Anat2_08_Digestive
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Transcript Anat2_08_Digestive
Digestive System
Dr. Michael P. Gillespie
Digestion & Absorption
Digestion is the process of breaking down
food into molecules that are small enough to
enter the body cells.
Absorption is the passage of these smaller
molecules through the plasma membrane of
cells lining the stomach and intestines into
the blood and lymph.
Digestive System
The organs that perform the functions of digestion
and absorption are collectively referred to as the
digestive system.
Gastroenterology deals with the structure,
function, diagnosis and treatment of diseases of the
stomach and intestines.
Proctology deals with the diagnosis and treatment
of disorders of the rectum and anus.
Components Of The Digestive
System
The gastrointestinal (GI) tract or alimentary canal
is a continuous tube that extends from the mouth to
the anus through the ventral body cavity.
Organs of the GI tract include the mouth, most of the
pharynx, esophagus, stomach, small intestine, and large
intestine.
The length of the GI tract in a cadaver is about 9m (30
ft). It is shorter in a living person due to clonus.
Components Of The Digestive
System
Accessory digestive organs include the teeth,
tongue, salivary glands, liver, gallbladder, and
pancreas.
The teeth aid in the physical breakdown of food and the
tongue assists in chewing and swallowing.
The other accessory digestive organs never come into
direct contact with the food. They produce or store
secretions that flow into the GI tract and aid in the
chemical breakdown of food.
Functions Of The Digestive
System
Ingestion
Secretion
Mixing and propulsion
Digestion
Absorption
Defecation
Ingestion
This process involves taking foods and
liquids into the mouth (eating).
Secretion
Cells within the walls of the GI tract secrete
about 7 liters of water, acid, buffers, and
enzymes into the lumen of the GI tract daily.
Mixing & Propulsion
Alternating contraction and relaxation of
smooth muscle in the walls of the GI tract
mix food and secretions and propel them
toward the anus.
This is referred to as motility.
Digestion
Mechanical digestion.
The teeth cut and grind food.
The smooth muscles of the stomach and small
intestine churn the food to help it dissolve and
mix with enzymes.
Digestion
Chemical digestion.
The large carbohydrate, lipid, protein, and nucleic acid
molecules in food are split into smaller molecules by
hydrolysis.
Digestive enzymes produced by the salivary glands,
tongue, stomach, pancreas, and small intestines catalyze
these catabolic reactions.
Amino acids, cholesterol, glucose, vitamins, minerals,
and water can be absorbed without chemical digestion.
Absorption
Absorption is the entrance of ingested and
secreted fluids, ions, and small molecules
that are products of digestion into the
epithelial cells lining the lumen of the GI
tract.
The absorbed substances pass into the blood
or lymph and circulate to all cells of the
body.
Defecation
Substances that were not absorbed leave the
body through the anus in a process called
defecation.
These substances include wastes, indigestible
substances, bacteria, cells sloughed from the
GI tract, and digested materials that were not
absorbed.
The eliminated material is called feces.
Layers Of The GI Tract
Mucosa
Submucosa
Muscularis
Serosa
Mucosa
The mucosa (inner lining) is a mucous
membrane.
It is composed of a layer of epithelium in
direct contact with the contents of the GI
tract, areolar connective tissue, and a thin
layer of smooth muscle (muscularis
mucosae).
Mucosa
Epithelium.
Epithelium in the mouth, phaynx, esophagus,
and anal canal is nonkeratinized stratified
squamous epithelium and serves a protective
function.
Epithelium in the stomach and intestines is
simple columnar epithelium and functions in
secretion and absorption.
Mucosa
Lamina propria.
Areolar connective tissue containing many blood and
lymphatic vessels, which are routes through which
nutrients are absorbed.
Mucosa-associated lymphatic tissue is also present to
protect against microbes.
Muscularis mucosa.
A thin layer of smooth muscle fibers which creates folds
in the stomach and small intestine to increase surface
area.
Submucosa
The submucosa consists of areolar
connective tissue that binds the mucosa to
the muscularis.
Submucosa
It contains blood and lymphatic vessels that
receive absorbed food molecules.
Submucosa
It also contains the submucosal plexus (plexus of
Meissner) which is an extensive network of
neurons.
These neurons are part of the enteric nervous system or
“brain of the gut”.
They regulate movements of the mucosa and
vasoconstriction of the blood vessels.
The nerves innervate secretory cells of the mucosal and
submucosal glands.
Muscularis
The muscularis of the mouth, pharynx, and
superior and middle parts of the esophagus
contains skeletal muscle that produces
voluntary swallowing.
Skeletal muscle also forms the external anal
sphincter, which permits voluntary control of
defecation.
Muscularis
The rest of the GI tract muscularis contains
smooth muscle.
The myenteric plexus (plexus of Auerbach)
is within the layers of smooth muscle. It is
also part of the enteric nervous system and
controls GI motility (i.E. GI frequency and
strength of contraction).
Serosa
The serosa is the superficial layer of the
portions of the GI tract that are suspended in
the abdominopelvic cavity.
Inferior to the diaphragm it is called the
visceral peritoneum.
Peritoneum
The peritoneum is divided into parietal
peritoneum which lines the wall of the
abdominopelvic cavity and visceral peritoneum
which lines some of the organs in the cavity.
The space between the parietal and visceral
peritoneum is called the peritoneal cavity.
