GI Physiology

Question 1

Meissner’s plexus

Answer 1

submucosal plexus, primarily conrtols the secretion and blood flow

Question 2

Parasympathetics on the GI tract

Answer 2

usually excitatory, carried via vagus and pelvic nerves

Question 3

Vagus nerve- GI organs

Answer 3

Esophagus, Stomach, Pancreas and upper large intestine

Question 4

Pelvic Nerve - GI organs

Answer 4

lower large intestine, rectum and anus

Question 5

Sympathetics on the GI tract

Answer 5

inhibitory

Question 6

Auerbach’s plexus

Answer 6

Myenteric plexus, controls motility of GI smooth muscle

Question 7

G cells

Answer 7

in antrum of stomach, secrete gastrin in response to a meal

Question 8

Actions of gastrin

Answer 8

increases H+ from parietal cells

stimulates gastric mucosal growth

Question 9

Most important stimuli for gastrin secretion

Answer 9

phenylalanine and tryptophan

others: distention of stomach, vagal stimulation mediated by GRP

Question 10

gastrin inhibitors

Answer 10

H+ in stomach lumen (negative feedback)

somatostatin

Question 11

gastrin is secreted by non-beta cell tumors of pancreas

Answer 11

Zollinger-Ellison Syndrome

Question 12

Peptide that is homologous to gastrin

Answer 12

CCK

Question 13

Actions of CCK

Answer 13

1) contract GB and relaxes sphincter of Oddi
2) pancreatic enzyme secretion
3) growth of exocrine pancreas
4) potentiates HCO3- from pancreas
5) inhibits gastric emptying

Question 14

I cells of duodenal and jejunal mucosa

Answer 14

secrete CCK

Question 15

Stimuli for CCK

Answer 15

small peptides, AA, FAs and monoglycerides

Question 16

homologous to glucagon

Answer 16

secretin

Question 17

Actions of secretin

Answer 17

stim panc HCO3- secretion and increase exocrine pancreatic growth
increase bile production
inhibits H+ from parietal cells

Question 18

S cells

Answer 18

In duodenum, Secrete secretin in response to H+ and FAs in duodenum

Question 19

Actions of GIP

Answer 19

Insulin release in response to ORAL glucose

inhibits H+ secretion

Question 20

hormone secreted in response to carbs, fats and protien

Answer 20

GIP

Question 21

Somatostatin

Answer 21

secreted by cells throughtout the GI tract in response to H+ in lumen
inhibits release of ALL GI hormones
inhibits gastric H+ secretion

Question 22

Histamine

Answer 22

Secreted by mast cells of the gastric mucosa

increases gastric H+ secretion directly and potentiating gastrin and vagal stimulation

Question 23

VIP

Answer 23

relaxes the lower esophageal sphincter

stimulates the pancreatic HCO3- secretion and inhibits gastric H+ secretion

Question 24

secreted by pancreatic islet cell tumors

Answer 24

VIP

presumed to mediate pancreatic cholera

Question 25

Bombesin

Answer 25

GRP, release from vagus nerves that innervate the G cells

stim gastrin release from G cells

Question 26

Stimulate the contraction of GI smooth muscle, particularly the LES, pyloric and ileocecal sphincter
Inhibit intestinal secretion

Answer 26

Enkephalins

Question 27

Opiate use in GI tract

Answer 27

Tx diarrhea

Question 28

Tonic contractions

Answer 28

LES, orad stomach, ileocecal and internal anal sphincter

always closed unless stimulated to open

Question 29

Phasic contraction

Answer 29

esophagus, stomach, gastric antrum, small intestine. contract and relax periodically

Question 30

oscillating membrane potentials inherent to smooth muscle of GI tract

Answer 30

Slow waves

Question 31

Pacemaker of GI tract

Answer 31

interstitial cells of Cajal

Question 32

Mechanism of Slow Wave production

Answer 32

Cyclic calcium channels open (depolarization) which brings mem potential closer to threshold
followed by K channels opening (repolarization)

Question 33

Slow wave frequency

Answer 33

lowest in stomach (3 slow waves/min)

highest in duodenum (12 slow waves/min)

Question 34

Swallowing coordination

Answer 34

Medulla

Question 35

Sequence of Events in Swallowing

Answer 35

Nasopharynx closes, breathing inhibited
Glottis is closed and larynx is elevated
peristalsis in pharynx and UES relaxes

Question 36

Primary vs Secondary Peristaltic Contraction

Answer 36

1 - high pressure behind bolus to move it down

2 - clears esophagus of remaining food

Question 37

Receptive relaxation

Answer 37

food in upper part of GI tract will relax GI tract further down to allow passage of food, Vagovagal reflex

