GIT

Question 1

Muscle fibers are electrically connected with one another allowing low resistance movement of ions from one muscle to the next

Answer 1

gap junction

Question 2

When an AP is elicited anywhere within muscle, it generally travels in all directions

Answer 2

syncytium

Question 3

Activity of GI smooth muscle

Answer 3

1 slow wave
2 spike

continual, slow, intrinsic electrical activity

Question 4

Rhythm determined by frequency 
Not action potentials 
Slow, undulating changes in RMP 
5-15 mv ; 3-12 freq per minute
3 in the stomach
12 in duodenum
8-9 in ileum

Answer 4

Slow wave

Question 5

Electrical pacemakers for smooth muscle cells controlling slow waves

Undergo cyclic change in membrane potential due to unique ion channels that periodically open and produce inward (pacemaker) currents to generate slow wave

Answer 5

Interstitial cells of Cajal

Question 6

Slow waves only cause contraction in

They mainly excite appearance of intermittent

Answer 6

stomach

Spike potentials that inturn actually excite ms contraction

Question 7

True action potentials
Automatic when RMP of GI sm becomes more + (-50/-60 -> -40mv)
Each time peaks of slow waves become more + than -40, these appear

The higher the slow wave potential, the frequency becomes:

Answer 7

Spike potential

greater

Question 8

AP of GI sm are

1
2

Than nerve fibers

Answer 8

longer 10-40x

run by calcium-sodium channels (slower to open and close) therefore longer AP

Ca ion is responsible for contraction

Question 9

Cranial parasympathetic

Answer 9

Mouth
Pharyngeal region
Esophagus
Stomach
Pancreas
First half of large intestine
-vagal

Question 10

Sacral parasympathetic

Answer 10

2nd, 3rd, 4th sacral segment of spinal cord
Pelvic nerves
Distal half of large intestine to anus
-defecation

Question 11

Postganglionic neurons of GI parasympathetic system are located in

Answer 11

myenteric and submucosal plexus

inc activity of entire enteric system

Question 12

Depolarization of membrane is triggered by

Answer 12

1 stretching of muscle
2 stimulation by acetylcholine from parasympathetic nerves
3 stimulation by GI hormone

Question 13

Hyperpolarization of membrane is caused by

Answer 13

1 NE and Epi on fiber membrane

2 sympathetic nerve stimulation by NE

Question 14

Slow waves are propelled by these ions

Answer 14

sodium

Question 15

Spike potentials from slow wave are generated by these ions

Answer 15

calcium

Question 16

Continuous, lasting minutes to hours increasing or dec in intensity but still continues
Caused by continuous repetitive spike potentials or hormones that bring about continuous partial depolarization of smooth muscle without action potential
Calcium entry without change in membrane potential

Answer 16

Tonic contraction

Question 17

Outer plexus between longitudinal and circular ms layer

Controls mainly GI movement

Answer 17

Myenteric Auerbach’s plexus

Question 18

In submucosa
Inner plexus
Controls mainly GI secretion and local blood flow

Answer 18

Submucosal meissner’s plexus

Question 19

Myenteric Auerbach’s plexus generate

Answer 19

1 inc tonic contraction
2 inc intensity of rhythmical contraction
3 inc rate of rhythm of contraction
4 inc velocity of conduction of excitatory waves (peristaltic)

But not entirely excitatory bec has inhibitory fxn through transmitter

Question 20

Inhibitory trasmitter secreted by Myenteric Auerbach’s

Answer 20

Vasoactive intestinal peptide

Act on the pyloric and ileocecal valve

Question 21

Submucosal Meissner’s plexus regulates

Answer 21

1 secretion
2 absorption
3 contraction
of submucosal muscle (infolding)

Question 22

Excites GI activity

Answer 22

acetylcholine

Question 23

Inhibits GI activity

Answer 23

norepinephrine

epinephrine

Question 24

Neural control of gut (3)

Answer 24

1 post sympathetic/pre paraganglionic
2 enteric
3 sensory (to enteric the prevertebral ganglia and spinal cord)

Question 25

Sympathetic fibers run from

Answer 25

T5-L2
Preganglionic fibers enter sympathetic chain lateral to spinal column
Celiac ganglion, mesenteric ganglia
Post ganglionic sympathetic neurons 
Secrete NE and EPI

