Small Intestine

Question 1

Chronic Intestinal Pseudo-Obstruction (CIPO)

Answer 1

• characterized by dilation of bowel on imaging
• major manifestation of small intestinal dysmotility
• bacterial overgrowth a complication
• sx: N/V, abd pain, distention, constipation, diarrhea
• causes: PD, autoimmune, chagas, diabetes, scleroderma, congenital in children

Question 2

Duodenum Basic Electrical Rhythm (BER)

Answer 2

-12 cycles per minute

Question 3

Key Hormones

Answer 3

• CCK
• secretin
• GIP

Question 4

Types of Motility in Small Intestine

Answer 4

• peristaltic
• segmentation
• this alternates aspect of chime exposed to brush border

Question 5

Gastroileal Reflex

Answer 5

-stomach activity stimulates movement of chyme through ileocecal sphincter

Question 6

Gastrocolic Reflex

Answer 6

-food in stomach stimulates mass movement in colon

Question 7

Ileocecal Valve

Answer 7

• normally closed to prevent reflux of bacteria from colon into ileum
• opened by distension of end of ileum (local reflex)
• closed by distension of proximal colon (local reflex)

Question 8

Digestion

Answer 8

• some occurs in mouth and stomach

- most occurs in intestinal lumen or at surface or the absorptive enterocytes

Question 9

Dietary Carbohydrates

Answer 9

• plant starch amylopectin is largest source of carbs in our diet
• amylase is major enzyme in saliva and pancreatic secretions
• only simple monomeric sugars can be absorbed

Question 10

Isomaltase

Answer 10

-converts alpha-limit dextrins to glucose

Question 11

Maltase

Answer 11

-converts maltose and maltotriose to glucose

Question 12

Lactase

Answer 12

-converts lactose to glucose and galactose

Question 13

Sucrase

Answer 13

-converts sucrose to gluvose and fructose

Question 14

Trehalase

Answer 14

• converts trehalose to glucose

- shrimp

Question 15

Lactose Intolerance

Answer 15

• missing brush border enzyme lactase
• causes gas and diarrhea due to colonic bacterial digestion of lactose
• areas where dairy is not part of the staple have higher prevalence

Question 16

SGLT1 Transporter

Answer 16

• requires Na as a co transporter
• transports glucose and galactose across the apical membrane of the enterocyte
• can operate in the setting of secretory diarrhea (inc. cAMP/cholera) so is important for oral rehydration

Question 17

GLUT5 Transporter

Answer 17

-fructose transport across the apical surface via GLUT5 is Na independent

Question 18

GLUT2

Answer 18

• not Na dependent

- glucose and galactose use the same transporter as fructose on the basolateral surface

Question 19

Regulation of Carbohydrate Absorption

Answer 19

• inc. carb consumption upregulates transporters and inc. the uptake of simple sugars-> obesity
• and vice versa

Question 20

Protein Digestion

Answer 20

-pancreatic proteases like trypsin, chymotrypsin, carboxypeptidase & and elastase break down proteins to oligopeptides, di/tri-peptides and amino acids

Question 21

Brush Border

Answer 21

-peptidases break down oligopeptides into amino acids, dipeptides, tripeptides

Question 22

Protein Uptake Pathways

Answer 22

• Na dependent co-transporters that utilize the Na+/K+ ATPase gradient are major route for the different classes amino acids
• water follows
• Na independent transporters of amino acids
• specific carriers for small peptides

Question 23

Pinocytosis

Answer 23

-infants

Question 24

Dietary Fat

Answer 24

• fats provide 30-40% of caloric intake
• essential fatty acids: linoleic acid-> arachidonic acid, and alpha-linolenic acid
• triglycerides are the most abundant fat in our diet
• GI tract is water based so there are challenges to fat absorption

Question 25

Bile Acids

Answer 25

• primary bile acids are produced in liver from cholesterol
• secondary bile acids are formed by bacteria in the intestines and colon
• bile acids are complexed with glycine or taurine to make bile salts
• bile is recycled during a meal by update in the distal ileum- enterohepatic circulation

Question 26

Vitamin Absorption

Answer 26

• fate soluble vitamins (A, D, E, K) are absorbed along the length of the small intestines and are carried in micelles and form chylomicrons similar to dietary lipids
• water soluble vitamins either enter the enterocyte by simple diffusions of via spefic transporters

Question 27

Secretion and Absorption of Fluids

Answer 27

• There is a net fluid secretion from cells in the intestinal crypts and a net fluid absorption from enterocytes on the villi
• Villi surface area > crypt surface area
• paracellular water permeability dec. from proximal to distal in the small intestines
• the colon has the lowest paracellular permeability to water bc it’s trying to solidify waste and it needs to link water movement to transcellular ion movement

