GI 4

Question 1

More than —% of pancreas is exocrine:
– Acinar cells synthesize
and secrete
– Duct cells secrete

Answer 1

90
hydrolases for digestion
bicarbonate and water

Question 2

Luminal digestion of (3)

– Impaired function causes (2)

Answer 2

carbohydrate, protein, fat.

maldigestion and malabsorption.

Question 3

Neutralizes gastric H+:
secretes HCO3- into
duodenum up to

Answer 3

145 mEq/L

Question 4

Proteolytic enzymes 
synthesized, stored and 
secreted as inactive 
precursors.
- Activated in intestinal 
lumen (2)

Answer 4

1. Enterokinase

2. Trypsin

Question 5

—- synthesized, stored and

secreted with precursors.

Answer 5

Trypsin inhibitor

Question 6

Regulation of Acinar Cell Secretion

Function =

Answer 6

Digestive Enzyme Secretion

Question 7

Two Stimuli for Acini Cell 
Enzyme Secretion (2)

Answer 7

1. CCK

2. ACh/GRP (vagovagal reflex)

Question 8

Two Stimuli for Ductal Cell

Secretion of H2O and HCO3- (2)

Answer 8

1. *Secretin (Secretin receptor).

2. Ach (M3 receptor).

Question 9

Secretin (4)

Answer 9

 cAMP
 Phosphorylation of 
CFTR
 increase Cl- conductance
 increase HCO3- secretion

Question 10

Secretin released when pH

Answer 10

< 4.5.

Question 11

Below pH = 3,

Answer 11

secretin 
release is maximal in segment 
of duodenum. Further release 
of secretin depends upon area 
of small intestine affected.  
(Maximal bicarbonate 
response is 30 mEq/hr)

Question 12

During meal pH rarely

Answer 12

< 3.5 or 4.0.

Question 13

Phases of Pancreatic Secretion (3)

Answer 13

 Cephalic (20%)
 Gastric (5-10%)
 Intestinal (70-80%)

Question 14

 Cephalic (20%)
 Gastric (5-10%)
Both phases mediated by

Answer 14

vagovagal
reflex - low volume, high enzyme
secretion (Ach/GRP)

Question 15

(2) both potentiate the effects of secretin on water and

bicarbonate secretion.

Answer 15

CCK and Ach

Question 16

Secretion Rate α

Answer 16

[Secretin] + [Ach] + [CCK]

Question 17

Low secretion rates - (2)

Answer 17

 bicarbonate concentration is low

 chloride concentration is high

Question 18

High secretion rates - (2)

Answer 18

 bicarbonate concentration is high

 chloride concentration is low

Question 19

Sodium and potassium concentrations

always same as —

Answer 19

plasma

Question 20

Pancreatic juice is —

Answer 20

isotonic

Question 21

Cystic Fibrosis (3)

Answer 21

 Abnormal sweat composition.
 Decreased pulmonary and pancreatic 
secretion.
 Mendelian autosomal recessive 
occurrence.

Question 22

Defective CFTR: (3)

Answer 22

– Sweat Cl- reabsorption;
– Pancreatic duct cell function;
– Pulmonary mucus clearance.

Question 23

Disorders of Exocrine Pancreatic

Function (3)

Answer 23

 Cystic Fibrosis
 Pancreatitis
 Duct Obstruction

Question 24

Pancreatitis (4)

Answer 24

– Acute and chronic
– Trypsin activation causes pain, 
inflammation
– Chronic disease destroys acini
– Consequences reflect decreased 
digestive enzyme production

Question 25

Duct Obstruction (2)

Answer 25

– Gallstones

– Tumors

Question 26

Without pancreatic

enzymes - (2)

Answer 26

 60% fat not absorbed 
(steatorrhea)
 30-40% protein and 
carbohydrates not 
absorbed

Question 27

Functional Unit of liver =

Answer 27

Liver

Lobule

Question 28

skipped
Hepatic Function (7)

Answer 28

Cleansing and storage of blood
Metabolism of nutrients
Synthesis of proteins (coagulation factors,
plasma proteins, angiotensinogen)
Metabolism of hormones, chemicals
Storage of energy, vitamins, iron
Excretion of lipid-soluble waste products
Marked capacity for cellular regeneration

Question 29

Secretion of bile –

Answer 29

600-1000 ml/day

Question 30

Liver Has High Blood and Lymph Flow

 Total blood input approaches

Answer 30

1,350 ml/min (27% of resting

cardiac output).

Question 31

Liver Has High Blood and Lymph Flow
 Resistance of vessels to blood
flow very —

Answer 31

low

Question 32

Cirrhosis increases resistance,

produces

Answer 32

portal hypertension.

Question 33

Hepatic lymph accounts for –%

of total body production.

Answer 33

50

Question 34

Increased vascular resistance can

cause —.

Answer 34

ascites

Question 35

Role of Bile (2)

Answer 35

1. Bile salts (acids) and 
lecithin required for 
digestion (emulsification) 
and absorption (micelles) of 
dietary fat.
2. Excretion of lipophilic 
metabolites (bilirubin), 
excess cholesterol, other 
waste products, drugs, and 
toxins.

Question 36

Hepatocytes secrete (5)

Answer 36

bile salts, 
cholesterol, 
lecithin, 
bilirubin, 
many other lipophilic substances.

Question 37

Duct epithelial cells modify —, add —

Answer 37

primary secretion

HCO3-

Question 38

Storage and concentration in —.

Answer 38

gallbladder

Question 39

— circulation reabsorbs some

components.

