EXAM 3 - Respiratory System, Digestive System, and Metabolism

Question 1

mucosal epithelium

Answer 1

most variable feature in GI

enterocytes, endocrine, exocrine
cell/cell junctions
GI stem cells

Question 2

lamina propria

Answer 2

connective tissue contains nerve fibers, vessels, and lymph nodes

wandering immune cells, Peyer’s patch

Question 3

muscularis mucosae

Answer 3

thin layer of smooth muscle

shape intestinal folds, move the villi

Question 4

mucosa

Answer 4

important in secretion, digestion, and absorption

Question 5

digestive enzymes

Answer 5

secreted by exocrine glands or epithelial cells

may remain bound to apical membranes of intestinal cells

Question 6

exocrine galnds

Answer 6

salivary glands, pancreas

Question 7

epithelial cell secretion

Answer 7

in stomach and small intestine

Question 8

brush border enzymes

Answer 8

digestive enzymes that remain bound to apical membranes of intestinal cells

Question 9

zymogens

Answer 9

need to be activated into enzyme

Question 10

mucus

Answer 10

secreted by exocrine cells

Question 11

exocrine cell

Answer 11

mucous cells, salivary glands, goblet cells

Question 12

function of mcuus

Answer 12

protect GI mucosa; lubrication

Question 13

mucus stimulation

Answer 13

parasympathetic
neuropeptides
cytokines

Question 14

submucosa

Answer 14

loose connective tissue containing larger blood and lymph vessels

transport absorbed nutrient

Question 15

submucosal plexus

Answer 15

meissner’s plexus

nerve supply to muscularis mucosae

Question 16

muscularis externa

Answer 16

two layers of smooth muscle
Inner: circular
outer: longitudinal

Question 17

myenteric plexus

Answer 17

auerbach’s plexus

in muscularis externa

between 2 muscle layers

Question 18

GI smooth muscle spontaneous contraction

Answer 18

peristalsis

segmentation

Question 19

peristalsis

Answer 19

move food along

Question 20

segmentation

Answer 20

mix food and break it down

Question 21

contraction frequency of GI smooth muscle is set by

Answer 21

Basic Electrical Rhythm (BER) and chemical input

Question 22

basic electrical rhythm

Answer 22

slow waves (3-20s)
set by pacemaker cells (interstitial cells of Cajal)

Question 23

interstitial cells of cajal

Answer 23

modified smooth muscle cells between muscle and nerve plexus that set BER

Question 24

phasic contractions

Answer 24

posterior portion of the stomach; small intestine

Question 25

tonic contractions

Answer 25

sphincters; anterior portion of the stomach

Question 26

after a meal

Answer 26

peristalsis and segmentation

Question 27

peristalsis after a meal

Answer 27

contraction AND distal relaxation

esophagus
stomach
intestinal

Question 28

segmentation after a meal

Answer 28

contractile rings

small and large intestine

Question 29

between meals

Answer 29

migrating motor complex for housekeeping

Question 30

enteric nervous system (ENS)

Answer 30

acts independently, shares many features of CNS

primarily on motility and secretion

Question 31

features of ENS

Answer 31

intrinsic neurons

responds to many NTs and GI peptides

glial cells
diffusion barrier
integrating center

Question 32

motility excitatory NTs and GI peptides

Answer 32

ach (gi)
substance P (gq)

Question 33

motility inhibitory NTs and GI peptides

Answer 33

NO

vasoactive intestinal polypeptide (VIP)