In some diseases, the peritoneal cavity becomes
distended by the accumulation of fluid in a
condition called ascites.
Retroperitoneal
Some organs lie on the posterior abdominal
wall and are only covered by peritoneum on
their anterior surface.
These organs are said to be retroperitoneal
and include the kidneys and pancreas.
Peritoneum Functions
The peritoneum contains large folds that
weave between the viscera.
These folds bind the organs to each other and
to the walls of the abdominal cavity.
They also contain blood vessels, lymphatic
vessels, and nerves that supply the abdominal
organs.
Peritoneal Folds
Greater omentum.
Falciform ligament.
Lesser omentum.
Mesentery.
Mesocolon.
Greater Omentum
The largest peritoneal fold.
It drapes over the transverse colon and coils of the
small intestine like a “fatty apron”.
It contains a considerable amount of fatty tissue.
It can greatly expand with weight gain, giving rise
to the characteristic “beer belly”.
There are many lymph nodes in the greater
momentum.
Falciform Ligament
The falciform ligament attaches the liver to
the anterior abdominal wall and diaphragm.
The liver is the only digestive organ that is
attached to the anterior abdominal wall.
Lesser Omentum
The lesser omentum suspends the stomach
and duodenum from the liver.
It contains some lymph nodes.
Mesentery
The mesentery is fan-shaped and binds the
small intestine to the posterior abdominal
wall.
Blood vessels, lymphatic vessels, and lymph
nodes lie between the two layers of
mesentery.
Mesocolon
The mesocolon binds the large intestine to
the posterior abdominal wall.
It carries blood vessels and lymphatic
vessels.
The mesentary and mesocolon work together
to loosely hold the intestines in place. This
allows for great movement to allow them to
mix food and propel food along the GI tract.
Peritonitis
Peritonitis is an acute inflammation of the
peritoneum.
Contamination of the peritoneum by
infectious microbes causes it.
Peritonitis
This is the result of accidental or surgical
wounds in the abdominal wall.
Perforation or rupture of abdominal organs
also causes this.
When inflamed peritoneal surfaces rub
together, peritonitis can result.
Mouth
The mouth is also referred to as the oral or
buccal cavity.
It is formed by the cheeks, hard and soft
palates, and tongue.
Mouth
The lips (labia) are fleshy folds surrounding
the opening of the mouth.
The labial frenulum is a midline fold of
mucous membrane that attaches the inner
surface of each lip to its corresponding gum.
The orbicularis oris and buccinator
muscles keep food between the upper and
lower teeth to assist in chewing.
Mouth
The vestibule of the oral cavity is the space
bounded by the cheeks and lips externally
and the teeth and gums internally.
The oral cavity proper is the space that
extends between the teeth and gums to the
fauces (opening between the oral cavity and
throat).
Mouth
The hard palate is the anterior portion of the
roof of the mouth and is formed by the
maxillae and palatine bones.
Mouth
The soft palate is the posterior portion of the roof
of the mouth. It is an arch-shaped muscular
partition that is lined by mucous membrane.
The uvula is a conical muscular process hanging
from the free border of the soft palate. During
swallowing, the uvula and soft palate are drawn
superiorly and closing off the nasopharynx to
prevent foods from entering the nasal cavity.
Salivary Glands
A salivary gland is any cell or organ that
releases saliva into the oral cavity.
Saliva cleanses the mouth and teeth.
When food enters the mouth, secretion of
saliva increases.
Saliva lubricates, dissolves, and begins the
chemical breakdown of food.
Minor Salivary Glands
Labial glands in the lips.
Buccal glands in the cheeks.
Palatal glands in the palate.
Lingual glands in the tongue.
Major Salivary Glands
These glands lie beyond the oral mucosa and empty
their secretions into ducts that lead to the oral
cavity.
Parotid glands and parotid duct.
Submandibular glands and submandibular ducts.
Sublingual glands and lesser sublingual ducts.
Composition & Functions Of
Saliva
Saliva is 95/5% water and 0.5% solutes.
Lysozyme – a bacteriolytic enzyme.
Salivary amylase – a digestive enzyme that
acts on starch.
Salivation
Salivation is the secretion of saliva.
It is controlled by the autonomic nervous
system.
The feel and taste of food are potent
stimulators of salivary gland secretions.
Salivation
Chemicals in food stimulate taste receptors on the
tongue and impulses are propagated to the salivary
nuclei in the brain stem.
Impulses from the facial nerve (CN VII) and the
glossopharyngeal nerve (CN IX) stimulate the
secretion of saliva.
Saliva continues to be secreted heavily for some
time after food is swallowing. This washes out the
mouth.
Mumps
Mumps is an inflammation and enlargement of the
parotid glands accompanied by moderate fever,
malaise (general discomfort), and extreme pain in
the throat, especially when swallowing sour foods
or acidic juices.
Swelling also occurs on one or both sides of the
face.
In about 30% of males past puberty, the testes may
also become inflamed (orchitis).
Tongue
The tongue is an accessory digestive organ
composed of skeletal muscle covered with a
mucous membrane.
Extrinsic muscles of the tongue move the tongue
from side to side and in and out to maneuver food
for chewing and push food to the back of the
mouth.
The intrinsic muscles of the tongue alter the shape
and size of the tongue for speech and swallowing.