Answer 39

Enterohepatic

Question 40

Hepatocytes secrete
organic component of
bile into bile ducts (3)

Answer 40

• Bile Salts (produced
  from cholesterol)
• Cholesterol
• Organic substances

Question 41

Bile Duct cells secrete (3)

Answer 41

water, Na+ and HCO3-

Question 42

Bile Transported (2)

1. Small intestine for
2. Gall Bladder for

Answer 42

fat digestion

storage

Question 43

Bile secreted — by liver

Answer 43

continually

Question 44

Most stored in

Answer 44

Gall Bladder 
(max. volume = 30-60 ml)

Question 45

12 hours of liver bile secretion

or — ml bile (concentrated)

Answer 45

450

Question 46

(2) reabsorbed from bile while in
Gall Bladder (5-20x more
concentrated)

Answer 46

Electrolytes and water

Question 47

Cholecystectomy (2)

Answer 47

 No problems with fat digestion

 Bile flow directly into duodenum

Question 48

Enterohepatic Circulation Conserves Bile Salts
Substance secreted into
bile by

Answer 48

hepatocytes.

Question 49

Enterohepatic Circulation Conserves Bile Salts
Delivered to lumen of
—, then reabsorbed.

Answer 49

ileum

Question 50

Enterohepatic Circulation Conserves Bile Salts
Transported to
hepatocytes via —

Answer 50

sinusoids

Question 51

Enterohepatic Circulation Conserves Bile Salts
—% of bile salts
recirculated

Answer 51

94

Question 52

Enterohepatic Circulation Conserves Bile Salts
Bile salts circulate –x
before lost in feces.

Answer 52

17x

Question 53

Active absorption: (2)

Answer 53

Apical sodium-dependent bile salt
transporter (ASBT)
ASBT also present in renal PT

Question 54

BARI (Bile Acid Reabsorption Inhibitors) (4)

Answer 54

Drugs that inhibit Bile Recycling
Used to lower LDL levels in blood
Hepatocyte production of bile increases
6-10x if bile salt recycling reduced.
LDL taken up from blood via hepatocytes
as source of cholesterol for bile salts

Question 55

Types:

1. Bile acid sequestrants

Answer 55

Bind to bile salts in intestinal lumen and

block transport

Question 56

Benefits: (2)

Answer 56

Drugs work in intestinal lumen (do not
need to be absorbed)
Reduce harmful side effects

Question 57

Low ASBT Activity Associated with: (4)

Answer 57

Crohn’s disease
Congenital 1° bile acid malabsorption
Idiopathic chronic diarrhea
Irritable Bowel Syndrome

Question 58

Hepatocyte dysfunction impairs (2) secretion:

Answer 58

bilirubin, bile salt

Question 59

Hepatocyte dysfunction impairs bilirubin, bile

salt secretion: (2)

Answer 59

– Drugs (acetaminophen), viral hepatitis, toxins;

– Fibrosis, cirrhosis.

Question 60

Duct obstruction: (2)

Answer 60

– Gallstones, tumors.

Question 61

Intestinal mucosal defects impair`

Answer 61

bile salt

reabsorption.

Question 62

Stimuli for Gut Hormone Secretion

Gastrin (stomach) (3)

Answer 62

 amino acids and peptides
 distention
 (H+ inhibits)

Question 63

Stimuli for Gut Hormone Secretion

Ghrelin (stomach) (2)

Answer 63

 absence of nutrients

 (inhibited by stretch)

Question 64

Stimuli for Gut Hormone Secretion

Secretin (Small Intestine) (1)

Answer 64

 H+

Question 65

Stimuli for Gut Hormone Secretion

CCK (Small Intestine) (3)

Answer 65

 amino acids and peptides
 fatty acids
 Indirectly via secretion of CCK-
RP and Monitor peptide

Question 66

Stimuli for Gut Hormone Secretion

GIP, GLP-1 (Small intestine) (1)

Answer 66

 Glucose

Question 67

Stimuli for Gut Hormone Secretion

Motilin (Small Intestine) (2)

Answer 67

 stimulus unknown
 some studies suggest that an
alkaline pH in the duodenum
stimulates its release.

Question 68

Endocrine Regulation: Specific Actions of Each Hormone

Gastrin (4)

Answer 68

↑ Histamine Release (ECL cell)
↑ H+ Secretion (Parietal Cell)
↑ Gastric emptying
Trophic affects on Mucosa

Question 69

Endocrine Regulation: Specific Actions of Each Hormone

Ghrelin (1)

Answer 69

↑ Hunger

Question 70

Endocrine Regulation: Specific Actions of Each Hormone

Motilin (2)

Answer 70

↑ Gastric Motility (MMC/Fasting)

↑ Intestinal Motility (MMC/Fasting)

Question 71

Endocrine Regulation: Specific Actions of Each Hormone

GIP, GLP-1 (3)

Answer 71

↑ Insulin response to glucose
↓ Gastric Acid Secretion
↓ Gastric emptying

Question 72

Endocrine Regulation: Specific Actions of Each Hormone

Secretin (4)

Answer 72

 ↑ Panc & Biliary HCO3- secretion
 Trophic affects on Exo. Pancreas
 ↓ Gastric Acid Secretion
 ↓ Gastric emptying

Question 73

skipped
Endocrine Regulation: Specific Actions of Each Hormone
CCK (7)

Answer 73

 ↑ Pancreatic enzyme secretion
 ↑ Gall Bladder Contraction
 Trophic affects on Exo. Pancreas
 ↓ Gastric emptying
 ↓ Gastric Acid Secretion
 Relaxation of Sphincter of Oddi
 Gastric receptive relaxation