Physiology -- Intestinal Absorptive and Secretory Processes

Question 1

4 enzymes that break down proteins to small peptides

Answer 1

• Pepsin
• Trypsin
• Chymotrypsin
• Carboxypeptidase

Question 2

Location of Brunner’s glands

Answer 2

Duodenum submucosa

Question 3

Contents of Brunner’s glands

Answer 3

• No digestive enzymes
• Lots of HCO3-
• Mucin

Question 4

Location of goblet cells

Answer 4

Throughout the small intestine

Question 5

Secretions of goblet cells

Answer 5

Mucin

Question 6

Characterization of intestinal mucosa

Answer 6

Crypts and villi

Question 7

Location of complete digestion and absorption in terms of the small intestine

Answer 7

Villi

Question 8

Location of secretion in terms of small intestine

Answer 8

Crypt

Question 9

Rate of cell shedding at the tip of the villus

Answer 9

100 x 10⁶ cells/min

Question 10

Location of villus enzymatic activity

Answer 10

Brush border

Question 11

Secretions from crypt cells and volume produced

Answer 11

No digestive enzymes

Succus entericus (3L per day)

Question 12

Ionic composition of succus entericus

Answer 12

Isotonic:

• Na+
• K+
• Cl-
• HCO3-

Question 13

pH of succus entericus secretions

Answer 13

~7.5 - 9

Question 14

What is located in the lumen of the SI crypts?

Answer 14

Cotransporter protein transporting Na+ and Cl-

Question 15

Describe the function of the cotransporter of the crypts

Answer 15

• Na+ brought out of cell by Na+-K+-ATPase
• Na+ cotransported with Cl- into cell
• Cl - secreted out of the other end of the cell through Ca++ dependent cAMP
• Na+ also flows between cells
• Water follows osmotic gradient

Question 16

Effect of vibrio cholerae bacterium

Answer 16

Enterotoxic effect: bind to receptors on apical membrane –> stimulate adenylate cyclase –> increase cAMP = maximally stimulates intestinal secretion

Net result = overwhelms the absorptive capacity of SI and colon (need rapid rehydration)

Also, cAMP decreases absorption of neutral NaCl in villi

Question 17

Describe the regulation of succus entericus secretions

Answer 17

Poorly understood interactions of ENS, ANS, gut peptides (gastrin, VIP) acting in paracrine/endocrine fashion

Question 18

Effect of prostaglandins and histamine on succus entericus secretion

Answer 18

Increase secretion

Question 19

Effect on somatostatin on succus entericus secretion

Answer 19

Inhibition of secretion

Question 20

Function of villi

Answer 20

• Synthesize enzymes (retained in brush border)
• Absorb nutrients and fluids

Question 21

6 enzyme types synthesized by the intestinal villi

Answer 21

• Enterokinase
• Amylase
• Lipase
• Aminopeptidases
• Dipeptidases
• Disaccharases

Question 22

4 disaccharases synthesized by the intestinal villi

Answer 22

• Sucrase
• Maltase
• Isomaltase
• Lactase

Question 23

Location of paneth cells

Answer 23

Base of crypts

Question 24

2 substances secreted by paneth cells

Answer 24

Lysozymes

Defensins

Question 25

Function of paneth cell secretions

Answer 25

Possible importance in protecting mucosa against bacteria

Question 26

Contents of SI lamina propria

Answer 26

Lymphocytes and plasma cells

Question 27

Role of SI lamina propria contents

Answer 27

Secretion of Ig = important in mucosal immune system

Question 28

Volume of colonic secretions

Answer 28

Small

Question 29

pH of colonic secretions

Answer 29

Alkaline

Question 30

Composition of colonic secretions

Answer 30

• [HCO3-] = 100 - 150 mEq/L
• [K+] = 100 - 150 mEq/L

Question 31

Protein included in colonic secretions

Answer 31

Mucin

Question 32

Characteristic feature of colonic secretions

Answer 32

Bacterial activity

NO DIGESTIVE ENZYMES

Question 33

Approximate daily input and output of solids

Answer 33

Input = 500 g

Output = 50 g

Question 34

Approximate daily water input and output

Answer 34

Input = 2000 mL

Output = 200 mL

Question 35

Approximate composition of solid output

Answer 35

• 30% bacteria
• 30% undigested fiber
• 10 - 20% lipids
• 10 - 20% inorganic matter

