and mechanoreceptors respond to
    the stimuli

7
  • Neural control of GI processes
  • Short reflexes mediated by nerves lying within
    the wall of the digestive tract (the enteric
    nervous systme little brain)
  • excitatory
  • inhibitory
  • Long reflexes mediated by nerves outside of the
    tract
  • CNS
  • peripheral nerves
  • the vagus nerve (a parasympathetic nerve)
  • the splanchnic nerves (sympathetic postganglionic
    nerves)

8
Neural control of GI processes
9
  • Four hormones important in the control of
    motility and secretion
  • Gastrin
  • cholecystokinin (CKK)
  • Secretin
  • gastric inhibitory peptide (GIP)

10
  • 2. Chewing, Salivary Secretion, and Swallowing
  • A. Chewing reduces the size of food particles and
    mixes them with saliva
  • Chewing is accomplished by combined actions of
    the skeletal muscles of the jaws, lips, cheeks,
    and tongue
  • Chewing is partly reflexive in nature and aids
    digestion
  • B. Salivary secretion - lubrication of the mouth
    and initiation of the digestion of starch
  • Salivary glands
  • The parotid glands
  • Submaxiilary glands
  • Sublingual glands

11
  • Major stimuli chewing
  • Major components of saliva water, mucus, and
    amylase
  • Regulation of salivary secretion - by long
    reflexes involving sympathetic and
    parasympathetic nerves
  • Salivary secretion serves a number of functions,
    including
  • Softening and lubricating food
  • Neutralizing acids produced by oral bacteria
  • decrease of salivary secretion ? sensation of
    thirst
  • salivary amylase degrades complex carbohydrates

12
  • C. Swallowing moves food rapidly from the mouth
    into the stomach
  • Long reflexes mediated through a swallowing
    center in the brain coordinate actions of smooth
    and skeletal muscles involved in swallowing the
    bolus of food
  • Food is prevented from entering the glottis by
    the epiglottis
  • Role of the esophagus in swallowing
  • upper esophageal sphincter (skeletal muscle)
  • lower esophageal sphincter (smooth muscle)
  • pressure gradient in the esophagus
  • The all-or-none swallowing reflex is activated
    when a bolus stimulates mechanoreceptors in the
    pharynx

13
(No Transcript)
14
  • 3. The Processes of Motility and Secretion in
    the Stomach
  • A. Muscular activities of the stomach and their
    regulation
  • Peristalsis
  • The motor activity of the stomach serves the
    major functions of
  • mixing food with gastric secretions
  • conversion of large solid food particles to
    liquid suspension of fine particles
  • emptying of gastric contents into the duodenum
  • storage

15
  • The storage function of the stomach
  • reduction of the tone in the muscular wall of the
    stomach
  • accommodate large volumes with minimal changes in
    intragastric pressure
  • a limit (capacity) of a completely relaxed
    stomach 1.5L
  • Regulation of stomach motility
  • myogenic mechanism basic electrical rhythm
  • excitatory stimuli à action potentials à more
    vigorous contraction
  • neural mechanism
  • mechanorecptors in the gastric wall distention
  • short reflex
  • long reflex

16
  • hormonal mechanisms
  • gastrin - increase peristalsis
  • inhibition of stomach motility - by duodenal
    inhibitory mechanisms
  • stimuli fat, acidic, hyperosmotic or bulky
    contents
  • sensors osmoreceptors, mechanoreceptors,
    chemoreceptors
  • secretin
  • gastric inhibitory peptide
  • enterogastric inhibitory reflex

17
  • B. Gastric secretion
  • The exocrine secretary glands contain three types
    of secretary cells
  • Chief cells pepsinogen
  • Parietal cells - HCI, intrinsic factor (necessary
    for vit.B12 absorption)
  • Mucous cells - alkaline mucus (for protection of
    the mucosa)
  • Transport of H and Cl- - active transport

18
Cell types of gastric mucosa
Stomachsecretion integration
19
  • Transport of H and Cl- - active transport

20
  • Regulation of secretion of HCl in three phases
  • cephalic phase
  • gastric phase
  • intestinal phases
  • Both short and long reflexes via the vagus nerve
    are involved
  • role of gastrin (G-cells)
  • role of histamine in secretion of HCl

21
Intestinal Phase of gastric function
22
  • Secretion of pepsinogen (the precursor of pepsin)
  • synthesized and stored in the chief cells
  • secretion of pepsinogen simulated by Ach. via
    short and long reflexes
  • conversion to pepsin by HC1 and pepsin itself
  • substrate of pepsin proteins end products
    peptides
  • ideal pH for pepsin pH 2-3
  • Both peptides and acetylcholine play important
    roles in the activation of pepsin and in the
    maintenance of the highly acidic environment
    required for optional activity of pepsin

23
  • B. Vomiting
  • Vomiting - a reflex act coordinated by a center
    located in the medulla
  • The force for expulsion
  • an increase in intragastric pressure
  • an increase in abdominal pressure
  • Stimuli
  • emetics - chemical agents that can stimulate
    chemoreceptors in the stomach and the small
    intestine or brain
  • disturbances in the vestibular apparatus
  • stimulation of sensory nerve endings in the
    throat
  • Consequences of prolonged vomiting
  • Dehydration
  • loss of electrolytes (Na, K, Cl-, HCO3-)
  • metabolic alkalosis

