Title: Saladin Ch. 25
1 Saladin Ch. 25
2Digestion
- Digestion
- breakdown of larger food molecules into
particles small enough for absorption - Digestive System
- organs that collectively perform digestion
3Digestive System Overview
Figure 23.1
4Digestive Process
- The GI tract is a disassembly line
- Nutrients become more available to the body in
each step - There are six essential activities
- Ingestion, propulsion, and mechanical digestion
- Chemical digestion, absorption, and defecation
5Digestive Process
Figure 23.2
6Gastrointestinal Tract Activities
- Ingestion eating
- Propulsion swallowing peristalsis
- Peristalsis waves of contraction relaxation
of muscles in organ walls - Mechanical digestion chewing, mixing,
churning food
7Peristalsis and Segmentation
Figure 23.3
8Gastrointestinal Tract Activities
- Chemical Digestion Secretion of water, acid,
buffers, enzymes. Large molecules are split into
smaller pieces. - Absorption material enters epithelial cells
lining GI tract and is passed on to the lymph or
blood. - Defecation elimination of indigestible solid
wastes.
9Digestive Accessory Organs
- Digestive
- Gastrointestinal (GI) Tract Alimentary Canal -
continuous tube running from mouth to anus.
Digests and absorbs. Mouth, pharynx, esophagus,
stomach, small intestine, large intestine - Accessory Digestive Organs
- Aid in processing - food doesn't go into these
organs. Teeth, tongue, salivary glands, liver,
gallbladder, pancreas.
10Histology of the Alimentary Canal
- All the walls of the GI tract have the same four
tunics - From the lumen outward they are the mucosa,
submucosa, muscularis externa, serosa.
11Histology of the Alimentary Canal
Figure 23.6
12Mucosa
- Moist epithelial layer that lines the lumen of
the alimentary canal. - Three layers a lining epithelium, lamina
propria, muscularis mucosae.
13Mucosa Epithelial Lining
- Mouth, pharynx, esophagus, anal canal
non-keratinized stratified squamous. - Stomach, intestines simple columnar epithelium.
- Exocrine glands Put mucus fluid in
- Enteroendocrine glands - secrete hormones into
blood stream.
14Mucosa Lamina Propria and Muscularis Mucosae
- Lamina Propria layer of areolar tissue deep to
lining - Connects to - muscularis mucosae.
- Muscularis mucosae - thin smooth muscle fibers -
helps increase surface area by moving folds of
mucosa so they are fully exposed to nutrients.
15Submucosa
- Submucosa - binds mucosa to muscularis externa
- Areolar CT
- Contains submucosal plexus - part of the enteric
nervous system - Also contains - glands, blood, lymph
16Muscularis Externa Serosa
- Muscularis Externa Smooth muscle layer.
- Contains the myenteric plexus - the other enteric
nervous system component. - Serosa - superficial layer of GI organs in the
abdominal cavity CT and epithelium - Visceral layer of peritoneum - serous membrane.
17Enteric Nervous System
- Composed of two major intrinsic nerve plexuses
- Submucosal nerve plexus regulates glands and
smooth muscle in the mucosa. - Myenteric nerve plexus Major nerve supply that
controls GI tract mobility.
18Enteric Nervous System
- Segmentation peristalsis are largely automatic
involving local reflex arcs. - Linked to the CNS via long autonomic reflex arc.
19Peritoneum and Peritoneal Cavity
- Peritoneum serous membrane of the abdominal
cavity. - Parietal lines the body wall.
- Visceral covers external surface of most
digestive organs.
20Peritoneum and Peritoneal Cavity
- Peritoneal cavity
- Narrow space between parietal and visceral
layers. - Lubricates digestive organs.
- Allows them to slide across one another.
21Peritoneum and Peritoneal Cavity
Figure 23.5a
22Peritoneum and Peritoneal Cavity
- Lesser Omentum - from stomach and duodenum -
attaches these to the liver. - Greater Omentum - fatty apron hanging down over
colon and small intestine on the anterior aspect.
- Mesocolon - fold that binds the large intestine
to the posterior abdominal wall
23(No Transcript)
24Peritoneum and Peritoneal Cavity
- Retroperitoneal organs organs outside the
peritoneum. - Only have peritoneum on anterior surface.
- Peritoneal organs (intraperitoneal) organs
surrounded by peritoneum.