Question 34

secretomotor ENS

Answer 34

Ach, VIP

Question 35

GI peptides

Answer 35

secreted by isolated endocrine cells in mucosa

not limited to GI functions

Question 36

long reflex

Answer 36

can originate anywhere
integrated in the CNS

cephalic reflex

Question 37

short reflex

Answer 37

originate in ENS, integrated in ENS

gastric emptying

Question 38

the cephalic phase of digestion

Answer 38

long reflexes initiated in the brain

function and secretion of saliva
swallowing reflex

Question 39

functions of saliva

Answer 39

softens and lubricates food
chemical digestion
taste
protection

Question 40

saliva: chemical digestion

Answer 40

salivary amylase and some lipase

Question 41

saliva: protection

Answer 41

lysozyme, immunoglobulins, fluoride, HCO3-

Question 42

saliva: glands

Answer 42

parotid glands
sublingual glands
submandibular glands

Question 43

parotid glands

Answer 43

watery solution

Question 44

sublingual glands

Answer 44

mucus solution

Question 45

submandibular glands

Answer 45

mixed secretion

Question 46

salivary secretion

Answer 46

2 steps:
acinar cells
ductal cells

Question 47

acinar cells

Answer 47

resembles extracellular fluid

Question 48

ductal cells

Answer 48

absorb Na+ and Cl-
secrete K+ and HCO3-
net removal of solute
impermeable to water

Question 49

stimulation of salivary secretion

Answer 49

ductal modification reduces

HCO3- remains high by action of secretagogues

Question 50

swallowing reflex

Answer 50

primary peristalsis and secondary repetitive peristalsis

Question 51

gastroesophageal junction

Answer 51

resting pressure: 30mmHg

Question 52

substances that reduce pressure of gastroesophageal junction

Answer 52

alcohol
caffeine
cigarette smoke
chocolate

Question 53

pathological conditions of gastroesophageal junction

Answer 53

Gastroesophageal reflux disease (GERD)

achalasia

Question 54

achalasia

Answer 54

nerve cells (myenteric plexus) that innervate esophageal muscle degenerate

Question 55

symptoms of achalasia

Answer 55

solid dysphagia
fullness in chest while eating
chest pain
weight loss

Question 56

gastric phase

Answer 56

series of short reflexes initiated when food enters the stomach

Question 57

topics in gastric phase

Answer 57

secretion of the stomach

motility of the stomach

Question 58

proximal anatomy of stomach

Answer 58

anterior

cardia
fundus
body

Question 59

distal anatomy of stomach

Answer 59

posterior

antrum (pyloric region)
pyloric sphincter

Question 60

functional regions of the stomach

Answer 60

proximal (reservoir)

distal (pump, grinder)

Question 61

structures to support stomach functions

Answer 61

rugae

oblique layer overlying mucosa

Question 62

LES (esophagus) and cardia secretion

Answer 62

mucus

HCO3-

Question 63

LES (esophagus) and cardia motility

Answer 63

prevention of reflux
entry of food
regulation of belching

Question 64

fundus and body secretion

Answer 64

H+
intrinsic factor
mucus
HCO3-
pepsinogens
lipase

Question 65

fundus and body motility

Answer 65

reservoir

tonic force during emptying

Question 66

antrum and pylorus secretion

Answer 66

mucus

HCO3-

Question 67

antrum and pylorus motility

Answer 67

mixing
grinding
sieving
regulation of emptying

Question 68

gastric secretions

Answer 68

gastrin
acid
enzyme
paracrine

Question 69

gastric secretion: gastrin secretion

Answer 69

G cells

Question 70

gastric secretion: gastrin is triggered by

Answer 70

vagus nerve stimulation (Gastrin-Releasing Polypeptide, GRP)
amino acids

gastrin increases with food intake because acid denatures proteins

Question 71

gastric secretion: gastrin is inhibited by

Answer 71

acid, somatostatin

Question 72

gastric secretion: gastrin function

Answer 72

acts on parietal and ECL (arterial) cells (CCK-B receptor)

stimulates acid release
stimulates mucosa growth in stomach, small and large intestine

Question 73

gastric secretion: acid is secreted by

Answer 73

parietal cells in gastric glands

Question 74

gastric secretion: acid is stimulated by

Answer 74

gastrin, Ach, histamine

Question 75

gastric secretion: acid is inhibited by

Answer 75

prostaglandin E2 and somatostatin

Question 76

what inhibits the gastrin feedback loop?