Tongue
The lingual frenulum is a fold of mucous
membrane in the midline of the undersurface
of the tongue. It limits movement of the
tongue posteriorly.
Ankyloglossia is a condition in which the
lingual frenulum is abnormally short
impairing eating and speaking (“tonguetied”).
Tongue
Papillae cover the dorsum and lateral surfaces of
the tongue.
Fungiform papillae – mushroom like elevations near the
tip of the tongue that contain taste buds.
Vallate (circumvallate) papillae – contain taste buds and
are located in a V shape on the posterior surface.
Foliate papillae – located in small trenches on the lateral
margins of the tongue. Most of the taste buds degenerate
during childhood.
Filiform papillae – distributed in parallel rows. They
lack taste buds, but contain receptors for touch.
Tongue
Lingual glands secrete both mucus and a
watery serous fluid that contain the enzyme
lingual lipase.
Teeth
Teeth or dentes are accessory digestive organs
located in the sockets of the alveolar processes.
The processes are covered by gingivae (gums).
The sockets are lined by the periodontal ligament or
membrane.
The teeth are composed primarily of dentin, a
calcified connective tissue.
Teeth
Teeth are harder than bone because of the
higher content of calcium salts.
The dentin encloses a pulp cavity. The pulp
is a connective tissue containing blood
vessels, nerves, and lymphatic vessels.
Teeth
Root canals are narrow extensions of the
pulp cavity.
A hard substance called enamel covers the
dentin of the crown. Enamel is the hardest
substance in the body.
Branches Of Dentistry
Endodontics – deals with prevention, diagnosis, and
treatment of diseases that affect the pulp, root,
periodontal ligament, and alveolar bone.
Orthodontics – deals with prevention and correction
of abnormally aligned teeth.
Periodontics – deals with treatment of abnormal
conditions of the tissues immediately surrounding
the teeth.
Dentitions
Humans have two dentitions (sets of teeth).
Deciduous teeth.
Permanent teeth.
Dentitions
Deciduous teeth – also called primary teeth, milk
teeth, or baby teeth.
Begin to erupt at about 6 months or age and one pair of
teeth appears at about each month thereafter until all 20
are present.
Permanent teeth – also called secondary teeth.
The deciduous teeth are lost between the ages of 6 and 12
years and replaced by permanent teeth.
The permanent dentition contains 32 teeth that erupt
between age 6 and adulthood.
Types Of Teeth
Incisors – chisel-shaped to cut into food.
Cuspids (canines) – have a pointed surface
called a cusp. They are used to tear or shred
food.
Molars – crush and grind food.
Root Canal Therapy
All traces of pulp tissue are removed from the pulp
cavity and root canals of a badly diseased tooth.
A hole is made in the tooth and the root canals are
filed out and irrigated to remove bacteria.
The canals are treated with medication and sealed
tightly.
The damaged crown is then repaired.
Mechanical & Chemical
Digestion In The Mouth
Mechanical digestion results from
mastication (chewing) in which the food is
manipulated by the tongue, ground by the
teeth, and mixed with saliva.
Mechanical & Chemical
Digestion In The Mouth
The food becomes a soft, flexible mass called
a bolus (lump) that is easily swallowed.
Mechanical & Chemical
Digestion In The Mouth
Chemical digestion is assisted by two enzymes in
the mouth.
Salivary amylase initiates the breakdown of starch. It
reduces the long-chain polysaccharides to disaccharides
and trisaccharides. It is deactivated by the stomach acid
in about an hour.
Lingual lipase is secreted by glands in the tongue and
begins to work in the acidic environment of the stomach.
It breaks down triglycerides into fatty acids and
diglycerides.
Summary Of Digestive
Activities Of The Mouth
Cheeks and lips – keep food between teeth.
Food is uniformly chewed during
mastication.
Salivary glands – secrete saliva which
softens, moistens, and dissolves food. Saliva
cleanses the mouth and teeth. Salivary
amylase splits starch into smaller fragments.
Summary Of Digestive
Activities Of The Mouth
Tongue – maneuvers food for mastication
and swallowing. Receptors for gustation
(taste) which stimulates salivary glands.
Secretes lingual lipase which breaks down
triglycerides.
Teeth – cut, tear, and pulverize food to create
smaller particles for swallowing and increase
surface area for enzymatic reactions to occur.
Pharynx
When food is first swallowed, it passes from
the mouth into the pharynx.
The pharynx is composed of skeletal muscle
tissue lined by a mucous membrane.
Pharynx
The nasopharynx functions only in
respiration; However, the oropharynx and
laryngopharynx function in both respiration
and digestion.
Pharynx
Swallowing (deglutition) moves food from the
mouth to the stomach.
Voluntary stage – the bolus is passed into the
oropharynx.
Pharyngeal stage – involuntary passage of the bolus
through the pharynx into the esophagus.
Esophageal stage – involuntary passage of the bolus from
the esophagus to the stomach.
The bolus stimulates receptors in the oropharynx, which
sends signals to the deglutition center in the medulla
oblongata and lower pons of the brain stem.
Esophagus
The esophagus is a collapsible muscular tube
that lies superior to the trachea.
It lies posterior to the trachea and is about 25
cm (10 in.) Long.
Esophagus
It pierces the diaphragm at an opening called
the esophageal hiatus and ends in the
superior portion of the stomach.