Question 36

Volume of fluid produced by salivary glands

Answer 36

1500 mL

Question 37

Sources of fluids input to the GI

Answer 37

• Oral intake
• Salivary glands
• Stomach
• Bile
• Pancreas
• Intestine

Question 38

Volume of stomach fluids produced daily

Answer 38

2500 mL

Question 39

Volume of bile produced daily

Answer 39

500 mL

Question 40

Volume of pancreatic fluid produced daily

Answer 40

1500 mL

Question 41

Volume of intestinal fluids produced daily

Answer 41

1000 mL

Question 42

Approximate volume of fluid that must be absorbed daily

Answer 42

9000 mL

Question 43

Location of fluid absorption in GI

Answer 43

Duodenum

Colon

Question 44

Approximate daily fluid absorbed from duodenum

Answer 44

7000 mL

Question 45

Approximate daily fluid absorbed by colon

Answer 45

1800 mL

Question 46

Describe the composition of proteins released into the lumen of the GIT

Answer 46

• 50g as enzymes
• 30g as cells
• Total = 30g

Question 47

Fate of amino acids derived from digested proteins

Answer 47

Go to the amino acid pool

Question 48

2 characteristics of sites of exchange

Answer 48

• Very large surface area
• Intimate contact with blood vessels

Question 49

What part of the GI tract is absolutely essential to life?

Answer 49

Intactness of at least part of the small intestine (i.e. colon cannot take over nutrient absorption)

Question 50

Response of small intestine to resection

Answer 50

• Hypertrophy
• Hyperplasia

i.e. increase + of villus cells and increaase height of villi to increase absorptive capacity by up to 5x

Question 51

4 trophic factors for SI

Answer 51

• Luminal nutrients
• Hormones (G, CCK, glucagon, etc)
• Local neural factors
• Growth factors (epidermal, PGs, insulin-like, etc)

Question 52

What promotes the integrity of the GIT

Answer 52

Normal utilization (i.e. regular eating)

Question 53

Consequence of parental feeding (i.e. no stimulation of the gut) on GIT

Answer 53

Intestinal mass decreases

Question 54

Dscribe the process of diarrhea

Answer 54

Question 55

Describe the state of blood flow during a meal

Answer 55

50 - 100% increase, most of which is shunted to the mucosa to maximize absorption

Question 56

Rate of postprandial blood flow to the intestine

Answer 56

1 - 2 L/min

Question 57

Lympho flow to intestine

Answer 57

1 - 2 mL/min

Question 58

4 mechanisms for vasodilatoin

Answer 58

• Metabolites
• Bradykinin
• NANC neurons (VIP? NO? etc)
• Hormones

Question 59

Describe the blood flow through the layers of the intestinal walls

Answer 59

High density of cells in the mucosa = high blood flow

Question 60

Describe the changes in surface area from duodenum to ileum

Answer 60

Gradual decrease in:

• Diameter
• Thickness of wall
• Number of folds
• Number of villi
• Size and shape of villli

Question 61

Where is the efficiency of nutrient absorption greatest?

Answer 61

Proximal SI

Question 62

Describe the relative surface area of small intestinal sections

Answer 62

50% of total SI surface area is the in proximal 25% of the SI

Question 63

Describe the permeability of the SI sections

Answer 63

• More permeable tight junctions
• Apical membranes are leakier

Question 64

4 reasons why the efficiency of absorption is greatest in the proximal SI

Answer 64

• Greater surface area
• More permeable
• Greater concentration gradients
• Brush border enzymes and transporters are denser in proximal SI

Question 65

Major area of Iron and Ca++ absorption in SI

Answer 65

Duodenum

Question 66

Major area of carbohydrate absorption in SI

Answer 66

Whole SI but decreasing distally, notably mid-jejunum

Question 67

Major area of proteins, lipids, salt and water in SI

Answer 67

Whole SI but decreasing distally

Question 68

Major area of vitamin B12 absorption in SI

Answer 68

Ileum

Question 69

Major area of bile acid absorption in SI

Answer 69

Slight absorption throughout the whole SI with gradual increase through duodenum to jejunum, but marked increase at ileum

Question 70

5 methods of absorption in SI

Answer 70

• Simple diffusion
• Facilitated diffusion
• Active transport
• Pinocytosis
• Osmosis

Question 71

Percentage of carbohydrates absorbed

Answer 71

99%

Question 72

Percentage of fat absorbed

Answer 72

95%

Question 73

Percentage of protein absorbed

Answer 73

92%

Question 74

Absorptive capacity for H2O

Answer 74

18 L

Question 75

Absorptive capacity for glucose

Answer 75

3600 g

Question 76

Absorptive capacity for amino acids

Answer 76

600 g

Question 77

Absorptive capacity for fat

Answer 77

700 g

Question 78

4 factors in absorption

Answer 78

• Adequate form of absorption
• Adequate surface for absorption
• Adequate rate of transit
• Specific co-factors and transporters (for facilitated diffusion and active transport)

