Gastrointestinal Physiology: Motility I

Question 1

The only exception to the net mouth to anus (aboral) movement

Answer 1

Vomiting

Question 2

Generate the force to move material along the GI tract

Answer 2

Phasic contractions

Question 3

Create resistance to movement

-normally in the sphincters or pathologically elsewhere

Answer 3

Tonic contractions

Question 4

What are the three primary functions of mastication?

Answer 4

1. ) Reduction in particle size
2. ) Mixing
3. ) Enhance stimulation of taste buds and other receptors

Question 5

Mixing of the food with saliva is needed to libricate the mass and increase the exposure to which two things?

Answer 5

1. ) Salivary amylase (carbohydrate digestion)

2. ) Lingual lipase (lipid digestion)

Question 6

Mastication enhances stimulation of taste buds and other receptors in the oral cavity to increase salivation and appreciation of the food. Some of these receptors initiate the

Answer 6

Cephalic phase of digestion

Question 7

Control of mastication is primarily

Answer 7

Reflexive

Question 8

Plays a much larger role in indigestion than most people realize

Answer 8

Impaired chewing

Question 9

Moving food and liquid from the mouth into the stomach, is an example of integration within the neural system. This is referred to as

Answer 9

Swallowing

Question 10

Swallowing is divided into which 3 phases?

Answer 10

1. ) Oral
2. ) Pharyngeal
3. ) Esophageal

Question 11

When not swallowing (i.e. at rest), the upper esophageal sphincter (UES) and the lower esophageal sphincter (LES) are

Answer 11

Contracted

-effectively isolates the esophagus

Question 12

The esophageal muscles do not maintain any tonic contractions, thus the esophagus is

Answer 12

Flaccid

Question 13

The pressures in the upper and lower esophagus reflect the pressure in the

Answer 13

Thoracic and abdominal cavities respectively

Question 14

The buccal or oral phase of swallowing is under

Answer 14

Voluntary control

Question 15

A bolus, approx. 5-15 cm3, is moved to the back of the mouth by elevating the front of the tongue against the surface of the hard palate in the

Answer 15

Buccal (oral) phase

Question 16

In the buccal (oral) phase of swallowing, the bolus is moved into the oropharynx by

Answer 16

Retraction and depression of the tongue

Question 17

The driving force for movement of the bolus in the buccal phase is a pressure gradient of approximately

Answer 17

4-10 mmHg

Question 18

An involuntary reflex coupled to the primary esophageal peristaltic wave

Answer 18

Pharyngeal phase of swallowing

Question 19

Pharyngeal phase is an involuntary reflex coupled to the primary esophageal peristaltic wave. Both are controlled by the

Answer 19

Swallowing center

Question 20

The pharyngeal phase is initiated by the bolus touching the pillars of fauces, tonsils, soft palate, base of tongue and

Answer 20

Posterior wall of the pharynx

Question 21

When this happens, afferent impulses go to the swallowing center. Efferent fibers convey impulses back to the

Answer 21

Pharyngeal muscles, UES, esophageal muscles, LES, and orad portion of the stomach

Question 22

The swallowing center also interacts with other centers controlling

Answer 22

Respiration and speech

Question 23

Relaxes as the pharyngeal peristaltic wave starts (pressure gradient up to 100 mm Hg), and the bolus is propelled into the esophagus

Answer 23

UES

Question 24

At the end of the pharyngeal contraction, the UES contracts to a level above resting tone. This prevents

Answer 24

Reflux

Question 25

The air passages close simultaneously with the onset of the

Answer 25

Pharyngeal wave

Question 26

The soft palate presses against the posterior pharyngeal wall sealing the

Answer 26

Nasopharynx

Question 27

In the pharyngeal phase, the vocal cords come together, the epiglottis deflects horizontally and the larynx moves forward and upward under the base of the tongue closing the

Answer 27

Larynx

Question 28

A primary peristaltic wave is initiated by the swallowing center, and mediated by the vagus to the striated circular and longitudinal muscles in the

Answer 28

Esophageal phase

Question 29

This peristaltic wave goes to the myenteric plexus in the smooth muscle, thus, activating the

Answer 29

Enteric System

Question 30

The primary peristaltic wave starts just below the sphincter and spreads downwards pushing the bolus toward the stomach when the