Sometimes part of the stomach protrudes
above the diaphragm through the esophageal
hiatus (hiatal hernia).
Physiology Of The Esophagus
The esophagus secretes mucus and transports
food into the stomach.
The esophagus does NOT secrete digestive
enzymes and does NOT participate in
absorption.
Physiology Of The Esophagus
The upper esophageal sphincter regulates
the entrance of food into the esophagus from
the laryngopharynx.
Physiology Of The Esophagus
During the esophageal stage of swallowing,
peristalsis occurs. Peristalsis is a
progression of coordinated contractions and
relaxations and pushed the food bolus
onward.
The lower esophageal sphincter relaxes
during swallowing and allows the bolus to
pass through to the stomach.
Gastroesophageal Reflux
Disease
If the lower esophageal sphincter fails to
close adequately after food has entered the
stomach, the stomach contents can reflux, or
back up, into the inferior portion of the
esophagus.
This is known as gastroesophageal reflux
disease (GERD).
Gastroesophageal Reflux
Disease
Hydrochloric acid (HCl) from the stomach
contents can irritate the esophageal wall,
resulting in a burning sensation called
heartburn.
Drinking alcohol and smoking can cause the
sphincter to relax, worsening the problem.
GERD may be associated with cancer of the
esophagus.
Stomach
The stomach is a j-shaped enlargement of the
GI tract.
It lies inferior to the diaphragm in the
epigastric, umbilical, and left hypochondriac
regions of the abdomen.
Stomach
The stomach connects the esophagus to the
duodenum.
A meal can be eaten much faster than the
intestines can digest and absorb it.
The stomach is the most distensible part of
the GI tract.
Functions Of The Stomach
Reservoir for holding food before release to SI.
Mixes the saliva, food and gastric juice to form
chyme.
The semisolid bolus of food is converted into a
liquid.
Secretes gastric juice, which contains HCL, pepsin,
intrinsic factor, and gastric lipase.
Digestion of starch continues.
Functions Of The Stomach
HCL kills bacteria and denatures proteins.
Pepsin begins digestion of proteins.
Intrinsic factor aids absorption of vitamin B12.
Gastric lipase aids in digestion of triglycerides.
Secretes gastrin into blood.
Certain substances are absorbed.
Anatomy Of The Stomach
Four main regions:
Cardia – surrounds the superior opening of the stomach.
Fundus – the rounded portion superior and to the left of
the cardia.
Body – the large central portion of the stomach inferior
to the fundus.
Pylorus – the region of the stomach that connects to the
duodenum.
Pylorus
Pyloric antrum – connects to the body of the
stomach.
Pyloric canal – leads to the duodenum.
Pyloric sphincter – connects the stomach to
the duodenum and regulates passage of food.
Anatomy Of The Stomach
Rugae – large folds in the mucosa of the
stomach when it is empty.
Lesser curvature – the concave medial border
of the stomach.
Greater curvature – the convex lateral border
of the stomach.
Abnormalities Of The Pyloric
Sphincter In Infants
Pylorospasm – the muscle fibers of the sphincter
fail to relax normally and fails to allow passage of
food. The stomach becomes overly full and the
infant vomits. Drugs to relax the muscles are used.
Pyloric Stenosis – narrowing of the pyloric
sphincter. This must be corrected surgically.
Projectile vomiting is the hallmark symptom of this
condition.
Histology Of The Stomach
The stomach wall is composed of the same
four basic layers of the rest of the GI tract
with minor modifications.
Histology Of The Stomach
The surface of the mucosa contains simple
columnar epithelial cells called surface
mucous cells.
Epithelial cells extend into the lamina
propria, where they form columns of
secretory cells called gastric glands that line
chambers called gastric pits.
Gastric Glands
The gastric glands contain 3 types of exocrine gland
cells that secrete their products into the lumen of
the stomach.
Mucous neck cells – secrete mucous.
Parietal cells – produce intrinsic factor.
Chief cells – secrete pepsinogen and gastric lipase.
These secretions are called gastric juice (approximately
2000 – 300 ml per day).
Mechanical Digestion In The
Stomach
Mixing waves occur several minutes after
food enters the stomach – these are gentle,
rippling, peristaltic movements. They occur
every 15 to 25 seconds.
Few mixing waves occur in the fundus. It
serves primarily a storage function.
Mechanical Digestion In The
Stomach
These waves macerate food, mix it with the
secretions of the gastric glands, and reduce it
to a soupy liquid called chyme.
The pylorus remains almost, but not
completely closed. Each mixing wave forces
some food through the pyloric sphincter.
Chemical Digestion In The
Stomach
Foods may remain in the fundus for up to an hour
without becoming mixed with gastric juice.
During this time, digestion by salivary amylase
continues.
Once the food becomes mixed with gastric juice,
the salivary amylase is inactivated and the lingual
lipase is activated.
The parietal cells secrete HCl.
Chemical Digestion In The
Stomach
The chief cells secrete pepsin, which is a
proteolytic enzyme. Pepsin is activate in the
acidic environment of the stomach.
Pepsin is secreted in an inactive form called
pepsinogen and therefore does not digest the
proteins of the chief cells that secrete it.
Chemical Digestion In The
Stomach
Pepsinogen does not become activate until it
comes into contact with active pepsin
molecules or HCl.
The stomach epithelial cells are protected by
mucous secreted from the mucous neck cells.