25Regulation of GI Tract
- Regulation of digestion involves
- Mechanical chemical stimuli stretch
receptors, osmolarity, presence of substrate in
the lumen - Extrinsic control
- Intrinsic control
26Nervous Control of the GI Tract
- Intrinsic controls
- Nerve plexuses near the GI tract initiate short
reflexes. - Short reflexes are mediated by local enteric
plexuses (gut brain).
27Nervous Control of the GI Tract
- Extrinsic controls
- Long reflexes arising within or outside the GI
tract. - Involve CNS centers and extrinsic autonomic
nerves.
28Regulation of GI Tract
- Hormones
- Gastrin, secretin, CCK, histamine, paracrines
see hormone chart
29Mouth
- Oral or buccal cavity
- Is bounded by lips, cheeks, palate, tongue.
- Vestibule bounded by the lips cheeks
externally, teeth and gums internally.
30Anatomy of the Oral Cavity Mouth
Figure 23.7a
31Tongue
- Skeletal muscle covered with mucous membrane.
- Intrinsic muscles originate and insert in
tongue - For swallowing and speech - Extrinsic muscles originate outside the tongue
insert in it. Move side to side in out. Aid
in movement of food into bolus.
32Palate
- Palate
- Hard palatine bones palatine processes of
maxilla - Soft skeletal muscle
33Oral Cavity and Pharynx Anterior View
Figure 23.7b
34Teeth
- Primary and permanent dentitions have formed by
age 21. - Primary 20 deciduous milk teeth.
- Permanent 32 secondary teeth,
35Classification of Teeth
- Teeth are classified according to their shape and
function. - Incisors chisel-shaped - adapted for cutting or
nipping. - Canines conical or fanglike - tear or pierce
- Premolars (bicuspids) molars broad crowns
with rounded tips - for grinding or crushing
36Deciduous Teeth
Figure 23.10.1
37Permanent Teeth
Figure 23.10.2
38Tooth Structure
- Two main regions crown root.
- Crown exposed part above the gingiva (gum).
- Root portion embedded in the jawbone.
39Tooth Structure
- Enamel acellular, brittle material composed
mostly of calcium phosphate. - Enamel is the hardest substance produced by the
body. - Encapsulates the crown of the tooth.
40Tooth Structure
- Anatomy of a tooth
- Crown, neck, root, apical foramen.
- Enamel hardest substance produced, covers
crown Mostly calcium phosphate - Dentin bone-like, secreted by cells of pulp
41Tooth Structure
- Cementum covering of root, similar to bone
- Periodontal ligament anchors tooth to alveolar
socket, which is surrounded by gingiva (gums)
42Tooth Structure
Figure 23.11
43Salivary Glands
- Parotid anterior to ear over the masseter.
- Parotid duct opens into vestibule next to the
second upper molar. - Secretes salivary amylase.
- Swollen when infected by mumps virus
44Salivary Glands
- Submandibular beneath posterior tongue.
- Secretes saliva with salivary amylase.
- Sublingual anterior to submandibular gland
under the tongue. - Opens into the floor of the mouth.
45Salivary Glands
Figure 23.9a
46Saliva
- Saliva
- 1-1.5 L/day
- Blood filtrate salivary amylase, mucin
lysozyme
47Saliva
- Control ANS food stimulates tactile, pressure
and taste sensor ? salivatory nuclei in medulla - Parasympathetic normal salivation facial and
glossopharyngeal nerves - Sympathetic decreased salivation
48Pharynx
- From the mouth, the oro- laryngopharynx allow
passage of - Food and fluids to the esophagus.
- Air to the trachea.
- See Ch. 22
49Esophagus
- Muscular skeletal to smooth a collapsible
tube. All 4 layers, modified. - Mucosa stratified squamous epithelium
esophageal glands in submucosa musc. Ext. has
both smooth and skeletal muscle serosa replaced
with adventitia
50Esophagus
- Passes through mediastinum and diaphragm
esophageal hiatushiatal hernias - Functions secretes mucus, transports bolus to
stomach cardiac orifice
51Swallowing
- Deglutition swallowing controlled by medulla
pons swallow center involves trigeminal,
facial, glossopharyngeal, hypoglossal nerves. - 2 phases
- Buccal phase bolus formation,
pharyngealesophageal phase moves to stomach - Peristalsis waves of muscular contraction
move bolus
52Deglutition (Swallowing)
Bolus of food
Tongue
Uvula
Pharynx
Bolus
Epiglottis
Epiglottis
Glottis
Esophagus
Trachea
Bolus
(c) Upper esophageal sphincter contracted
(a) Upper esophageal sphincter contracted
(b) Upper esophageal sphincter relaxed
Relaxed muscles
Relaxed muscles
Circular muscles contract, constricting
passageway and pushing bolus down
Gastroesophageal sphincter open
Bolus of food
Longitudinal muscles contract, shortening
passageway ahead of bolus
Gastroesophageal sphincter closed
Stomach
(d)
(e)
Figure 23.13
53Stomach
- Functions
- Storage
- Mechanical breakdown of food
- Enzymatic digestion of food
- Absorption of simple compounds
- Produces gastrin
- Bacterial protection
- Produces intrinsic factor
54Stomach
- Cardiac region surrounds the cardiac orifice.