Question 26

Afferent sensory fibers are stimulated by

Answer 26

1 irritation of mucosa
2 distention of gut
3 specific chemical substances in gut

Question 27

80% of vagal nerve fibers are

Answer 27

afferent

Question 28

GI reflexes (3)

Answer 28

1 integrated within gut wall enteric NS (secretion, peristalsis, mixing, contraction)
2 gut to prevertebral sympa and back to GI (gastrocolic, enterogastric, colonoileal)
3 from gut to spinal cord and brain stem and back to GI (pain, gastric moror and secretion, defacation)

Question 29

Signal from stomach cause evacuation of colon

Answer 29

Gastrocolic reflex

Question 30

Signal from colon and SI to inhibit stomach motility and secretion

Answer 30

Enterogastric reflex

Question 31

Colon to inhibit emptying of ileal content to colon

Answer 31

Colonoileal reflex

Question 32

Secreted by G cells in antrum, duodenum, jejenum
Stimulated by protein, distention, nerve
Inhibited by acid

Answer 32

Gastrin

Question 33

Gastrin stimulates

Answer 33

gastric acid secretion

mucosal growth

Question 34

Secreted by I cells of duodenum, jejunum, and ileum

Stimulated by protein, fat and acid (proteoses, peptone and long chain FA

Answer 34

Cholecystokinin

Question 35

CKK stimulates

inhibits

Answer 35

pancreatic bicarbonate secretion
pancreatic enzyme secretion
gallbladder contraction
growth of exocrine pancreas

gastric emptying

Question 36

Secreted by S cells of duodenum, jejunum and ileum

Stimulated by acid and fat

Answer 36

Secretin

Question 37

Secretin stimulates

Inhibits

Answer 37

pepsin secretion
pancreatic bicarbonate secretion
biliary bicarbonate secretion
growth of exocrine pancreas

gastric acid secretion

Question 38

Secreted by K cells of duodenum and jejunum

Stimulated by protein, fat and carbohydrate

Answer 38

Gastric inhibitory peptide

Question 39

Gastric inhibitory peptide stimulates

Inhibits

Answer 39

insulin release

gastric acid secretion

Question 40

Secreted by M cells of duodenum and jejunum during fasting

Stimulated by fat, acid and nerve

Answer 40

Motilin

Question 41

Motilin stimulates

Answer 41

gastric motility
interdigestive myoelectric complexes
intestinal motility

Question 42

Types of movements of GI tract

Answer 42

1 propulsive forward food movement

2 mixing

Question 43

Contractile ring around the gut that moves anything in front forward

Stimulus:

Answer 43

Peristalsis

distention of gut
chemical and physical irritation
parasympathetic signals

Question 44

Law of gut

Answer 44

Peristaltic reflex to anal direction of movement

Receptive relaxation propelling food toward anus

Question 45

Kinins released that promote vasodilation

Answer 45

Kallidin
Bradykinin

Adenosine

Question 46

Stages of swallowing

Answer 46

1 voluntary
2 pharyngeal
3 esopahgeal

Question 47

Control of stomach emptying resides in

Answer 47

1 inhibitory feedback signals from duodenum (enterogastric)

2 CCK

Question 48

Gastric empyting is slowed by

Answer 48

1 too much chyme is already in small intestine
2 chyme is acidic
3 too much fat or hypertonic or hypotonic
4 irritating

Question 49

Hormones that promote peristalsis in intestine

Answer 49

gastrin
CCK
insulin
motilin
serotonin

Question 50

hormones that inhibit small intestinal motility

Answer 50

secretin

glucagon

Question 51

Single celled, secrete mucus in response to irritation of epithelium and act as lubricant to protect surface from excotiation and digestion

Answer 51

Mucus goblet glands

Question 52

Invagination of epithelium into mucosa

Deep, contain secretory cell

Answer 52

pits

crypts of Lieberkuhn

Question 53

Acid and pepsinogen secreting gland of stomach and upper duodenum

Answer 53

Oxyntic gland

Tubular

Question 54

Secretion of glands is stimulated by

Answer 54

1 tactile stimulation
2 chemical irritation
3 distention of gut wall

Question 55

Sympathetic effect on glandular secretion (2)