Gastric lipase begins breakdown of
triglycerides; However, it does not work well
in the acidic environment.
Gastric Emptying
Gastric emptying is the periodic release of
chyme from the stomach into the duodenum.
Stimuli such as distention of the stomach and
the presence of partially digested proteins,
alcohol, and caffeine initiate gastric
emptying.
Gastric Emptying
The enterogastric reflex ensures that the
stomach does not release more chyme than
the small intestine can handle.
Stimuli such as distention of the duodenum
and the presence of fatty acids, glucose, and
partially digested proteins in the duodenal
chyme inhibit gastric emptying.
Gastric Emptying
Within 2 – 4 hours after eating a meal, the
stomach has emptied its contents into the
duodenum.
Foods rich in carbohydrates spend the least
time in the stomach, proteins longer, and fatladen meals the longest.
Vomiting
Vomiting or emesis is the forcible expulsion of the
contents of the upper GI tract (stomach and
sometimes duodenum) through the mouth.
Stimuli include the following:
Irritation and distention of the stomach.
Unpleasant sights.
General anesthesia.
Dizziness.
Certain drugs (morphine, derivatives of digitalis).
Vomiting
Vomiting involves squeezing the stomach
between the diaphragm and abdominal
muscles and expelling the contents through
open esophageal sphincters.
Prolonged vomiting can lead to alkalosis
(higher than normal blood pH).
Pancreas
Stomach chyme passes into the duodenum
for chemical digestion.
Activities of the pancreas, liver, and
gallbladder are necessary for this chemical
digestion to occur.
Anatomy Of The Pancreas
The pancreas is a retroperitoneal gland.
It is about 12-15 cm long and 2.5 cm thick.
It lies posterior to the greater curvature of the
stomach.
Anatomy Of The Pancreas
The pancreas consists of a head, body and tail.
It is connected to the duodenum by 2 ducts.
Pancreatic duct (duct of Wirsung) – larger. In most
people, the pancreatic duct joins the common bile duct
from the liver and gallbladder and enters the duodenum
as the hepatopancreatic ampulla (ampulla of Vater).
The ampulla opens at the major duodenal papilla.
Accessory duct (duct of Santorini) – smaller.
Histology Of The Pancreas
99% of the pancreas is made up of small
clusters of glandular epithelial cells called
acini, which make up the exocrine portion of
the gland.
The acini secrete the pancreatic juice, which
is a mixture of fluid and digestive enzymes.
Histology Of The Pancreas
The remaining 1% of the pancreas consists of
the pancreatic islets (islets of Langerhans),
which make up the endocrine portion of the
pancreas.
The islets secrete the hormones glucagon,
insulin, somatostatin, and pancreatic
polypeptide.
Pancreatic Juice:
Composition & Function
The pancreatic juice is a clear, colorless
liquid consisting mostly of water, some salts,
sodium bicarbonate, and several enzymes.
Pancreatic Juice:
Composition & Function
Sodium bicarbonate buffers acidic juice in
chyme, stops the action of stomach pepsin,
and creates the proper pH for digestive
enzymes of the small intestine.
Pancreatic Juice:
Composition & Function
Enzymes include:
Pancreatic amylase.
Protein digesting enzymes.
Trypsin.
Chymotrypsin.
Carboxypeptidase.
Elastase.
Pancreatic lipase.
Nucleic acid digesting enzymes.
Ribonuclease.
Deoxyribonuclease.
Pancreatitis
Pancreatitis is inflammation of the pancreas.
It can occur with alcohol abuse or with
chronic gallstones.
Acute pancreatitis is a more severe
condition associated with heavy alcohol
intake or biliary tract obstruction.
Trypsin begins to digest the pancreatic cells.
Recurrent attacks are common.
Liver
The liver is the heaviest gland of the body,
weighing about 1.4 kg.
It is the 2nd largest organ in the body after the
skin.
It is inferior to the diaphragm and occupies
most of the right hypochondriac region and
part of the epigastric region.
Gallbladder
The gallbladder is a pear-shaped sac that is
located in a depression of the posterior
surface of the liver.
It is about 7-10 cm long and typically hangs
from the anterior inferior margin of the liver.
Anatomy Of The Liver
The liver is divided into a large right lobe
and a smaller left lobe by the falciform
ligament.
The falciform ligament also suspends the
liver.
The liver is almost completely covered by
visceral peritoneum.
Anatomy Of The Gallbladder
The parts of the gallbladder are the broad
fundus, the body (central portion), and the
neck (tapered portion).
Functions Of Gallbladder
The gallbladder stores and concentrates bile
until it is needed in the small intestine.
In the concentration process, water and ions
are absorbed by the gallbladder mucosa.
Histology Of The Liver &
Gallbladder
The lobes of the liver are made up of many
functional units called lobules.
The lobules contain hepatocytes arranged in
irregular, branching, interconnected plates
around a central vein.
Histology Of The Liver &
Gallbladder
The liver has large endothelial lined spaces
called sinusoids instead of capillaries.
Fixed phagocytes called stellate
reticuloendothelial (Kuppfer) cells destroy
worn out WBCs, RBCs, bacteria, and any
other foreign material in venous blood
draining from the GI tract.
Histology Of The Liver &
Gallbladder
Bile is secreted from the hepatocytes and
travels through the right and left hepatic
ducts.