- Fundus dome-shaped region beneath the
diaphragm. - Body midportion of the stomach.
- Pyloric region made up of the antrum and canal,
through the pyloric sphincter.
55Stomach
Figure 23.14a
56Stomach
- Innervation circulation
- Para vagus, sym celiac ganglion
- Arterial celiac artery, venous hepatic portal
system
57Stomach Wall
- Muscularis 3 layers instead of two
longitudinal, circular and oblique smooth layers - Submucosa mucosa - Ruggae large folds in
mucosa - Mucosa simple columnar epithelium
58Glands of the Stomach Fundus and Body
- Gastric Pits of the fundus body have a variety
of secretory cells - Mucous cells gt mucus
- Parietal cells gt HCl intrinsic factor
- Chief cells gt pepsinogen
- Pepsinogen is activated to pepsin by
59Glands of the Stomach Fundus and Body
- Enteroendocrine cells gt gastrin, histamine,
serotonin, somatostatin into the lamina propria
60Microscopic Anatomy of the Stomach
Figure 23.15
61Gastric Secretions
- Produces 2-3L of gastric juice/day
- HCl get H from CO2 carbonic anhydrase
reaction parietal cells pumped out by active
transport. - Pepsin digests protein also get chymosin
gastric lipase in infants
62Gastric Secretions
- Intrinsic factor - also from parietal cells
needed to absorb B12 only indispensable function
of stomach - Chemical messengers enteroendocrine cells make up
to 20 include gut-brain peptides like substance
P, vasoactive intestinal peptide, secretin, etc. -
63Stomach Lining
- To keep from digesting itself, the stomach has a
mucosal barrier with - A thick coat of bicarbonate-rich mucus on the
stomach wall. - Epithelial cells that are joined by tight
junctions. - Gastric juices released only in presence of food
which dilutes its effects
64Gastric Motility
- Receptive-relaxation response stomach relaxes
to receive food stim. by medulla - Peristaltic contractions increasing in
strength. - Squirts 3 mL of chime into duodenum/ wave
65Vomiting
- Emetic center of medulla
- Usually preceded by nausea retching
- Projectile vomiting no prior nausea, etc.
common in infants. - Bulimia eating disorder erodes tooth enamel,
aspiration of acid injures respiratory tree, acid
reflux damages esophagus
66Regulation of Gastric Secretion
- Neural hormonal mechanisms regulate release of
gastric juice. - 3 phases of events
- Cephalic (reflex) phase prior to food entry.
- Gastric phase once food enters the stomach.
- Intestinal phase as partially digested food
enters the duodenum.
67Cephalic Phase
- Events include
- Sight or thought of food Stimulation of taste or
smell receptors. - Stimulate secretions from parietal cells, Chief
cells, and mucus cells.
68Gastric Phase
- Events include
- Release of gastrin to the blood.
- Stomach distension increase in pH due to food.
69Intestinal Phase
- Mostly inhibitory small intestine receptors are
activated by influx of chyme enterogastric
reflex. - Slows exit of chyme and prevents duodenal
overload.
70Intestinal Phase
- Chyme also stimulates enteroendocrine cells to
release secretin, CCK and gastric inhibitory
protein. - Secretin CCK stim. pancreas and gallbladder.
All 3 suppress gastric secretion motility - Â
71Release of Gastric Juice
Figure 23.16
72Liver
- The largest gland in the body
- Functions
- Synthesis of bile salts
- Excretion of bile
73Liver
- 2 Lobes R,L separated by falciform running from
diaphragm between lobes. - The right lobe is further subdivided into two
lobes - the quadrate and caudate. - Falciform Ligament - binds liver to anterior
wall. - The round ligament exits the falciform ligament
from the liver - former umbilical vein.