Question 38

Gastroesophageal Reflux

Answer 38

tone of LES is decreased and gastric content reflux into esophagus

Question 39

Achalasia

Answer 39

LES does not relax during swallowing and food accumulates in esophagus

Question 40

Contractions of GI tract during fasting

Answer 40

migrating myoelectric complex, occurs at 90 minute intervals

Mediated by Motilin

Question 41

How fats inhibit gastric emptying

Answer 41

fat stimulates CCK release which inhibits gastric emptying

Question 42

How H+ in duodenum inhibit gastric emptying

Answer 42

direct neural reflexes

Question 43

Segmentation contractions

Answer 43

mix intestinal contents

back-and-forth movement

Question 44

peristaltic contractions in small intesting

Answer 44

propel the chyme
contraction behind bolus and relaxation in front
coordinated by enteric nervous system

Question 45

Gastroileal Reflex

Answer 45

mediated by extrinsic ANS and possibly gastrin

prescence of food in the stomach triggers increased peristalsis in the ileum and relaxation of ileocecal sphincter

Question 46

Haustra

Answer 46

sac-like segments, contracts of large intestine

Question 47

Frequency of Mass movements in large intestine

Answer 47

1-3x/day

cause colonic contents to move distally

Question 48

Rectosphincteric reflex

Answer 48

rectum fills, it contracts and the internal anal sphincter relaxes

Question 49

urge to defecate

Answer 49

when rectum is filled ~25%

Question 50

Gastrocolic Reflex

Answer 50

food in stomach increases motility of the colon and increases the frequecy of mass movements
has a rapid PS component

Question 51

Hirschsprung’s Disease

Answer 51

absence of the colonic enteric nervous system resulting in constriction of involved segment

Question 52

reverse peristalsis beginning in small intesting

Answer 52

Vomiting

Question 53

Vomiting center of medulla

Answer 53

stimulated by tickling bac kof throat, gastric distention and vestibular stimulation (motion sickness)

Question 54

Chemoreceptor trigger zone

Answer 54

in 4th ventricle, activated by emetics, radiation and vestibular stimulation

Question 55

Composition of Saliva

Answer 55

High K and HCO3-
Low Na Cl
hypotonic
alpha-amylase, lingual lipase, and kallikrein

Question 56

Slow Flow rate for Saliva

Answer 56

lowest osmolarity, lowest Na, Cl and HCO3-

highest K conc

Question 57

High Flow rate for Saliva

Answer 57

highest osmolarity, closest to that of plasma

Question 58

Acinus for Saliva production

Answer 58

produces initial saliva, composition is similar to plasma

isotonic

Question 59

Ducts for Saliva production

Answer 59

modifies initial saliva, reabsorbs NaCl, secretes K and HCO3-
Aldosterone acts on these
Saliva becomes hypotoniic

Question 60

Parasympathetic Stimulation of Saliva

Answer 60

CN VII and IX
increases saliva production by causing vasodilation
Muscarinic - IP3/Ca

Question 61

Sympathetic Stimulation of Saliva

Answer 61

beta-adrenergic receptors

cAMP

Question 62

Parietal Cells

Answer 62

located in the body of stomach, secrete HCl and intrinsic factors
Stimulus is gastrin, Ach, Histamine

Question 63

Chief Cells

Answer 63

located in body of stomach, secretes pepsinogen, stimulated by vagal stimulation

Question 64

Mucous Cells

Answer 64

Antrum of Stomach, secretes mucus and pepsinogen

stimulus is ACh

Question 65

Alkaline Tide

Answer 65

pH of blood increases around the stomach due to Cl/HCO3-exchange when making acid for the stomach

Question 66

Cimetidine

Answer 66

H2 receptor blocker, inhibits H+ secretion

Question 67

ECL cells

Answer 67

inhibits histamine

Question 68

messenger for histamine

Answer 68

Gs/cAMP

Question 69

messenger for somatostatin to inhibit H+

Answer 69

Gi thus decreasing cAMP

indirect pathway to inhibit H+ secreteion is inhibiting the release of gastrin and histamine

Question 70

Protective factors for Peptic Ulcer Disease

Answer 70

mucus, HCO3, prostaglandins, mucosal blood flow, GFs

Question 71

Gastric Ulcers

Answer 71

H+ secretion is decreased
Gastrin is increased
major cause = H. pylori

Question 72

Duodenal Ulcer

Answer 72

H+ secretion is increased
gastrin in response to a meal is increased
major cause = H. pylori