These ducts merge to form the common
hepatic duct, which later joins the cystic
duct from the gallbladder.
Bile is stored in the gallbladder for later
release.
Jaundice
Jaundice is a yellowish coloration of the
sclera, skin, and mucous membranes due to
buildup of a yellow compound called
bilirubin.
As RBCs break down they release bilirubin.
Jaundice
Bilirubin is processed by the liver and excreted into
bile.
3 categories of jaundice:
Prehepatic jaundice – excess production of bilirubin.
Hepatic jaundice – congenital liver disease, cirrhosis of
the liver, or hepatitis.
Extrahepatic jaundice – blockage of bile drainage by
gallstones, cancer of the bowel or pancreas.
Bile
Bile is a yellow, brownish, or olive-green liquid.
Bile salts play a role in emulsification, the
breakdown of large lipid globules into a suspension
of droplets.
This also aids in the absorption of lipids following
digestion.
These droplets increase the surface area allowing
pancreatic lipase to function more efficiently.
Functions Of The Liver
Carbohydrate metabolism.
Lipid metabolism.
Protein metabolism.
Processing of drugs and hormones.
Functions Of The Liver
Excretion of bilirubin.
Synthesis of bile salts.
Storage.
Phagocytosis.
Activation of vitamin D.
Gallstones
If bile contains insufficient bile salts,
insufficient lecithin, or excessive cholesterol,
the cholesterol may crystallize to form
gallstones.
As the gallstones grow in size or number,
they may cause minimal, intermittent, or
complete obstruction to the flow of bile from
the gallbladder to the duodenum.
Gallstones
Treatment consists of using gallstonedissolving drugs, lithotripsy (shock-wave
therapy), or surgery.
Recurrent gallstones, failure of drugs, or
contraindication to lithotripsy may warrant
cholecystectomy (removal of the
gallbladder).
Digestive Hormones
Gastrin promotes secretion of gastric juice,
increases gastric motility, and promotes growth of
the gastric mucosa.
Secretin stimulates the secretion of pancreatic juice
and bile. Inhibits secretion of gastric juice.
Cholecystokinin stimulates secretion of pancreatic
juice and causes ejection of bile from the
gallbladder. Enhances the effects of secretin.
Small Intestine (SI)
The major events of digestion and absorption occur
in the small intestine.
The length of the SI provides great surface area for
this to occur.
Circular folds, villi, and microvilli also serve to
increase the surface area of the SI.
The SI begins at the pyloric sphincter of the
stomach, coils through the central and inferior parts
of the abdomen, and eventually opens into the LI.
Functions Of The SI
Segmentations mix chyme with digestive
juices and bring food into contact with the
mucosa for absorption.
Peristalsis propels food through the SI.
Functions Of The SI
Completes the digestion of carbohydrates,
proteins, and lipids.
Begins and completes the digestion of
nucleic acids.
Absorption of 90% of nutrients and water.
Anatomy Of The SI
The SI is divided into 3 regions:
Duodenum – shortest region, retroperitoneal,
starts at the pyloric sphincter of the stomach.
Jejunum – between the duodenum and ileum.
Ileum – the longest region, joins the large
intestine at the ileocecal sphincter.
Anatomy Of The SI
Circular folds – permanent ridges in the
mucosa. They enhance absorption by
increasing the surface area of the SI and by
causes the chyme to spiral, rather than move
in a straight line.
Histology Of The SI
The same 4 basic layers that make up the rest
of the GI tract exist in the SI as well, with
some basic exceptions.
The mucosa forms a series of fingerlike villi
(tufts of hair) projections, which increase the
surface area available for absorption.
Histology Of The SI
Each villus contains an arteriole, a venule, a
blood capillary network, and a lacteal
through which nutrients are absorbed.
Histology Of The SI
The mucosa is simple columnar epithelium,
which contains absorptive cells, goblet cells,
enteroendocrine cells, and Paneth cells.
The apical surface of the absorptive cells
contains microvilli (bundles of actin
filaments). Collectively, they are referred to
as the brush border. They increase the
surface area.
Histology Of The SI
The mucosa contains deep crevices lined
with glandular epithelium.
Cells lining the crevices form the intestinal
glands (crypts of Lieberkuhn), which secrete
intestinal juice.
Histology Of The SI
Paneth cells secrete lysozyme, a bactericidal
enzyme.
The lamina propria of the SI has an abundance of
mucosa-associated lymphatic tissue (MALT).
Solitary lymphatic nodules are present as well as
groups of aggregated lymphatic nodules (Peyer’s
patches).
Duodenal (Brunner’s) glands of the submucosa
secrete an alkaline mucus.
Intestinal Juice
Intestinal juice is a clear yellow fluid that
contains water and mucus.
It is slightly alkaline (pH 7.6).
It provides a liquid medium to assist in the
absorption of substances from chyme.
Brush Border Enzymes
The absorptive epithelial cells synthesize
several digestive enzymes, called brush
border enzymes, and insert them into the
plasma membrane of the microvilli.
Consequently, some digestion occurs at the
surface of the epithelial cells and not
exclusively in the lumen of the SI.
Mechanical Digestion In The
Small Intestine
Segmentations – localized mixing
contractions that occur in portions of the
intestines distended by a large volume of
chyme. Sloshes chyme back and forth.
