•GI motility

Question 0

the migrating myoelectric complex is active from the ____ through the _____

Answer 0

midstomach, terminal ileum

Question 1

the migrating myoelectric complex begins ____ hours after you finish eating

Answer 1

3-4

Question 2

___ produces a series of serial contractions that sweep material into the colon. It lasts about ___ per cycle and is caused by secretion of the hormone ____

Answer 2

Phase III of MMC

10 minutes

motilin

Question 3

and entire MMC cycle lasts ____

Answer 3

75-120 minutes

Question 4

motilin is secreted by ____

Answer 4

M cells of the duodenum (small intestine)

Question 5

swallowing begins as a _____ but becomes _____ as the ____ and _____ nervous systems take over

Answer 5

voluntary action, involuntary, enteric, autonomic

Question 6

primary vs. secondary esophageal peristalsis

Answer 6

primary: vagal, signals go back to the brain’s swallowing center and medulla secondary: more local, enteric nerves help out, if something gets stuck

Question 7

achalasia

Answer 7

a smooth muscle disorder in which the lower area of the esophagus and LES doesn’t have enteric nerves

• LES cannot relax, food can’t get into stomach
• typically will have a dilated esophagus, and many develop anorexia.

Question 8

gastric accommodation is able to occur because of the ____

Answer 8

vagus nerve anticipation

Question 9

the narrowed area at the bottom of the stomach:

Answer 9

antrum

Question 10

organize the following by speed of gastric emptying: oleate meal (fat), saline meal, acid meal (protein)

Answer 10

saline, acid, oleate

Question 11

hormones that regulate the rate of gastric emptying come from the ____

Answer 11

duodenum

Question 12

the basic electrical rhythm of the GI tract is generated by:

Answer 12

ICC- interstitial cells of cajal

Question 13

the basic electrical rhythm is associated with ____

Answer 13

metabolism

Question 14

the ICC rate of stomach is:

Answer 14

3/min

Question 15

the ICC rate of the small intestine is:

Answer 15

10-12/min

Question 16

the ICC rate of the colon is:

Answer 16

variable

Question 17

the action potentials at the top of resting membrane potential slow waves causes:

Answer 17

calcium to be released which binds to calmodulin and activates myosin to cause a contraction

Question 18

what are things that can depolarize the slow waves?

Answer 18

stretch (presence of chyme), ACh/parasympathetics (vagus), gastrin, serotonin, tachykinin

Question 19

what are things that can hyperpolarize the slow waves?

Answer 19

NE, sympathetics, VIP, NO

Question 20

_____ helps mixing in addition to propulsion

Answer 20

segmentation

Question 21

describe the release of bile after ingestion of food:

Answer 21

the vagus nerve stimulates bile production in anticipation. When chyme reaches the duodenum, it secretes CCK. CCK stimulates rhythmic contractions of the gallbladder which releases bile into the duodenum. The vagus also relaxes the sphincter of Oddi (where the common bile duct enters into the duodenum)

Question 22

the majority of the time, it is ____ that is the dominant force of propulsion in the colon

Answer 22

segmental propulsion

Question 23

segmental propulsion is achieved by bands of longitudinal muscle called ______

Answer 23

taneia coli

Question 24

sacs formed by taneia coli for reabsorption:

Answer 24

haustrae

Question 25

what are the two types of propulsions in the colon?

Answer 25

mass movements and segmental propulsion

Question 26

gastrocolic reflex

Answer 26

food in the stomach causes colonic mass movement, due to vagus and gastrin

Question 27

rectosphincteric reflex

Answer 27

rectal stretch stimulates a defecation response

Question 28

Hirshsprung’s disease

Answer 28

aka Megacolon: ENS / enternic nerves are absent from lower colon, rectum and internal anal sphincter. The normal defecation reflex does not occur: IAS remains constricted, and the colon becomes dilated.

• congenital disorder, usually diagnosed when child is several months old.
• Treatment: excision of lower colon and rectum, and reanastamosis with external sphincter. child is trained to defecate in a normal manner as a toddler.

Question 29

Motilin and Gastrin are ______ hormones, and thus, are secreted into ____

Answer 29

Motilin and Gastrin are endocrine hormones, secreted into the blood

Question 30

Where is Gastrin produced and when is it released?

Answer 30

• produced from endocrine G cells located in the gastric glands of the antrum (stomach) and duodenum
• is secreted into the blood in response to stretch and the composition of the chyme (carbs, proteins, fats).

Question 31

2 functions of gastrin

Answer 31

• Major action: enhances HCl secretion from the gastric parietal cells
• Early in feeding, when chyme is in stomach and duodenum, gastrin stimulates motility in ileum and colon (in conjunction with PNS) to make room in the colon and push out feces.

Question 32

Factors that depolarize slow waves include ___

Answer 32

1. stretch
2. substance P (tachykinin)
3. ACh (PNS)
4. serotonin

Question 33

Factors that hyperpolarizeslow waves include ____

Answer 33

1. NE (SNS)
2. nitric oxide (NO)
3. vasoactive intestinal peptide (VIP)

Question 34

What generated the slow waves in the GIT?