24
  • 4. Secretion of the Exocrine Pancreas
  • A. Secretion of pancreatic bicarbonate
  • The epithelial cells lining of the intercalated
    ducts secrete an alkaline juice that contains a
    high concentration of sodium bicarbonate
  • The bicarbonate protects the duodenum from damage
    by gastric acid and provides an optimum pH for
    pancreatic digestive enzymes

25
  • B. Secretion of pancreatic digestive enzymes
  • protein-digesting enzymes
  • trypsin - converted by enterokinase from
    trypsinogen
  • chymotrypsin - converted by tripsin from
    chymotrypsinogen
  • carboxypeptidase - converted by trypsin from
    procarboxypetidase
  • Pancreatic lipase - triacylglycerol fats
  • Other enzymes phospholipase, cholesterol
    esterase, amylase, ribonuclease, and
    deoxyribonuclease

26
  • C. Regulation of pancreatic secretion
  • Hormonal regulation
  • secretin released from the duodenal mucosa
  • increase secretion of bicarbonate-rich juice
  • the most important stimulus acid
  • cholecystokinin released from the duodenal mucosa
  • increase secretion of digestive enzymes from
    acinar cells
  • stimuli protein and fat products

27
  • 5. The Secretion in the Biliary System
  • A. Important structures in biliary system
  • hepatocytes - bile producing cells
  • bile canaliculi
  • the hepatic duct
  • the cystic duct
  • Gallbladder
  • the common bile duct
  • sphincter of Oddi

28
  • B. Secretion of the bile
  • Bile secreted by hepatocytes
  • Stored in the gallbladder
  • Major functions help in the digestion and
    absorption of fat
  • Bile composition bile salts, pigments,cholesterol
    , lecithin, and inorganic ions such as sodium,
    chloride, and bicarbonate
  • C. Enterohepatic circulation of bile salts
  • Bile salts are recycled between the liver and
    small intestine
  • D. Regulation of the secretion of bile
  • Concentration of bile salts in the portal blood
  • Secretin stimulates epithelial cells lining of
    the bile ducts to release sodium bicarbonate to
    neutralize gastric acid in the small intestine

29
  • 6. Motility, Secretion, and Absorption in the
    Small Intestine
  • A. The muscular movements of the small intestine
  • Segmenting contractions (mixing movements)
  • Peristalsis
  • Gastrin increases motor activity of the ileum and
    relaxes the ileocecal sphincter
  • B. Secretion of water and solute from blood to
    small intestinal lumen
  • Fluid moves in response to the hyperosmotic
    contents of the lumen
  • Mucosal exocrine cells secrete water, inorganic
    ions, and mucus into intestinal lumen

30
Daily mass balance in the digestive system
31
  • C. Absorption of nutrients
  • Villi, and microvilli increase the surface area
    of the small intestine
  • Water absorption by osmosis - secondarily to the
    absorption of dissolved minerals
  • Sodium absorption - actively transported
  • Other inorganic ions (e.g., calcium, potassium,
    zinc, chloride, phosphate, bicarbonate) and iron
    and iodide are actively or passively transported
    into the blood

32
  • Carbohydrates digested enzymatically (by maltase,
    lactase, sucrase) into monosaccharide units,
    which may be absorbed by different mechanisms
  • Facilitated diffusion (fructose)
  • Active transport by carrier-mediated process
    (glucose)
  • Co-transport (glucose, galactose coupled with
    sodium)
  • Amino acids - transported by active processes
  • specific carrier for each class of amino acid
  • transport coupled with sodium transport
  • dipeptides and tripeptides also absorbed
  • In the newborns of some species, proteins are
    absorbed by pinocytosis

33
Carbohydrate digestion
Fat digestion
Endopeptidases cleave interior peptide bonds
34
Peptide absorption
Carbohydrate absorption
35
  • Triacylglycerols
  • emulsification by bile salts - Bile salts render
    monoglycerides and free fatty acids water soluble
    by facilitating the formation of micelles
  • digetstion by pancreatic lipase into a
    monoglyceride and free fatty acid molecules

36
  • 7. Processes of Absorption, Secretion, and
    Motility in the Large Intestine
  • A. Water and sodium are absorbed and potassium
    and bicarbonates are secreted by the large
    intestine
  • The active transport of sodium from the colon -
    accompanied by the osmotic absorption of water
  • The colonic mucosa secretes an alkaline fluid
    that protects the mucosa from chemical and
    mechanical trauma and lubricates the fecal mass,
    thus facilitating its passage
  • B. Motility of the large intestine
  • Segmenting contractions promote absorption of
    water and inorganic ions by exposing the contents
    to the mucosa
  • Propulsive mass movements may be stimulated by
    gastrin, the gastrocolonic reflex, and distention
    of colonic walls

37
  • C. The defecation reflex
  • Mass contractions move the contents into the
    rectum, whose distention elicits the defecation
    reflex
  • Constipation, the accumulation of feces in the
    large intestine above the normal capacity, occurs
    when the muscular activity of the large intestine
    is decreased

38
Colonocytes NaCl reabsorption
Colonic crypt cells NaCl
Write a Comment
User Comments (0)
About PowerShow.com