Question 79

Describe carbohydrate absorption from its initial state to the SI

Answer 79

Question 80

4 causes of carbohydrate malabsorption

Answer 80

• Sever pancreatic insufficiency
• Selective deficiency of Brush Border disaccharases (or transporters)
• Impaired enterocyte function (i.e. celiac disease)
• Loss of mucosal surface

Question 81

Describe how proteins are absorbed through the small intestine

Answer 81

Question 82

Describe how fats are digested and absorbed through the SI

Answer 82

Question 83

8 things to consider when analyzing malabsorption

Answer 83

• Number of nutrients (single or multiple?)
• Enzyme deficiencies (single or multiple?)
• Enzymes NOT activated?
• Enzymes inactivated?
• Co-factors absent?
• Co-factors ineffective?
• Surface area inadequate?
• Transporter abnormalities?
• Too rapid transit?

Question 84

What is water absorption largely secondary to?

Answer 84

Na+ absorption

Question 85

2 pathways of water absorption

Answer 85

• Transcellular
• Paracellular

Question 86

What is critical to Na+ absorption?

Answer 86

• Na+/K= ATPase in the basolateral membrane
• Favors Na+ entry into the cell and then into intercellular spaces

Question 87

Describe the mechanism for Na+ absorption in the distal colon alone

Answer 87

Electrogenic absorption

• Occurs as a result of the pump actively extruding Na+ from cell to interstitial spaces
  
  • Lowers intracellular Na+ concentration
  • Makes the interior of the cell electronegative to lumen (favors entry of Na+ into cell)

Question 88

Describe the mechanism for Na+ absorption in the jejunum and ileum

Answer 88

Glucose (or other non-electrolyte solute) stimulated absorption; Na+ movement across the brush border by either:

• Carrier-mediated solute-coupled transport or
• Passive, secondary to solvent drag denerated by the active transport of glucose

Question 89

Describe the mechanism of Na+ absorption i nthe jejunum and distal colon

Answer 89

Neutral Cl- dependent absorption; coupled Na+/Cl- co-transport driven by the basolateral Na+ pump

Question 90

Describe the mechanism of Na+ absorption in the ileum and proximal colon

Answer 90

Neutral Na+/Cl- absorption by dual ion exchange

• (Na+/H+ and Cl-/HCO3-) or countertransport controlled by intracellular pH restricting HCO3- and H+ available for exchange

Question 91

In cholera, what mechanisms of Na+ absorption are non-functional

Answer 91

• A = Electrogenic absorption
• C = Neutral Cl- dependent absorption
• D = Neutral Na+/Cl- absorption by dual ion exchange

Question 92

In cholera. which mechanism of Na+ absorption is functional?

Answer 92

B = glucose (or other non-electrolyte solute) stimulated absorption

Question 93

Treatment for cholera

Answer 93

Oral replacement to reverse dehyrdation

Question 94

Compare the permeability and efficiency of the SI versus the colon in terms of water absorption

Answer 94

• SI is more permeable but less efficient
• Colon is less permeable but more efficient

Question 95

Describe the normal flow of water through the colon in a healthy individual

Answer 95

Question 96

Describe the flow of water through two variations of small intestinal disease

Answer 96

B = high ileocecal flow but compensatory colonic absorption = same stool H2O as normal (no diarrhea)

C = high ileocecal flow, compensatory absorption is maximized = increase H2O in stool (diarrhea)

Question 97

Describe the flow of water through a diseased colon

Answer 97

D = normal ileocecal flow, but absorptive capacity of colon is REVERSED so that water actually ENTERS the colon instead of being absorbed FROM it –> high H2O in stool = diarrhea

Question 98

Define diarrhea

Answer 98

Loss of fluid and solutes in excess of 500 mL/day

Question 99

5 mechanism-defined causes of diarrhea

Answer 99

• Absorptive defect
• Non-absorbable osmotic effect
• Secretory defect
• Motility defect
• Excessive intake??

Question 100

How do absorptive defects cause diarrhea?

Answer 100

Decrease in absorptive surface

Question 101

How do non-absorbable osmotic effects cause diarrhea?

Answer 101

Through non-absorbable osmotic agents

Question 102

How do secetory defects cause diarrhea?

Answer 102

• Mechanism of cholera enterotoxin (can be applied to all of this kind of defect)
• Decreased electroneural NaCl absorption

Question 103

How do motility defects cause diarrhea

Answer 103

Decrease contractile activity and decreased resistance

Question 104

Definition of acute diarrhea

Answer 104

Diarrhea for less than 14 days

Question 105

Definition of chronic diarrhea

Answer 105

Diarrhea for >30 days