Question 28

Sodium Absorption

Answer 28

• absorbed along intestine with most absorbed in jejunum
• dependent on gradient established by Na+/K+ ATPase
• water absorption is critically linked to Na absorption
• mechanism is via Na+/glucose and galactose or Na+/amino acide cotransport, NaCl cotransport, Na+/H+ exchange or passive diffusion

Question 29

Chloride Absorption

Answer 29

• passive in proximal intestines (due to loose TJs), offests Na+ charge in the intracellular space
• in the distal ileum and colon, with less leaky TJs, Cl- is exchanged for HCO3 that is offsetting the acids produced by bacteria

Question 30

Potassium Absorption

Answer 30

• passive process
• paracellular movement in jejunum but transcellular in colon
• K+ normally high in cells due to Na+/K+ ATPase
• severe diarrhea can cause significant loss of K+

Question 31

Calcium and Magnesium Absorption

Answer 31

• Ca++ and Mg++ compete for uptake by the cells
• Ca++ enters enterocyte passively down is electrochemical gradient in proximal intestines
• uptake of Ca++ in intracellular calcium stores maintains the gradient
• Ca++ ATPase pumps calcium out to the blood
• vitD stimluates uptake of Ca++ by inc. Ca++ binding proteins and Ca++ ATPase molecules

Question 32

Iron Absorption

Answer 32

• transported across apical membrane as either heme or Fe++ (receptor mediated
• two possible fates: binds to apoferritin to form ferritin that stays in the cell and is lost when the cell dies or binds transferrin and enter the blood

Question 33

Parietal Cells

Answer 33

• located in stomach
• secrete intrinsic factor and H+
• destruction of parietal cells -> chronic gastritis and pernicious anemia

Question 34

Intrinsic Factor

Answer 34

• secreted by parietal cells in stomach

- action: vitamin B12 binding protein (required for B12 uptake in terminal ileum)

Question 35

Goblet Cell

Answer 35

• column-shaped cell which secretes the main component of mucus
• located in small intestine
• ileum has largest number of goblet cells in small intestine
• secrete HCO3

Question 36

Paneth Cells

Answer 36

• located in small intestine
• reside at the bottom of the intestinal crypts
• key effectors of innate mucosal defense
• produce large amounts of α-defensins and other antimicrobial peptides, such as lysozymes and secretory phospholipase A2

Question 37

Cholecystokinin

Answer 37

• peptide hormone responsible for stimulating the digestion of fat and protein
• synthesized by I-cells in the mucosal epithelium of the small intestine and secreted by duodenum
• release stimulated by monitor peptide released from cells in duodenum
• causes release of digestive enzymes and bile from the pancreas and gallbladder

Question 38

Bruner Gland

Answer 38

• characteristic of duodenum

- produce mucous rich alkaline secretion to protect duodenum from stomach acid

Question 39

Meckel Diverticulum

Answer 39

-connects intestine to umbilicus

Question 40

Enterokinasae

Answer 40

-secreted by enterocytes (in small intestine)

Question 41

Enterocytes

Answer 41

-only in small intestine
-5 functions
1- activating zymogens from pancreas
2- reclaims bile salts
3- release of IgA
4- uptakes disacharrides and converts to monosacharrides
5- uptake glucose

Question 42

Celiac Disease

Answer 42

• a gliadin peptide complexes with TTG-> autoantibody formation
• Class 2 HLA-DQ2 or HLA-DQ8
• associated with other autoimmune disease
• features: fatty diarrhea, gas, weight loss, anemia, dental enamel defects, arthritis, villous blunting, inc. intraepithelial lymphocytes
• dermatitis herpetiformis
• scalloping of mucosa

Question 43

Campylobacter

Answer 43

• bacterial enterocolitis
• causes diarrhea
• most common stool isolate is US
• poultry, water, dairy

Question 44

Shigella

Answer 44

• bacterial enterocolitis
• severe watery/bloody diarrhea
• contaminated water
• highest infectivity rate

Question 45

Salmonella

Answer 45

• bacterial enterocolitis

- typhoid (bad diarrhea + risk of perforation) vs non-typhoid (mild, self-limiting)

Question 46

Pseudomembranous Colitis

Answer 46

-most often caused by C. diff

Question 47

Ischemic Colitis

Answer 47

• features: older pts, long distance runners, women on OCs, people with hernias or volvulus
• lack of blood flow to bowel -> acute transmural infarction