Answer 55

1 slightly inc secretion

2 superimposed sympa on para significantly reduces secretion bec of vasoconstrictive reduction of blood supply

Question 56

Basic Mechanism of secretion

Answer 56

1 diffusion of nutrient material or active transport to capillary into base of gland
2 oxidative energy ATP from mitochondria utilized by gland
3 synthesis of secretory substance from ATP and substrate in ER and golgi
4 formation of proteins in secretion by ribosome
5 transport of secretion from ER to golgi (20 mins)
6 modification, concentration and discharge of secretion into cytoplasm in form of secretory vesicle in apical end
7 vesicle storage until use (inc in cell membrane perm by control signal to calcium, ca entry causing vesicle fusion with apical membrane -> exocytosis

Question 57

Daily secretion of saliva

Saliva contains large amounts of ions

Answer 57

800-1500 ml

K (acini primary secretion along with ptyalin) and bicarbonate (duct by passive exchange of bicarbonate for chloride)

sodium chloride conc are several times less in saliva than in plasma

Net result: under resting conditions, NaCl conc is about 15 meq/L while K is at 30 meq/L bicarbonate at 50-70 meq/L

Question 58

Saliva two types of protein

Answer 58

1 ptyalin - serous, alpha amylase for starch dig

2 mucin - mucus for lubrication and protection

Question 59

Parotid glands secrete

While submandib and sublingual secrete

Buccal glands secrete

Saliva pH

Answer 59

serous secretions

both serous and mucus

mucus only

6-7 favorable for ptyalin

Question 60

Saliva contains enzymes that destroy bacteria

Answer 60

1 lysozyme -attacks bacteria
2 thiocyanate ions - bactericidal, digest and help remove bacteria support
3 antibody

Question 61

Primary secretion

Secondary secretion

Answer 61

Ptyalin
Mucus
ECF

Na active absorption
Cl passive absorption
K active secretion
HCO3 secretion

Question 62

Secrete HCl
Pepsinogen
Intrinsic factor
Mucus

On the body and fundus 80% proximally

Answer 62

Oxyntic

Gastric glands

Question 63

Secrete mucus for protection of stomach mucosa and gastrin

Located on antrum 20% distal

Answer 63

Pyloric glands

Question 64

Stomach oxyntic gland cell and secretion

Answer 64

1 mucous neck cell : mucus
2 chief cell : pepsinogen
3 parietal oxyntic : HCl and intrinsic factor

Question 65

Factors that stimulate gastric secretion

Answer 65

1 acetylcholine (excites pepsinogen, mucus and hydrochloric acid secretion)
2 gastrin (HCl)
3 histamine (HCl)

Question 66

Along with secretion of HCl parietal oxyntic cells also secrete this for VitB12 cobalamin absorption

Answer 66

Intrinsic factor

Absorption in ileum

Question 67

ECL cells in recess of oxyntic glands release this in relation to the rate and amt of formation of HCl stimulated by gastrin

Answer 67

Histamine

Question 68

When protein reaches antrum, this hormone is released by G cells and is then transported in the blood to ECL to release histamine

Answer 68

Gastrin

Question 69

Pepsinogen secretion is mediated by

Answer 69

1 stimulation of chief cells by acetylcholine from vagus or enteric nerve
2 in response to gastric acid

Question 70

Hormones in the SI that inhibit gastric secretion

Answer 70

Secretin
GIP (GDIP)
VIP
Somatostatin

Question 71

Pancreatic enzymes digest all three major type of food. Most important are:

Answer 71

1 trypsin, chymotrypsin and carboxypolypeptidase for protein, peptides and AA
2 lipase for fatty acid and monogly
3 cholesterol esterase for hydrolysis
4 phospholipase for FA from phospholipid

Question 72

Trypsinogen is activated by

Answer 72

Enterokinase

Trypsin from activated trypsinogen

Question 73

Pancreas also secrete copious amounts of this ion to neutralize gastric acid

Answer 73

bicarbonate

Question 74

Acetylcholine and cholecystokinin stimulate

meanwhile secretin stimulates

Answer 74

Large quantities of pancreatic enzyme but small water and electrolytes

secretion of water rich sodium bicarbonate soln

Question 75

Secretin causes copious secretion of

While

CKK causes secretion of

Answer 75

pancreatic fluid water and bicarbonate also in the second part of bile secretion

pancreatic enzyme

Question 76

Bile amount

Functions

Answer 76

600-1000ml

1 bile salt emulsify fat particles into minute particles for lipase
2 absorption of digested fat end product
3 excretion of waste bilirubin and cholesterol