74(No Transcript)
75Liver Microscopic Anatomy
- Lobes are divided into working units called
lobules - Plates of hepatocytes specialized epithelium
that secrete bile - Central vein
76Liver Microscopic Anatomy
- Liver sinusoids enlarged, leaky capillaries
located between hepatic plates. - Blood from stomach SI is filtered and glucose,
amino acids, iron, vitamins, etc are removed, as
are toxins, drugs, etc. - Kupffer cells hepatic macrophages found in
liver sinusoids.
77Microscopic Anatomy of the Liver
Figure 23.24c, d
78Liver Bile
- Produced by hepatocytes.
- Bile leaves the liver via
- Bile canalculi to bile ducts
- Bile ducts fuse into the common hepatic duct
79Liver Bile
- The common hepatic duct fuses with the cystic
duct? the bile duct - Bile duct joins pancreatic duct ?
hepatopancreatic ampulla ? SI
80(No Transcript)
81Gallbladder
- Thin-walled, green muscular sac on the ventral
surface of the liver. - Releases bile via the cystic duct, which flows
into the bile duct. - Stores and concentrates bile by absorbing its
water and ions.
82Composition of Bile
- Bile - Yellow, brownish to olive green -
500-1000mL/day - Water, bile acids, bile salts, cholesterol, ions,
phospholipids lecithin bile pigments bilirubin
etc. - Bile Salts acids steroids made from
cholesterolemulsify fats
83Composition of Bile
- Recycled 80 reabsorbed by SI and re-secreted
by liver - Wastes include from RBC breakdown ? bilirubin
from heme -- intestine ? broken into stercobilin,
84Gallbladder and Associated Ducts
Figure 23.20
85Pancreas
- Size 5 inches long and 1 inch thick
- Regions head, body, tail
- Ducts
- 1 pancreatic duct fuses with common bile duct
forming the hepatopancreatic ampulla - enters
duodenum about 4 inches below pylorus - 2 accessory duct enters 1 inch above ampulla
86Pancreas
- Exocrine function - Secretes pancreatic juice
which breaks down all categories of foodstuff. -
- Endocrine function release of insulin
glucagon.
87Acinus of the Pancreas
Figure 23.26a
88Pancreatic Juice
- Pancreatic Juice clear, colorless,
1.2-1.5L/day, pH about 8 - Mostly water
- Sodium bicarbonate increase pH, buffers acidic
chyme, stops pepsin action - Salts
89Composition Function of Pancreatic Juice
- Enzymes secreted
- Trypsinogen is activated to trypsin
- Carboxypeptidase
- Chymotrypsinogen
- Amylase, lipases, nucleases
- These enzymes require ions or bile for optimal
activity
90Regulation of Secretion
- Increased with parasympathetic, decreased with
sympathetic. - Bile pancreatic juice stim. By CCK, gastrin
secretin - CCK released from duodenum response to acid fat
? contraction of gallbladder, secretion of
pancreatic enzymes, relaxation of
hepatopancreatic sphincter
91Regulation of Secretion
- Secretin stimulates secretion of bicarbonate to
neutralize stomach acid in duodenum.
92Small Intestine Gross Anatomy
- Runs from pyloric sphincter to the ileocecal
valve. - 3 subdivisions duodenum, jejunum, ileum.
- Ileocecal valve sphincter to the large
intestines. - Mesentery peritoneum supporting the small
intestines.
93(No Transcript)
94Small Intestine Microscopic Anatomy
- Structural modifications of the small intestine
wall increase surface area. - Circular folds of the mucosa
- Villus structure with a lamina propria core
containing arterioles, venules, capillary nets
and lymphatic lacteals, covered with simple
columnar epithelium with microvilli , goblet
cells and absorptive cells
95Small Intestine Microscopic Anatomy
- Lacteals-absorption of fats
- Goblet cells - secrete mucus
- Absorptive cells simple columnar epithelium -
absorb and make brush border enzymes - Intestinal Crypts - tubular glands in floor of
SI between villi bases secrete intestinal juice
enzymes
96Small Intestine Microscopic Anatomy
- Paneth Cells - phagocytic - produce lysozyme
- Enteroendocrine glands - secrete secretin and
CCK - Duodenal Brunner's in submucosa -secrete
alkaline mucus neutralizes stomach acid
97Small Intestine Microscopic Anatomy
Figure 23.21
98Intestinal Juice
- Clear yellow - 1-2 L/day, pH 7.6
- Contains water, mucus, enzymes - aid absorption
of nutrients from chyme - Resorbed by villi
99Motility in the Small Intestine
- Segmentation-
- Localized mixing motions bring contents in
contact with mucosa. - Regulated by pacemaker cells 12 contractions/
min duod. 8-9 ileum. - After nutrients have been absorbed
- Peristalsis begins.