Migrating motility complexes – a type of
peristalsis that moves the chyme down the
length of the SI after segmentation has
occurred.
Chemical Digestion In The SI
Chyme entering the small intestines contains
partially digested carbohydrates, proteins,
and lipids.
Pancreatic juice, bile, and intestinal juice
complete the effort of digestion.
Digestion Of Carbohydrates
Pancreatic amylase, sucrase, lactase, and maltase
complete the digestion of carbohydrates.
These enzymes break complex carbohydrates into
monosaccharides, which can be absorbed.
Lactose intolerance occurs in people whose
mucosal cells fail to produce enough of the enzyme
lactase.
Symptoms include siarrhea, gas, bloating, and abdominal
cramps after the consumption of dairy products.
Digestion Of Proteins
Pepsin, trypsin, chymotrypsin,
carboxypeptidase, elastase, and peptidases
complete the process of protein digestion.
Proteins are broken down into single amino
acids, which can be absorbed.
Digestion Of Lipids
Lipases complete the process of lipid
digestion in the SI.
Bile salts increase the surface area of
triglycerides through the process of
emulsification. The globules are converted
into droplets.
Lipids are broken down into monoglycerides,
which can then be absorbed.
Digestion Of Nucleic Acids
Pancreatic juice contains two nucleases:
ribonuclease (breaks down RNA) and
deoxyribonuclease (breaks down DNA).
Brush border enzymes further break these
down into pentoses, phosphates, and
nitrogenous bases, which can be absorbed.
Absorption In The SI
Forms that can be absorbed:
Monosaccharides (glucose, fructose, and
galactose) from carbohydrates.
Single amino acids, dipeptides, and tripeptides
from proteins.
Fatty acids, glycerol, and monoglycerides from
triglycerides.
Absorption In The SI
Mechanisms of absorption:
Diffusion.
Facilitated diffusion.
Osmosis.
Active transport.
Absorption In The SI
Passage of digested nutrients from the
gastrointestinal tract into the blood or lymph is
called absorption.
About 90% of the nutrients are absorbed in the SI.
The other 10% occurs in the stomach and the large
intestine.
Any undigested or unabsorbed material passes
through to the LI.
Absorption Of
Monosaccharides
All carbohydrates are absorbed as
monosaccharides.
They are absorbed via facilitated diffusion
and active transport.
The SI can absorb up to 120 grams of
carbohydrates per hour.
Absorption Of Amino Acids,
Dipeptides, & Tripeptides
Most proteins are absorbed as amino acids
via active transport processes.
About half of the amino acids come from
food.
The other half of the amino acids come from
proteins in digestive juices and dead cells
that slough off the mucosal surface.
Absorption Of Lipids
All dietary lipids are absorbed via simple diffusion.
Adults absorb about 95% of the lipids present in the
SI.
Most dietary fatty acids require bile for adequate
absorption.
When lipids are not absorbed properly, the fatsoluble vitamins A, D, E, & K are not absorbed
properly.
Absorption Of Electrolytes
Most of the electrolytes absorbed by the SI
come from gastrointestinal secretions, and
some come from ingested foods and liquids.
Active transport mechanisms are utilized to
absorb Na+ ions.
Absorption Of Electrolytes
Negatively charged bicarbonate, chloride,
iodide, and nitrate ions can passively follow
Na+ or be actively transported.
Iron, potassium, magnesium, and phosphate
ions are absorbed via active transport.
Absorption Of Vitamins
The fat-soluble vitamins A, D, E, & K are
included with dietary lipids and absorbed via
simple diffusion.
Most water-soluble vitamins are absorbed via
simple diffusion.
Vitamin B12 combines with intrinsic factor
and the combination is absorbed via active
transport.
Absorption Of Water
The volume of water in the SI (about 9.3
liters daily) comes from ingested liquids and
gastric secretions.
The SI absorbs about 8.3 liters of it.
90% of the remaining water (about 0.9 liters)
is absorbed in the large intestine.
Water absorption occurs via osmosis.
Absorption Of Alcohol
Alcohol is lipid soluble and begins to be absorbed
in the stomach.
There is greater surface area for absorption in the
SI; therefore, the longer alcohol remains in the
stomach, the more slowly blood alcohol rises.
Fatty acids in the chyme slow gastric emptying;
therefore, eating fatty foods with alcohol will cause
a slower rise in blood alcohol.
Large Intestine (LI)
The large intestine is the terminal portion of
the GI tract.
It is divided into four principal regions.
Large Intestine Functions
Completion of absorption (water, ions, and
vitamins).
Production of some B vitamins and vitamin K by
bacteria in the LI.
Formation of feces.
Expulsion of feces (defecation) from the body
through haustral churning and peristalsis.
LI Anatomy
The LI extends from the ileum to the anus.
It is about 1.5 m long and 6.5 cm in diameter.
It is attached to the posterior abdominal wall
by mesocolon.
Major Regions Of The LI
Cecum.
Colon.
Rectum.
Anal canal.
LI Anatomy Continued…
The iliocecal valve guards the opening to the LI
from the ileum.
The cecum hangs inferior to the iliocecal valve.
The appendix is a twisted, coiled tube hanging on
the cecum.
The open end of the cecum merges with the colon,
which is divided into ascending, transverse,
descending, and sigmoid portions.
LI Anatomy Continued…
The last 20 cm of the GI tract make up the rectum.