Answer 34

Interstitial cells of Cajal (ICC) between the longitudinal and circular smooth muscle layers.

Question 35

What is the SIP syncytium?

Answer 35

• coupling of the smooth muscle in the GIT to the ICC and a PDGFR-α+ cell, forms a SIP syncytium.

smooth muscle + Interstitial Cells of Cajal + PDGFR-α+ cell

Question 36

The undulations in the slow waves reflect changes in the RMP caused by ……..

Answer 36

coupling of the smooth muscles to the ICC and a PDGFR-α+ cell, forming a SIP syncytium

Question 37

The SIP syncytium is regulated by ___

Answer 37

primarily pottasium (K+) ion channels and receptor-mediated processes

Question 38

What is the BER?

Answer 38

• Slow waves are termed Basic Electrical Rhythm or BER
• because they are ALWAYS present, but their frequency (waves/min) is set by pacemaker cells, which change down the tract.

Question 39

What sets the BER?

Answer 39

Different pacemaker cells throughout the GIT.

Question 40

What is the BER/frequency of slow waves in the stomach and the small intestine?

Answer 40

slower in stomach (3 waves/min)

faster in small intestine (10-12 waves/min)

Question 41

when the resting potential is <40 mV, _____

Answer 41

• there are essentially no contractions.
• spike potentials (AP) are generated on the peaks of the slow waves when RMP is depolarized above -40 mV.

Question 42

Depolarization above -40 mV by ____ will stimulate APs, and the greater the depolarization, _____

Answer 42

• by stretch or parasymp stimulation
• the more APs, and the greater the contractions

Question 43

The number of action potentials generated on a slow wave are directly related to ____

Answer 43

the force of contractions.

Question 44

_____ will stop APs and contraction.

Answer 44

hyperpolarization (ie by sympathetic tone) will stop APs and contraction of GIT smooth muscle

Question 45

Kinds of propulsion that takes palce in the Small intestine

Answer 45

Peristalsis and Segmentation

Question 46

Describe difference between the 2 kinds of propulsion seen in the small intestine.

Answer 46

Peristalsis: contraction of circular smooth muscle “behind” the bolus, relaxation of the muscle distal/in front of to the bolus, moves bolus along the tract. Accomplished through stimulatory and inhibitory interneurons, may have more extrinstic (PNS) input.

Segmentation: mixes and propels, circular muscle contracts on either side of the bolus. Due more to local factors (eg stretch).

Question 47

What are the two types of propulsion seen in the colon (large intestine)?

Answer 47

Segmental propulsion

Mass movements

Question 48

Segmental propulsion

Answer 48

• occurs in the colon/large intestine
• caused by the contraction of longitudinal bands of tanea coli, form pockets of chyme called haustra. - These pockets remain for long periods, allow additional reabsorption of sodium and water (colonic salvage), producing feces.

Question 49

what are haustra? tani coli?

Answer 49

1. tani coli - longitudinal muscles on the colon
2. haustra - when the tanai coli contract they cause chyme in the colon to form pockets called haustra

Question 50

Mass movements

Answer 50

• occur in the colon, are more peristaltic in nature, occur 3-4 times/day coincident with feeding (gastrocolic reflex).

Question 51

When a mass movement is stimulated, _____ relax, and peristaltic contractions in _______ move chyme and feces distally, towards rectum.

Answer 51

the haustra relax!

contractions in ascending and transverse colon

Question 52

Gastrocolic reflex:

Answer 52

chyme in the stomach (gastro), stimulates colonic mass movements (colic) –> Moves chyme and feces out of lower GIT to prepare for more food

Question 53

Describe nerves/hormones involved in Gastrocolic reflex.

Answer 53

• involves stimulation of Parasympathetic NS:
• vagus nerves– through the transverse colon
• pelvic nerve – from transverse to descending colon
• gastrin– (hormone from antrum and duodenum, both of which are stimulated very early in feeding)
• vagus and gastrin both stimulate depolarization of slow waves lower in the GI tract (ileum, ascending and T colon), initiating peristaltic-type movements.

Question 54

Ileogastric reflex:

Answer 54

• chyme in the ileum (ileo-) slows gastric emptying into duodenum (gastric). Buys more time to clear the lower GIT
• When motility in ilium increases via gastrocolic reflex, this signals pylorus to increase sphincter tone, and reduce the amount of chyme leaving stomach.

Question 55

Rectosphincteric reflex

Answer 55

Defecation reflex: Feces in the rectum relaxes the internal anal sphincter and we feel the urge to defecate.

• dependent on enteric nerves, which respond to mechanoreceptors in the rectum (stretch!) by relaxing IAS and send a reflex to the brain stimulating the urge to defecate. We then constrict the external anal sphincter until ready to go!