Question 77

Bile is concentrated by

Answer 77

Na Absorption and secondary chloride ion and water absorption

Question 78

Bile salt formation

Answer 78

Cholesterol -> cholic and chenodeoxycholic acid
Acids combine with glycine and taurine -> glyco and tauroconjugates bile acid
Sodium salt secreted in bile

Question 79

Compound mucus glands in the wall of duodenum secreting large amounts of alkaline mucus in resp to tactile or irritation and vagal stimulation and secretin

Inhibited by

Answer 79

Brunner’s gland of duodenum

pH 8 - 8.9

sympathetic stimulation

Question 80

Crypts of Lieberkuhn in small intestine secrete

Answer 80

Watery fluid rich in Cl and bicarbonate creating sodium solute drag and osmotic movement of water

Question 81

Digestive enzyme in small intestines

Answer 81

1 peptidase (AA)
2 sucrase, maltase, isomaltase, lactase (disach to monosach)
3 lipase (fat into glycerol and FA)

Question 82

Regulation of small intestine secretion unlike the rest of the GI is through

Answer 82

local enteric nervous reflex

Question 83

Protein fat and carbohydrate digestion mostly takes place in the

Answer 83

Small intestine

Question 84

Fructose is absorbed in the small instestine by

Glucose is absorbed by

Answer 84

facilitated diffusion

Na-glucose co transport

Question 85

Indole
Skatole
Mercaptan
Hydrogen sulfide

Answer 85

Odoriferous products

Question 86

H pylori promotes stomach ulceration by

Answer 86

Burrowing into the gastric barrier

Producing ammonia that liquefies barrier and stimulates secretion of HCl digesting wall

Question 87

Factors that inc mucosal ulceration

Answer 87

1 excess secretion of gastric juice esp initial portion of duodenum
2 smoking
3 alcohol
4 aspirin NSAID

Question 88

Gluten destroys and blunts microvilli dec absorptive mucosa of twofolds when eating rye or wheat

Answer 88

Nontropical sprue
Celiac disease
Idiopathic sprue
Gluten enteropathy

Question 89

Inflammation of intestinal mucosa from unidentified infectious agent occuring in tropics

Answer 89

Tropical sprue

Question 90

Sprue complication

Answer 90

1 steatorrhea
2 severe nutritional def, wasting
3 osteomalacia bec of lack of Ca
4 inadequate blood coagulation bec of lack of Vit K
5 macrocytic anemia bec of B12 and folic acid

Question 91

Hirschprung’s disease results from lack of

Answer 91

ganglion cell in myenteric Auerbach’s plexus

Question 92

Antiperistalsis
Deep breath 
Raising of hyoid bone and larnyx to pull up esophageal sphincter open
Closing of glottis 
Lifting of soft palate to close nares 
Contraction of diaphragm 
LES relaxation

Answer 92

Vomiting act

Question 93

The liver receives percentage of CO

Pressure into the portal vein leading into liver is

Answer 93

27%

9mmHg indicating low resistance
inc if cirrhotic -> from fibrosis

Question 94

Promotes liver regeneration

Inhibits liver

Answer 94

HGF
EDGF
TNF
IL6

TGFB

Question 95

Liver role in protein metabolism

Answer 95

Deamination of amino acid
Formation of urea for excretion of ammonia
Forming plasma protein
Conversion of AA to other compounds (nonessential AA)

Question 96

Vitamin stored in sufficient quantity in liver

Answer 96

A
D (good for 3-4 m)
B12 (at least 1 yr)

Question 97

Test that differentiates unconjugated from conjugated bilirubin

Answer 97

Van den Bergh and

Negative urobilinogen in urine (obstructing jaundice)

