Lecture 15 - Physiology of the small intestine and accessory organs 1.ppt

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Physiology of the small
intestine and accessory
organs 1

Dr Susan Currie
HW424
[email protected]
Learning outcomes

To know the physiology of the accessory
organs to the upper GI tract

To understand how each of these organs is
under neuronal and hormonal control

To understand the role of each of these
organs in digestion
Accessory organs and
digestion
Pancreas
– Structure
– Function
– Regulation of secretions
Liver
– Structure
– Metabolic function
– Bile
Gallbladder
 Falciform ligament

Left hepatic duct
LIVER

Right hepatic duct

Cystic duct Common hepatic duct
Common bile duct
GALL BLADDER
Accessory duct PANCREAS

Tail
DUODENUM Body
Duodenal Pancreatic duct
papilla Head
Hepatopancreatic
ampulla
 Pancreas - functions
Exocrine (99% of cells)
– Accessory organ to digestion
– Secretion of enzyme-rich fluid into duodenum
– Break down all categories of digestible food
Endocrine (1% of cells)
– Release of hormones into bloodstream that
affect carbohydrate metabolism
Insulin (Islet -cells)
Glucagon (Islet -cells)
Somatostatin (Islet -cells)
 Pancreas - structure
Lobule Structure similar to
salivary glands

Duct
Acinar cells secrete
enzymes and fluid
Main into duct system
Acinus Duct Interlobular duct
duct Pancreatic duct fuses
with bile duct on
Cholecystokinin
acinar ACh
entry to duodenum
Enzyme
cells secretion Constitution of
pancreatic juice
under control of local
nerves and hormones
duct cells Secretin HCO - rich
3
 Composition of
Pancreatic juice

Aqueous component

Enzymatic component

Due to the potency of its enzyme
contents, the pancreas is a very
dangerous organ to injure.
 Aqueous component
200-800ml secreted each day

Rich in bicarbonate (pH8)

Helps to neutralise acidic chyme as it
enters the duodenum
Secretion stimulated by secretin
Enzymatic component

Proteolytic enzymes (cleave peptides)
– trypsin, chymotrypsins, carboxypeptidases
– Secreted in inactive form, activated in duodenum by
Enterokinase.
– Autodegradation of the pancreas may occur if these
enzymes were secreted in active form
Pancreatic amylase (breaks down starch)
– Majority of starch digestion – secreted in active form
Lipolytic enzymes (fat digestion)
– Lipase – secreted in active form
– colipase, cholesterol esterase, phospholipase A2
- activated by trypsin in duodenum
 Regulation of
secretions
Parasympathetic
CHYME containing partially digested impulses
proteins, fats etc

secretion of
pancreatic enzymes

secretion of aqueous
secretion of pancreatic
pancreatic juice
juice rich in digestive
enzymes
SECRETIN
CHOLECYSTOKININ
Control of pancreatic
secretions
Under nervous and hormonal control
Nervous reflex involves medulla and
vagal innervation (cephalic phase)
Gastrin released in response to stomach
distension (gastric phase)
Secretin and CCK secreted by mucosa in
response to presence of chyme in
duodenum (intestinal phase)
– secretin – bicarbonate-rich aqueous juice
– CCK - enzymatic juice
 What is pancreatitis?
Pancreatic enzymes are activated within
the pancreas, causing them to attack
the organ itself.
Two forms – acute and chronic. Acute
pancreatitis becomes chronic when
pancreatic tissue is destroyed and
scarring develops.
Causes – gallstones, alcohol abuse,
unknown cause (idiopathic)
Treatment – pain and infection
management, electrolyte therapy. In
severe cases – surgical intervention.
 The Liver
Lies in abdomen under diaphragm
– Largest organ in the body (1.8kg in
men, 1.3kg in women)
– Holds ~13% of the total blood supply
at any given moment.
– Has over 500 (!!) estimated functions.
 The Liver – some
functions
Processing digested food from intestine
Manufacture of bile
Storage
– Converts excess monosaccharides to glycogen
– Storing iron, vitamins and other essential
chemicals
Metabolism
– Breaks down stored glycogen, fat or protein to
glucose (hormonal control)
– Metabolises drugs and breaks down poisons
– Bactericidal activity (Kupffer cells)
 Liver structure
Hepatic (liver) cells arranged in radial
pattern around central vein
Hepatocytes make up functional
units called lobules
Lobules form lobes of liver (two main
lobes)
 Liver structure

Central
Sinusoids vein Liver cells

Kupffer cells
Space of
Disse
Bile canaliculi

Terminal
lymphatics

Lymphatic
vessel

Portal
vein
Portal Hepatic
triad artery
Bile duct
 Hepatic blood supply
Receives double blood supply
– oxygenated blood from hepatic artery
– de-oxygenated, nutrient rich blood from
portal vein
Hepatic cells
– extract oxygen and most nutrients
– detoxify or store poisons and drugs
– secrete products (except bile) into
hepatic vein
Blood supply to the
liver
the enterohepatic circulation
Aorta Inferior vena cava
Hepatic artery

30% of blood
flow to
liver
Hepatic
vein

70% of blood
flow to
liver
Portal vein
 Bile
Two characteristics
– excretory product of liver metabolism
– a digestive secretion
Bile salts emulsify fat into small droplets
Bile cholesterol made soluble by bile salts
Bile pigments (bilirubin) which are yellow/brown
give faeces and urine their colour. Absorbed from
blood.
(salts, cholesterol and pigments secreted by liver
cells (hepatocytes))
Bicarbonate ions (neutralise acid chyme) secreted
by epithelial cells lining bile ducts.
Secretion from the liver increased by vagal
stimulation and secretin
Circulation
of bile
Enterohepatic
circulation
 Gallbladder
Stores and concentrates bile by extracting
water and ions. Can lead to increased
insoluble cholesterol levels.
Bile enters gallbladder by cystic duct when
small intestine is empty
Ejection of bile into duodenum occurs when
– protein or fat-rich chyme enters duodenum
causes CCK release
– CCK causes gallbladder to contract and sphincter of
Oddi to relax thus allowing bile to enter the
duodenum.
 What are gallstones?
Crystalline deposits that accumulate
when there is too much cholesterol
and not enough bile salts.

Can be dissolved or if severe, can
have gall bladder removed
(cholecystectomy)
 Why is jaundice a
symptom of gallstones?
Stones can block the common bile
duct

Increased levels of bilirubin in blood
plasma

Discolouration of skin (jaundice)
Reinforcement of learning
points
To know the physiology of the accessory
organs to the GI tract
– Pancreas
– Liver
– Gall Bladder
To understand how each of these is under
neuronal and hormonal control
To understand the role each of these organs
plays in digestion
– Production of enzymes
– Production and storage of bile