The anal canal is the termination of the rectum.
The anus is the opening of the anal canal to the
exterior.
This opening is guarded by an internal anal
sphincter (involuntary) and an external anal
sphincter (voluntary).
Appendicitis
Inflammation of the appendix is termed
appendicitis.
Obstruction of the lumen of the appendix by chyme,
inflammation, a foreign body, carcinoma, stenosis,
or kinking of the organ precedes the appendicitis.
It is characterized by high fever, elevated WBC
count, and a neutrophil count higher than 75%.
Subsequent infection can produce edema and
ischemia.
Perforation can occur within 24 hours.
Appendicitis
An appendicitis typically begins with
referred pain to the umbilical region of the
abdomen, followed by anorexia, nausea, and
vomiting.
After several hours, pain localizes in the right
lower quadrant.
Appendicitis
The pain is continuous, dull or severe.
Coughing, sneezing, or body movements can
exacerbate the pain.
Early appendectomy (removal of the
appendix) is recommended, because it is
safer to undergo surgery than to risk rupture
and peritonitis.
Histology Of The Large
Intestine
No villi or permanent circular folds are found
in the mucosa of the large intestine.
The epithelium contains mostly absorptive
and goblet cells. The absorptive cells
participate mainly in water absorption.
Histology Of The Large
Intestine
The submucosa is similar to that found in the rest
of the GI tract.
The muscularis consists of an external layer of
longitudinal smooth muscle and an internal layer of
circular smooth muscle. This forms three
conspicuous longitudinal bands called the teniae
coli.
Tonic contractions of the bands draw the LI
together into pouches called haustra.
Mechanical Digestion In LI
The iliocecal sphincter regulates the passage of
chyme from the ileum into the cecum.
Normally, the valve remains partially closed to
limit passage of chyme.
After a meal, the gastroileal reflex intensifies ileal
peristalsis.
The hormone gastrin also relaxes the sphincter.
Mechanical Digestion In LI
Haustral churning – The haustra remain relaxed
and become distended while they fill up. When the
distention reaches a certain point, the walls contract
and squeeze the contents into the next haustrum.
Peristalsis occurs.
Mass peristalsis is a movement that occurs at the
middle of the transverse colon and quickly drives
contents into the rectum.
Food in the stomach initiates the gastrocolic reflex.
Chemical Digestion LI
Mucous is secreted by the glands of the LI,
but no enzymes are secreted.
The bacteria of the LI perform the final
stages of digestion.
Chemical Digestion LI
Bacteria ferment any remaining carbohydrates,
which releases hydrogen, carbon dioxide, and
methane gases. These gases constitute the flatus
(gas) in the colon. When the gas is excessive it is
termed flatulence.
Bacteria convert any remaining proteins into amino
acids.
Some B vitamins and vitamin K are produced by
the bacteria in the colon.
Absorption & Feces Formation
In The LI
Water is absorbed from the chyme over a period of
3-10 hours. As the water becomes absorbed it
becomes solid or semi-solid and is termed feces.
The feces consists of water, inorganic salts,
sloughed off epithelial cells, bacteria, products of
bacterial decomposition, unabsorbed digested
materials, and indigestible parts of food.
The LI absorbs water, vitamins and ions (I.e.
sodium and chloride).
Occult Blood
Occult Blood refers to blood that is hidden
and not detectable by the human eye.
Urine and feces are often examined for
occult blood.
Occult blood testing is utilized to screen for
colorectal cancer.
Defecation Reflex
Mass peristalsis movements push fecal material
from the sigmoid colon into the rectum.
This causes distention of the rectal wall, which
stimulates stretch receptors and initiates a
defecation reflex that empties the rectum.
This reflex opens the internal anal sphincter.
The external anal sphincter is voluntarily
controlled.
Diarrhea
Diarrhea is an increase in the frequency, volume,
and fluid content of the feces caused by increased
motility and decreased absorption by the intestines.
Frequent diarrhea can result in dehydration and
electrolyte imbalances.
Excessive motility can be caused by lactose
intolerance, stress, and microbes that irritate the
gastrointestinal mucosa.
Constipation
Constipation refers to infrequent or difficult
defecation caused by decreased motility of
the intestines.
Feces remain in the LI for prolonged periods
of time. This causes increased water
absorption and the feces become dry and
hard.
Constipation
Constipation can be caused by poor habits
(delaying defecation), spasms, insufficient
fiber in the diet, inadequate fluid intake, lack
of exercise, emotional stress, and certain
drugs.
Constipation
Treatment often involves laxatives to induce
defecation.
Laxatives can be habit forming; therefore,
adding fiber to the diet, increasing the
amount of exercise, and increasing fluid
intake are safer ways to control the problem.
Dietary Fiber
Dietary fiber consists of indigestible plant
carbohydrates such as cellulose, lignin, and
pectin. These are found in fruits, vegetables,
grains, and beans.
Dietary Fiber
Insoluble fiber does not dissolve in water.
Insoluble fiber speeds up passage of
materials through the track.
Woody or structural parts of plants include the
skins of fruits and vegetables and the bran
coating around wheat and corn kernels.
Dietary Fiber
Soluble fiber dissolves in water and forms a
gel that slows passage of material through
the tract.
Soluble fiber is found in beans, oats, barley,
broccoli, prunes, apples, and citrus fruits.