Answer 30

UES pressure is high

Question 31

Almost simultaneously, a wave of inhibition starts in the

Answer 31

Proximal LES (LES relaxes)

Question 32

The likely neurotransmitters for this LES inhibition are

Answer 32

VIP and NO

Question 33

This continues into the stomach (receptive

relaxation), and is mediated by

Answer 33

Vagal inhibitory fibers acting on ENS

Question 34

The temporary inhibition of resting tone in the fundus and orad area

Answer 34

Receptive Relaxation

Question 35

This maintains the esophageal-gastric pressure gradient to prevent

Answer 35

Reflux during swallowing

Question 36

After the peristaltic wave passes the LES, the LES contracts to a level above resting tone. This is mediated by

-prevents reflux

Answer 36

ACh and enkephalins

Question 37

May move through the LES before the peristaltic wave in response to gravity

Answer 37

Liquids

Question 38

Air in the pharynx at the start of a swallow passes into the

Answer 38

Trachea

Question 39

Air trapped in saliva and food, or voluntarily swallowed, passes into the stomach. This results in

Answer 39

Burping

Question 40

A peristaltic wave not preceded by pharyngeal activity or relaxation of the UES

Answer 40

Secondary Peristalsis

Question 41

Functions to clear the esophagus of retained food and/or refluxed gastric contents

Answer 41

Secondary peristalsis

Question 42

Initiated by distention in the body of the esophagus that stimulates stretch receptors in the wall

Answer 42

Secondary peristalsis

Question 43

What is secondary peristalsis mediated by in

1. ) Striated muscle?
2. ) Smooth muscle

Answer 43

1. ) Vagus

2. ) Vagus and ENS

Question 44

Is there any sensation associated with secondary peristaltic contractions?

Answer 44

No (little to none)

Question 45

Normally maintains a pressure that is 20-40 mmHg higher than the stomach which prevents reflux

Answer 45

LES

Question 46

This anti-reflux mechanism is particularly important during the third-trimester pregnancy as other mechanisms are weakened

Answer 46

Secondary peristalsis

Question 47

Another anti-reflux mechanism is the pinching action of the diaphragm on the

Answer 47

Esophagus

Question 48

Infants rely primarily on this anti-reflux mechanism, while awaiting other mechanisms to develop

Answer 48

Pinching of diaphragm on esophagus

Question 49

Another anti-reflux mechanism is that increases in intra-gastric and intra abdominal pressures lead to increased

Answer 49

LES pressure

Question 50

Occur in humans and are centrally controlled (does not occur in rats)

Answer 50

Retching and Vomiting

Question 51

However, reverse esophageal peristalsis does not usually occur in

Answer 51

Humans

Question 52

Starts with orally directed peristalsis in the small intestine that leads to movement of intestinal
contents into the stomach

Answer 52

Retching and Vomiting

Question 53

Then forceful contractions of duodenal and gastric antral muscles, coupled with deep inspiration and decreased LES tone leads to

Answer 53

Retching

Question 54

Movement of contents into the esophagus but with inadequate force to move contents through UES

Answer 54

Retching

Question 55

Subsequent additional contraction of the\ diaphragm and abdominal muscles (increases intraabdominal pressure), coupled with further decreases in LES and UES tone leads to

Answer 55

Vomiting

Question 56

Storage in the stomach is accomplished by both

Answer 56

1. ) Receptive relaxation

2. ) Accommodation

Question 57

Muscle relaxation in response to stretching or distension by food

Answer 57

Accommodation

Question 58

Gastric filling leads to changes in volume with little to no change in

Answer 58

Wall pressure

Question 59

Increasing gastric volume with 1.6L of air increases intragastric pressure by

Answer 59

10mmHG or less

Question 60

Allows digestion of foo by salivary and gastric enzymes, as well as controlled gastric emptying

Answer 60

Gastric storage

Question 61

The storage site in the stomach

Answer 61

Upper stomach

Question 62

Causes the mixing of food, salivary secretions and gastric secretions

Answer 62

Antral muscle contraction

Question 63

Mixing facilitates gastric

Answer 63

Digestion

Question 64

The antrum grinds the solid food into small particles which the pylorus allows to pass into the

Answer 64

Duodenum

Question 65

The rate of gastric emptying is controlled to deliver chyme to the small intestine for optimized

