Gastro - Physiology

Question 1

What are the functions of gastrin?

Answer 1

Gastrin increases acid secretion, promotes growth of the gastric mucosa, and increases gastric motility

Question 2

What are stimuli for the release of gastrin?

Answer 2

Distension, amino acids, vagal stimulation

Question 3

What serves as negative feedback for gastrin release?

Answer 3

Acid secretion; a pH < 1.5 will inhibit gastrin secretion

Question 4

A patient presents with peptic ulcer disease refractory to medical treatment. On endoscopy, he is found to have multiple ulcers in the stomach and a few in the jejunum. Fasting gastrin levels are markedly elevated. What is the likely diagnosis?

Answer 4

Zollinger-Ellison syndrome due to ectopic production of gastrin

Question 5

What two amino acids are especially potent stimulators of gastrin release?

Answer 5

Tryptophan and phenylalanine

Question 6

Which cells in the gastrointestinal tract make cholecystokinin?

Answer 6

I cells of the duodenum and jejunum

Question 7

What are the actions of cholecystokinin?

Answer 7

Stimulation of gallbladder contraction and pancreatic enzyme secretion; slowing of gastric emptying

Question 8

What stimulates cholecystokinin release?

Answer 8

The presence of fatty acids and amino acids in the duodenum

Question 9

In cholelithiasis, pain worsens after the ingestion of what type of foods?

Answer 9

Fatty foods; due to stimulation of cholecystokinin release, which causes gallbladder contraction

Question 10

Secretin is produced by which cells?

Answer 10

S cells of the duodenum

Question 11

What are the actions of secretin?

Answer 11

Increases bicarbonate secretion, increases bile acid secretion, decreases gastric acid secretion

Question 12

Which two substances stimulate secretin release within the duodenum?

Answer 12

Acid and fatty acids

Question 13

Secretin-stimulated pancreatic bicarbonate functions to neutralize _____ _____ within the _____.

Answer 13

Gastric acid; duodenum

Question 14

Why is it important that secretin-stimulated bicarbonate neutralize gastric acid within the duodenum?

Answer 14

Pancreatic enzymes would otherwise be denatured and nonfunctional in the acidic environment created by unopposed gastric acid

Question 15

Somatostatin is made by which cells?

Answer 15

D cells of pancreatic islets and gastrointestinal mucosa

Question 16

Does somatostatin lead to increased or decreased pepsinogen secretion? Increased or decreased gastric acid secretion?

Answer 16

Decreased; decreased

Question 17

Does somatostatin increase or decrease pancreatic secretions?

Answer 17

Decrease

Question 18

Does somatostatin increase or decrease fluid secretions in the small intestine?

Answer 18

Decrease

Question 19

What effect does somatostatin have on the gallbladder?

Answer 19

Somatostatin decreases gallbladder contraction

Question 20

The presence of what substance in the gut lumen causes increased somatostatin release?

Answer 20

Acid

Question 21

What functions to inhibit somatostatin release?

Answer 21

Vagal stimulation

Question 22

Given the functions of somatostatin, why is it classified as an antigrowth hormone?

Answer 22

Somatostatin inhibits digestion and absorption of nutrient, thereby preventing the body from receiving nutrient needed for growth

Question 23

What are two tumors that can be treated with somatostatin?

Answer 23

Vasoactive intestinal peptide tumors and carcinoid tumors; somatostatin reduces symptoms by inhibiting secretions from the tumors

Question 24

Glucose-dependent insulinotropic peptide is made by which cells?

Answer 24

K cells of the duodenum and jejunum

Question 25

What is the exocrine regulatory effect of glucose-dependent insulinotropic peptide?

Answer 25

Decreased secretion of gastric acid

Question 26

What is the endocrine regulatory effect of glucose-dependent insulinotropic peptide?

Answer 26

Increased release of insulin

Question 27

What increases glucose-dependent insulinotropic peptide secretion?

Answer 27

Fatty acids, amino acids, and oral glucose load

Question 28

Why is an oral glucose load used more rapidly by the body than an equivalent load that is given intravenously?

Answer 28

Because oral (but not intravenous) glucose stimulates glucose-dependent insulinotropic peptide, which stimulates insulin release

Question 29

Where is vasoactive intestinal polypeptide secreted within the gastrointestinal tract?

Answer 29

Parasympathetic ganglia in sphincters, gallbladder, small intestine

Question 30

Vasoactive intestinal polypeptide _____ (increases/decreases) intestinal water and electrolyte secretion.

Answer 30

Increases

Question 31

What effect does vasoactive intestinal peptide have on intestinal smooth muscle and sphincters?

Answer 31

Relaxation of these structures

Question 32

What stimuli increase secretion of vasoactive intestinal peptide?

Answer 32

Distention, vagal stimulation

Question 33

What is a negative regulator of vasoactive intestinal peptide release?

Answer 33

Adrenergic input

Question 34

What is the major symptom of a vasoactive intestinal peptide-secreting tumor?

Answer 34

Profuse, watery diarrhea

Question 35

Which small messenger molecule causes an increase in smooth muscle relaxation in the gut?

Answer 35

Nitric oxide

Question 36

What is the pathophysiology of achalasia?

Answer 36

Increase in lower esophageal tone secondary to loss of nitric oxide secretion

Question 37

What is the function of motilin?

Answer 37

Production of migrating motor complexes in the small intestine, thereby promoting peristalsis

Question 38

Motilin secretion is _____ (increased/decreased) while in a fasting state.

Answer 38

Increased

Question 39

What are the functions of ghrelin?

Answer 39

Regulation of hunger and meal initiation

Question 40

Secretion of which hormones is stimulated by ghrelin?