- Meal remnants, bacteria, mucosal cells, debris
are moved into large intestine.
100Control of Motility and Secretion
- Local enteric neurons of the GI tract coordinate
intestinal motility - Distension
- Presence of Chyme
- Vasoactive intestinal polypeptide VIP increases
secretions - Gastrin
101Control of Motility and Secretion
- ANS
- Parasympathetic increases motility.
- Sympathetic-decreases motility.
102Chemical Digestion Carbohydrates
- Enzymes salivary amylase, pancreatic amylase,
brush border enzymes - Absorption - glucose and galactose enter
epithelial cells via symporters, accompanied by
Na ions. Fructose enters by facilitated
diffusion. - All exit to the blood by facilitated diffusion.
103- Lactose intolerance lack enzyme lactase large
proportion of world population
104Chemical Digestion Proteins
- Enzymes used pepsin in the stomach.
- Enzymes acting in the small intestine
- Pancreatic enzymes trypsin, chymotrypsin
- Brush border enzymes peptidases.
105Chemical Digestion Proteins
- Absorption
- Amino acids, di and tripeptides - aa - by simple
active transport or in symporters with Na - Di and tripeptides - by symporters with H. All
exit to blood by diffusion.
106Chemical Digestion Proteins
Figure 23.34
107Chemical Digestion Fats
- Lipids - digested by lipases
- Fats emulsified by bile salts first
- Products are fatty acidsFFAsand
monoglycerides - Micelles in bile take up phospholipids
cholesterol, fat soluble vitamins, FFAs and
monoglycerides and transport to intestinal cells
108Chemical Digestion Fats
Figure 23.35
109Chemical Digestion Fats
- FFAs and monoglycerides enter epithelial cells
and are re-assembled into triglycerides, combine
with cholesterol, phospholipids and protein to
form chylomicrons and exit by exocytosis into
lacteals
110Fatty Acid Absorption
Figure 23.36
111Chemical Digestion Nucleic Acids
- Enzymes used pancreatic nucleases in the small
intestines. - Brush Border enzymes nucleosidases,
phosphatases. - Sugars, bases and phosphate ions absorbed by
active transport ? across epithelium and into
blood
112Vitamins Minerals
- Vitamins - water soluble diffuse, lipid soluble
enter with lipids A,D,E,K - Minerals Electrolytes - absorbed through entire
length of SI by diffusion or active transport -
Na/K and chloride/bicarbonate pumps. - Fe Ca absorbed as needed, rest absorbed at
constant rate regardless of need.
113Water
- Water - absorbed by osmosis - 9L into system -
about 8L absorbed - into blood - Diarrhea occurs when the large intestine absorbs
too little - Constipation occurs when passage through the LI
is too slow and too much water is absorbed
114Large Intestine
- Functions
- Absorption, manufacture of some vitamins.
- Formation expulsion of feces.
115LI Anatomy
- 1.5 M long, runs from cecum to rectum
- Ileocecal sphincter - joins SI to LI.
- Cecum - region of LI inferior to the ileocecal
sphincter. - Appendix - next to the cecum.
116LI Anatomy
- Colon - above sphincter - ascending, transverse,
descending and Sigmoid regions - Rectum valves- region inferior to sigmoid
colon - Anal Canal - below rectum
117LI Anatomy
- Taenia coli - longitudinal bands of muscles
running the length of the LI - Haustra - pouches produced in the LI by tonal
contraction of taenia coli.
118Large Intestine
Figure 23.29a
119Large Intestine Microscopic Anatomy
- Mucosa Simple columnar epithelium no villi or
enzyme secreting cells goblet cells
120Bacterial Flora
- These bacteria
- Colonize the colon
- Ferment indigestible carbohydrates
- Release irritating acids and gases (flatus)
- Synthesize B complex vitamins and vitamin K
121Motility of the Large Intestine
- Haustral contractions
- Slow segmenting movements that move the contents
of the colon. - Haustra sequentially contract as they are
stimulated by distension. - Presence of food in the stomach
- Activates the gastrocolic reflex.
- Initiates peristalsis that forces contents toward
the rectum.
122Defecation
- Defecation Reflexes initiated by rectal
stretching - Intrinsic entirely within enteric system weak
peristalsis - Sympathetic Spinal cord reflex - Sends message
to CNS to decide whether to relax external
sphincter.
123Defecation
Figure 23.32