Answer 76

acid and somatostatin

Question 77

somatostatin

Answer 77

B cells secrete this; local (paracrine)

Question 78

arterial cells

Answer 78

secrete histamine

Question 79

histamine

Answer 79

stimulator for acid secretion

Question 80

alkaline tide

Answer 80

after eating, HCO3- enters blood

Question 81

parietal cell activation

Answer 81

tubulovesicular membrane and intravesicular caniculus fuse with cell membrane and eachother

H+/ATP pump is rate limiting factor

Question 82

What mechanism will inhibit HCl secretion?

A. M3 receptor agonist
B. H2 receptor agonist
C. Activation of Gi-coupled receptor
D. Activation of Gq-coupled receptor

Answer 82

Activation of Gi-coupled receptor

Question 83

gastric secretion: enzyme secretion

Answer 83

pepsin and gastric lipase

Question 84

pepsin is effective on

Answer 84

collagen

Question 85

gastric secretion: enzyme secretion process

Answer 85

chief cells secrete pepsinogen

HCl in stomach activates to pepsin

gastric lipase is co secreted with pepsin

in small intestine pepsinogen is neutralized with bicarbonate and inactivates pepsin

Question 86

gastric secretion: paracrine secretion

Answer 86

histamine
intrinsic factor
somatostatin

Question 87

paracrine secretion: histamine

Answer 87

secreted by ECL cells and stimulated by gastrin and Ach

Question 88

paracrine secretion: intrinsic factor

Answer 88

secreted by parietal cells; critical for B12 absorption

Question 89

paracrine secretion: somatostatin

Answer 89

secreted by D cells; primary feedback signal

Question 90

Which of the following treatments will alleviate the symptoms of peptic ulcer disease?

A. H+/K+/ATPase activator
B. H2 receptor agonist
C. M3 receptor agonist
D. Somatostatin release

Answer 90

D. somatostatin release

All the rest would cause increase of acid

Question 91

A drug that blocks the fusion of tubulovesicular membrane and intracellular canaliculus in parietal cells would result in…

A. an increased production of HCl
B. an increased production of pepsinogen by chief cells
C. an increased protein digestion in the stomach
D. a decreased somatostatin production
E. an increased catalytic activity of pepsin

Answer 91

D. a decreased somatostatin production

Question 92

control of gastric secretion

Answer 92

vagal activation stimulates multiple cell responses via NT (Ach and GRP)

Question 93

what stimulates the parietal cell?

Answer 93

Ach, gastrin, histamine

Question 94

what inhibits gastrin?

Answer 94

acid in the antrum stimulates somatostatin release to inhibit meal-stimulated gastrin secretion

Question 95

motor functions of the stomach: storage

Answer 95

proximal portion (fundus and body)

receptive relaxation

adaptive relaxation

Question 96

receptive relaxation in the stomach

Answer 96

relaxation of stomach muscles as food moves through esophagus and enters stomach

Question 97

adaptive relaxation of stomach

Answer 97

relaxation of stomach muscles when filled

Question 98

motor functions of the stomach: mixing

Answer 98

distal portion (antrum)
peristalsis

Question 99

control of gastric motility in the gastric phase

Answer 99

neural control (vagovagal reflexes)
mechanical stimulation
chemical stimulation

Question 100

absorption by the stoamch

Answer 100

aspirin, other weak acids; EtOH

stomach wall is not specialized for absorption

Question 101

protection of the stomach wall

Answer 101

thick, alkaline mucus

tight junctions between epithelial cells

rapid replacement by GI stem cells

Question 102

gastric ulcers

Answer 102

destruction of the lining of gastric mucosa

Question 103

results of Warren & Marshall’s study

Answer 103

when treated with antibiotics, 80% of patients were permanently cured of their ulcers

Question 104

primary causes of ulcers

Answer 104

infections (H. pylori)