Answer 65

Digestion and absorption

Question 66

Sweep luminal contents (e.g. undigestible materials) out of the stomach, down through the small intestine and into the large intestine

Answer 66

Migrating Myoelectric Complexes (MMCs)

Question 67

MMCs are only active during the

Answer 67

Interdigestive period

Question 68

At the onset of eating, shallow and slow peristaltic contractions start over the corpus, and increase in strength and velocity as they move into the

Answer 68

Antrum

Question 69

With increased time after eating, contractions start higher up in the corpus and are

Answer 69

Stronger

Question 70

The simultaneous contraction of the terminal antrum and pylorus

Answer 70

Antral Systole

Question 71

Results in 1) retrograde movement of chyme back into the stomach, leading to effective mixing, and 2) shearing forces, which reduces particle size

Answer 71

Antral systole

Question 72

Leave the stomach prior to antral systole

Answer 72

Chyme and liquids

Question 73

During the interdigestive period, when the stomach and small intestine empty, they generate

Answer 73

Strong peristaltic waves (MMCs)

Question 74

Results in semi-liquid chyme or liquids passing through the pylorus prior to antral systole and closure of pyloric sphincter

Answer 74

Gastric Emptying

Question 75

The emptying rate is controlled by the interactions of gastric and duodenal motilities, and pyloric sphincter tone, which are modified by

Answer 75

Enteric, spinal, and vago-vagal reflexes and GI peptides

Question 76

Increased gastric volume increases gastric emptying rate via

Answer 76

Gastric stretch receptors

Question 77

Particle size: 0.25 mm3 empty faster than 10 mm3 due to the

Answer 77

Pyloric lumenal diameter

Question 78

What empties faster, carbohydrates or proteins?

Answer 78

Carbohydrates

Question 79

What empties faster, proteins or fats?

Answer 79

Proteins

Question 80

Duodenal chemo-receptors, CCK, GIP and secretin, all have what effect on the rate of gastric emptying?

Answer 80

Decrease rate

Question 81

What empties faster, acidic or neutral species?

Answer 81

Neutral

Question 82

What empties faster, hypotonic, isotonic, or hypertonic solutions?

Answer 82

Isotonic faster than hypotonic

Hypotonic faster than hypertonic

Question 83

The duodenogastric reflex i.e. excessive duodenal distention activates duodenal stretch receptors, leading to

Answer 83

Reduced gastric contraction and emptying rate

Question 84

Ileal distension decreases

Answer 84

Gastric emptying

Question 85

Functions in gastric and small intestine interdigestive motility

Answer 85

Migrating myoelectric complex (MMC)

Question 86

The strongest peristaltic contractions observed in healthy individuals are from

Answer 86

MMCs

Question 87

“Clean out” residual material from the stomach and small intestine and moves it into the large intestine

Answer 87

MMCs

Question 88

MMCs require an intact

Answer 88

Enteric nervous system

Question 89

The beginning of the MMC is associated with rising blood levels of

Answer 89

Motilin

Question 90

Stop with rising blood gastrin levels and feeding

Answer 90

MMCs

Question 91

Not related to ‘hunger pangs’ but could contribute to the discomfort and pain of ulcers

Answer 91

MMCs

Question 92

Slow movement of the chyme through the intestine maximizes

Answer 92

Absorption of nutrients

Question 93

Mixing in the small intestine facilitates intraluminal digestion by mixing chyme with secretions and facilitates absorption by increasing exposure of the chyme to the

Answer 93

Epithelial surface

Question 94

In the small intestine, functions to empty unabsorbed residue and secreted material into the large bowel

Answer 94

MMCs

Question 95

Muscularis mucosae and villus muscle activity is responsible for movement of the

Answer 95

Mucosa and Villi of small intestine

Question 96

Muscularis mucosae and villus muscle contractions are independent of contractions in the

Answer 96

Muscularis externa

Question 97

Activity in these muscles serves to increase absorption and aids

Answer 97

Lymph flow

Question 98

Sympathetic stimulation and chyme stimulating touch receptors on the epithelial surface of the small intestine induces

Answer 98

Rapid shifts in mucosal surface

Question 99

This can be seen in X-rays after administering

Answer 99

Barium salts

Question 100

Responsible for intraluminal mixing and propulsion

Answer 100

Muscularis externa