Question 98

Acetylcholine to gastric contraction

Answer 98

Stimulates

Question 99

Gastrin to gastric contractions

Answer 99

Gastrin

Question 100

Norepinephrine to gastric contractions

Answer 100

inhibits

Question 101

Gastric emptying is slowest after a meal rich in

Answer 101

Fats

Question 102

Factors that lead to increase emptying

Answer 102

Gastrin

Question 103

Forceful retching
Hematemesis
Alcoholic

Answer 103

Mallory-Weis Tear in the GEJ

Question 104

Increasing the intraabdomunal pressure against a closer glottis is otherwise known as:

Answer 104

Valsalva maneuver

Question 105

Location of CTZ

Answer 105

Roof of the fourth ventricle
Area postrema
Medulla oblongata

Question 106

Highly specific and selective serotonin 5HT3 receptor antagonist the nerve terminals of vagus peripherally and centrally in CTZ arew postrema

Low affinity for dopamine receptors

Answer 106

Ondansentron

Question 107

Inhibits D2 and serotonin 5 HT3 receptors in CTZ

Administration leads to prokinetic effects via inhibitory actions on presynaptic and postsynaptic D2 receptora
Agonism of 5HT4
Antagonism of muscarinjc receptor inhibition
Enhances releae of acetylcholine, inc LES ang gastric tone accelerating gastric emptying

Answer 107

Metaclopromide

Question 108

Most of the length of small intestine is from the

Answer 108

Ileum

Question 109

In the duodenum secrete copious amounts of HCO3

Answer 109

Brunner’s glands

Question 110

Emetogenic drugs such as chemotherapeutic agents promote vomiting by

Answer 110

Release of serotonin from the enterochromaffin cells of small intestine by causing degenerative changes of GI tract

Serotonin stimulates the vagal and splanchnic nerve receptors that project to medullary vomiting centers as well as the serotonin receptors in the area postrema thus initiating the vomiting reflex causinf nausea and vomiting

Question 111

Splanchnic blood flow receives

Answer 111

about 25% of cardiac output

Question 112

Blood from GI does not flow directly to IVC because it is shunted to

Answer 112

portal system

Question 113

Contain secretory granules that release regulatory peptides and amines to hell regulate GI function

Answer 113

Enteroendocrine cells

Question 114

Dopamine exerts this effect on GI tract

Answer 114

relaxant

Question 115

Most frequent movement of SI

Answer 115

segmentation

Question 116

Resection of this portion of the gut leads to impaired RBC maturation

Answer 116

Ileum t

Question 117

Mucous neck cell secretes

Answer 117

Mucous

Question 118

Parietal cells secrete

Answer 118

HCl

Question 119

Chief cells secrete

Answer 119

Pepsinogen

Question 120

Enterochromaffin cells secrete

Answer 120

Serotonin

Substance P

Question 121

Enterochromaffin cells Kulchitsky cells produce

Answer 121

Serotonin

Question 122

Enterochromaffin-like cells produce

Answer 122

Histamine
Chromogranin A (Pancreastatin)

Question 123

Destruction of parietal cells as seen in chronic gastritis is accompanied by decreased production of HCl and

Answer 123

Intrinsic factor

Question 124

Pepsinogen maximal activity

Answer 124

pH 2.0

Question 125

Pepsinogen inactivated at

Answer 125

pH 6.5

Question 126

Pepsinogen is activated by

Answer 126

Zymogen HCl Acid pH

Question 127

RBC production is defective caused by autoimmune attack against parietal cells

Answer 127

Pernicious anemia

Question 128

Control of gastric acid secretion

3 physiologic agonists

Answer 128

Histamine
Ach
Gastrin

Question 129

Elicit release of histamine from ECL cells

Answer 129

Gastrin

Question 130

Endogenous antagonist to acid secretion

Answer 130

Somatostatin
Prostaglandin E Prostaglandlin I
Epidermal growth factor

Question 131

The stomach secretes about

Answer 131

2 L of gastric juice

Question 132

Most important of pancreatic enzymes for digesting proteins are

Answer 132

Trypsin
Chymotrypsin
Carboxypeptidase

Question 133

Secreted by I cells

Stimulated by fats and protein

Promotes pancreatic enzyme secretion

Promotes pancreatic bicarbonate

Causes contraction of gallbladder -> release of bile

Answer 133

Cholecystokinin

Question 134

Especially when fatty foods reach the duodenum after this long post meal

Answer 134

30 minutes