NSAID

Question 105

NSAID

Answer 105

inhibits mucus production, causes ulcers

Question 106

Zollinger-ellison syndrome

Answer 106

ulcers caused by over secretion of gastric acid

rare

Question 107

intestinal phase

Answer 107

series of responses after chyme enters the small intestine

Question 108

intestinal phase topics

Answer 108

gastric emptying
motility and secretion of small intestine
secretion of accessary organs
digestion and absorption of fat, carbohydrates, and proteins

Question 109

gross anatomy of small intestine

Answer 109

duodenum (common bile duct + pancreatic duct) to jejunum to ileum

Question 110

ileum

Answer 110

peyer’s patches or lymph nodules

ileocecal valve

Question 111

structures to support small intestine functions

Answer 111

plicae (circular folds)
villi
microvilli

Question 112

gastric emptying

Answer 112

strong peristaltic waves in gastric pump
increased tone in gastric reservoir
opening of pylorus
inhibition of duodenal segmental contractions

Question 113

increase gastric emptying

Answer 113

hormonal: gastrin
gastric volume
neural

Question 114

decrease gastric emptying

Answer 114

distension plus acid in duodenum (enterogastric reflex)

hormonal: GIP, CCK, secretin

Question 115

The gastric emptying rate can be increased by

Answer 115

increased peristaltic wave in gastric pump
increased tonic contraction in gastric reservoir
increased action of VIP in the pyloric sphincter

Question 116

dumping syndrome

Answer 116

gastrectomy may lead to loss of feedback control of emptying
partly digested food draws excess fluid into intestine
may have malabsorption

Question 117

intestinal secretion

Answer 117

cholecystokinin (CCK)

secretin

Question 118

cholecystokinin is secreted by

Answer 118

I cells (mucosa of the upper small intestine)

Question 119

cholecystokinin functions

Answer 119

stimulates pancreatic enzyme secretion (augment secretin functions)

contraction of gallbladder

relaxation of sphincter of Oddi

inhibit gastric emptying and gastric secretion

Question 120

cholecystokinin is triggered by

Answer 120

amino acids, peptides, and fatty acids

Question 121

cholecystokinin is inhibited when

Answer 121

products of digestion move on to the lower portion

Question 122

secretion is secreted by

Answer 122

S cells (mucosa of the upper small intestine)

Question 123

secretion functions

Answer 123

stimulate pancreatic bicarbonate secretion (augment CCK functions)

inhibit gastric emptying and gastric secretion

Question 124

secretion is triggered by

Answer 124

acid, products of protein digestion

Question 125

secretion is inhibited when

Answer 125

products of digestion move on to the lower portion

Question 126

small intestine motility

Answer 126

segmentation
peristalsis
migrating motor complex (MMC)