Question 73

3 Drugs that block gastric H+ secretion

Answer 73

Atropine, Cimetidine, Omeprazole

Question 74

Low Flow Rates - Pancreas

Answer 74

isotonic fluid primarily of Na and Cl

Question 75

High Flow Rates - Pancreas

Answer 75

isotonic fluid, primarily Na and HCO3-

Question 76

Acinar cells - Pancreas

Answer 76

small volume, mainly Na and Cl

Question 77

Ductal cells - Pancreas

Answer 77

secreting HCO3 and absorbing Cl through HCO3/Cl-exchange

Question 78

Bile Salts

Answer 78

amphipathic

surround lipid droplets (emulsification) and aid in intestinal digestino and absorption of lipis into micells

Question 79

Micelle

Answer 79

contains FFAs and monoglycerides

Question 80

conjugates with bile acids to make bile salts

Answer 80

glycine or taurine

Question 81

where are bile acids reabsorbed

Answer 81

terminal ileum, Na-Bile acid cotransporter

Question 82

alpha-amylase

Answer 82

hydrolyze 1,4-glycosidic bonds in starch, yields maltose, ,altotriose and alpha-limit dextrans

Question 83

maltase, alpha-dextrinase and sucrase

Answer 83

part of intestinal brush border which hydrolyze oligosaccharides into glucose

Question 84

lactase

Answer 84

lactose to glucose and galactose

Question 85

trehalase

Answer 85

trehalose to glucose

Question 86

sucrase

Answer 86

sucrose into glucose and fructose

Question 87

SGLT1

Answer 87

Na-dependent cotransport with glucose in lumen of intestine

sugar transported uphill, Na transported downhill

Question 88

GLUT2

Answer 88

facilitated diffuse from inside enterocyte to blood

Question 89

Fructose

Answer 89

transported by facilitated diffusion

Question 90

Lactose intolerance

Answer 90

causes osmotic diarrhea

lack lactase in brush border

Question 91

Endopeptidases

Answer 91

hydrolyze interior peptide bonds

Question 92

Exopeptidases

Answer 92

hydrolyzes 1 AA at a time from C terminus

Question 93

Pepsin

Answer 93

optimal pH 1-3

Question 94

enterokinase

Answer 94

a brush border anzyme that makes trypsin from trypsinogen

Question 95

Trypsin

Answer 95

converts chymotrypsinogen, proelastase and procarboxypeptidase A and B to their active forms
also makes more trypsin

Question 96

Free AA

Answer 96

Na-dependent amino acid cotransport
then facilitated diffusion into blood
4 separate carrier for neutral, acidic, basic, and imino amino acids

Question 97

Dipeptides and Tripeptides

Answer 97

absorbed faster than free AA
H+-dependent cotransport of dipeptides and tripeptides on luminal memrbane
cytoplasmic peptidases make them into AA
facilitated transport into blood

Question 98

Chylomicrons

Answer 98

re-esterfied products of TGs, cholesterol ester, phospholipids with apoprotein attached so it can leave the intestinal cells

Question 99

Lymph Vessels

Answer 99

Where chylomicrons are exocytosed into and travel in until thoracic duct (then goes to blood)

Question 100

How dietary postassium is absorbed

Answer 100

small intestine by passive diffusion through the paracellular route

Question 101

Potassium in the Colon

Answer 101

K is secreted in the colon, sitmulated by aldosterone

Diarrhea = hypokalemia

Question 102

Primary ion secreted into the intestinal lumen

Answer 102

Chloride, regulated by cAMP

Question 103

Cholera toxin (from vibrio cholerae)

Answer 103

catalyzes ADP ribosylation of alpha-s of Gs coupled to AC, permanently activating it
chloride is excreted
SECRETORY DIARRHEA

Question 104

Fat Soluble Vitamins

Answer 104

A, D, E, K

incorporated into micelles

Question 105

Water Soluble Vitamins

Answer 105

absorbed by Na-dependent cotransport mechanisms

Question 106

Vit B12 absorption

Answer 106

Ileum, requires intrinsic factor

Question 107

Gastrectomy

Answer 107

loss of parietal cells, the source of intrinsic factor, lead to loss of vit B12, causes pernicious anemia

Question 108

Calcium

Answer 108

Need 1,25-dihydroxycholecalciferol from kidney to induce syn of calcium-binding protein calbindin D-28K

Question 109

Apoferritin

Answer 109

Free Fe2+ binds this to be transported into the blood

Question 110

Transferrin

Answer 110

Fe2+ bound protein in the blood taking Fe from intestine to liver or from liver to BM

Question 111

Most common cause of anemia

Answer 111

Iron deficiency

Question 112

Best channel to watch?

Answer 112

Disney channel