Question 127

segmentation in small intestine

Answer 127

mixing

slow propulsion possible due to frequency gradient

Question 128

peristalsis in small intestine

Answer 128

weak

Question 129

migrating motor complex (MMC) and MOTILIN

Answer 129

stimulating

Question 130

migrating motor complex (MMC) and FEEDING

Answer 130

inhibits MMCs

Question 131

digestion of carbohydrates

Answer 131

can only be absorbed as monosaccharides

amylase for smaller glucose chains and disaccharides

brush border enzymes

Question 132

brush border enzymes

Answer 132

disaccharidases

Question 133

absorption of carbohydrates: apical side

Answer 133

SGLT1

GLUT5

Question 134

SGLT1

Answer 134

secondary active; glucose and galactose

high affinity for glucose; regulated by glucose in intestine

Question 135

GLUT5

Answer 135

facilitated diffusion

fructose

Question 136

absorption of carbohydrates: basolateral side

Answer 136

GLUT2 for all monosaccharides

Question 137

digestion of protein

Answer 137

endopeptidases

exopeptidases

Question 138

endopeptidases

Answer 138

proteases; attack peptide bonds

Question 139

endopeptidase secretion

Answer 139

by stomach, intestine, and pancreas as inactive proenzymes

Question 140

exopeptidases

Answer 140

release single amino acids

secreted by the pancreas

Question 141

endopeptidase examples

Answer 141

pepsin, trypsin

Question 142

exopeptidase examples

Answer 142

carboxypeptidase

Question 143

absorption of a protein

Answer 143

absorbed as amino acids, dipeptides and tripeptides, and rarely larger peptides

Question 144

absorption of a protein as amino acids

Answer 144

Na+ dependent active transport

Question 145

absorption of a protein as dipeptides and tripeptides

Answer 145

H+ dependent; PepT1

Question 146

absorption of a protein as larger peptides

Answer 146

transcytosis
may elicit allergic response
more in infant

Question 147

digestion of fat

Answer 147

emulsification
enzymatic fat digestion
formation of bile micelles

Question 148

digestion of fat: emulsification

Answer 148

bile salts

breaks down large lipid droplets to smaller ones
increase surface available for lipase action

Question 149

digestion of fat: enzymatic fat digestion

Answer 149

lipase and colipase digest triglycerides into monoglycerides and fatty acids

phospholipase digests phospholipids

Question 150

digestion of fat: formation of bile micelles

Answer 150

break down and reform constantly

break down to be absorbed

Question 151

absorption of fat

Answer 151

enter apical membrane
inside the cells
leave basolateral membrane

Question 152

absorption of fat: monoglycerides and fatty acids in apical membrane

Answer 152

diffusion

Question 153

absorption of fat: cholesterol in apical membrane

Answer 153

transporter

Question 154

absorption of fat: inside the cells

Answer 154

monoglycerides and fatty acids recombine

chylomicrons formation

Question 155

absorption of fat: leave basolateral membrane

Answer 155

via exocytosis

Question 156

transport of absorbed nutrients

Answer 156

products of carbohydrates and proteins are absorbed into the hepatic portal system

products of fat digestion (chylomicrons) enter lacteal

Question 157

product of fat digestion

Answer 157

chylomicrons

Question 158

hepatic portal system

Answer 158

blood leaving gut enters hepatic portal vein

brought directly to liver

second exchange site at liver sinusoids

most absorbed nutrients go to liver first (except products of fat digestion)

Question 159

functions of liver

Answer 159

metabolic regulation

synthesis

storage

detoxification

Question 160

functions of liver: metabolic regulation

Answer 160

maintain normal blood glucose levels

carbohydrate, lipid, amino acid metabolism

Question 161

functions of liver: synthesis

Answer 161

plasma protein; clotting factors; bile; cholesterol

Question 162

functions of liver: storage

Answer 162

iron, glycogen, blood, fat-soluble vitamins

Question 163

functions of liver: detoxification

Answer 163

alcohol and other drugs

Question 164

peritoneum

Answer 164

serous membranes within abdominal cavity

supports blood vessels, nerves, and lymphatic vessels

Question 165

parietal peritoneum

Answer 165

inside surface of body wall

Question 166

visceral peritoneum

Answer 166

surface of internal organs

Question 167

peritoneal fluid

Answer 167

produced by serous membrane lining

provides lubrication

intraperitoneal organs
retroperitoneal organs

Question 168

duodenum

Answer 168

common bile duct and pancreatic duct

Question 169

ileum

Answer 169

peyer’s pathches or lymph nodules

ileocecal valve

Question 170

structures in small intestine

Answer 170

plicae (circular folds)
villi
microvilli

Question 171

mesentery

Answer 171

continuous, formed by peritoneum

Question 172

mucus secretion is stimulated by

Answer 172

parasympathetic NS

neuropeptides

cytokines

Question 173

digestive enzymes

Answer 173

secreted by exocrine glands and epithelial cells

remain bound to apical membranes or secreted as zymogens

Question 174

exocrine glands

Answer 174

salivary and pancreas

Question 175

epithelial cell secretions

Answer 175

stomach and pancreas

Question 176

mucus

Answer 176

protects, lubricates

Question 177

motilin

Answer 177

released during fasting, targets GI and stomach, MMC effector