Answer 40

Growth hormone, adrenocorticotropic hormone, cortisol, and prolactin

Question 41

A patient undergoes gastric bypass surgery for weight loss. He reports feeling less hungry. What is a possible explanation for this finding?

Answer 41

Decreased ghrelin secretion by the stomach after bypass surgery

Question 42

A young, obese male presents to the office with increased aggression and hyperphagia. He has an IQ of 60 and small testicles. What is his diagnosis and what hormone is implicated in his hyperphagia?

Answer 42

Prader-Willi; ghrelin

Question 43

Intrinsic factor is a product of what cells?

Answer 43

Parietal cells of the stomach

Question 44

What is the function of intrinsic factor?

Answer 44

Vitamin B12 binding and B12 absorption in the ileum

Question 45

The destruction of parietal cells is seen in which two conditions?

Answer 45

Chronic gastritis and pernicious anemia

Question 46

What cells make gastric acid?

Answer 46

Parietal cells

Question 47

What is the main action of gastric acid?

Answer 47

To decrease stomach pH

Question 48

Which substances increase gastric acid secretion?

Answer 48

Acetylcholine (from the vagus nerve), histamine, and gastrin

Question 49

Which substances decrease gastric acid secretion?

Answer 49

Somatostatin, glucose-dependent insulinotropic peptide, prostaglandin, and secretin

Question 50

A patient presents with chronic abdominal pain and nonhealing gastric ulcers despite treatment. What is a likely cause?

Answer 50

Gastrinoma

Question 51

Which cells make pepsin?

Answer 51

Chief cells

Question 52

What is the action of pepsin?

Answer 52

Protein digestion

Question 53

What stimulates pepsin release?

Answer 53

Acid in the stomach and vagal stimulation

Question 54

Inactive pepsinogen is converted to pepsin by _____ _____.

Answer 54

Low pH

Question 55

Which cells secrete bicarbonate?

Answer 55

Mucosal cells throughout the gastrointestinal tract and Brunner& glands in the duodenum

Question 56

By secreting bicarbonate within the stomach and the duodenum, mucosal cells prevent what harmful process from occurring?

Answer 56

Autodigestion

Question 57

Bicarbonate secretion within the gastrointestinal tract is increased by what substance?

Answer 57

Secretin

Question 58

HCl and intrinsic factor are released by _____ cells in the _____ of the stomach.

Answer 58

Parietal; body

Question 59

_____ is produced by chief cells in the _____ of the stomach.

Answer 59

Pepsinogen; body

Question 60

Name three different types of secretory cells found in the duodenum.

Answer 60

I cells (cholecystokinin), K cells (glucose-dependent insulinotropic peptide), S cells (secretin)

Question 61

Somatostatin is made by _____ cells in what organ?

Answer 61

D; pancreas

Question 62

What influence does atropine have on the gastrointestinal secretory cells?

Answer 62

Blocks vagal stimulation of parietal cells only

Question 63

Does atropine affect vagal stimulation of the G cells?

Answer 63

No, the G cells are stimulated by gastrin-releasing peptide

Question 64

Gastrin stimulates the production of which two substances?

Answer 64

Histamine (causes acid secretion) and intrinsic factor

Question 65

What are two stimuli that cause increased acid secretion by parietal cells?

Answer 65

Histamine and acetylcholine secretion by the vagus nerve

Question 66

What substances are secreted directly into the lumen of the stomach?

Answer 66

Mucus, pepsinogen, intrinsic factor, and HCl

Question 67

Does gastrin stimulate the basal or apical surface of the parietal cells?

Answer 67

Basal surface; gastrin is secreted into circulation to stimulate enterochromaffin-like cells and parietal cells

Question 68

What substances are secreted into the lumen of the duodenum?

Answer 68

Cholecystokinin, secretin, glucose-dependent insulinotropic peptide, and somatostatin

Question 69

What are the sources of salivary secretions?

Answer 69

Parotid, submandibular, submaxillary, and sublingual glands

Question 70

Which salivary gland produces the most mucinous saliva? The most serous?

Answer 70

Sublingual; parotid

Question 71

The main function of α-amylase, which is found in salivary secretions, is to begin what process?

Answer 71

Starch digestion

Question 72

α-Amylase, which is found in salivary secretions, is inactivated by what?

Answer 72

A low pH, as is found in the stomach

Question 73

Which constituent of salivary secretions is important for maintaining dental health?

Answer 73

Bicarbonate

Question 74

The mucins found in salivary secretions are composed of what category of biochemical compounds?

Answer 74

Glycoproteins

Question 75

What is the role of growth factors in salivary products?

Answer 75

Epithelial renewal of the oral mucosae

Question 76

Which branch of the autonomic system regulates salivary secretion?

Answer 76

Both sympathetic and parasympathetic

Question 77

Which of the sympathetic nerves stimulate salivary secretion?

Answer 77

The T1-T3 superior cervical ganglion

Question 78

Which two nerves carry the parasympathetic control of salivary secretions?

Answer 78

The facial and the glossopharyngeal nerves

Question 79

Why does a low flow rate result in hypotonic salivary secretion?

Answer 79

There is more time to reabsorb electrolytes from the saliva

Question 80

If salivary secretions flow at a high flow rate, do they then tend to be isotonic or hypotonic to the blood?

Answer 80

If salivary secretions flow at a high flow rate, do they then tend to be isotonic or hypotonic to the blood?

Question 81

A patient comes to the clinic complaining of unilateral facial weakness after a parotidectomy. Which nerve was most likely damaged during surgery?

Answer 81

CN VII (facial nerve)

Question 82

Which cells make gastric acid?

Answer 82

Parietal cells

Question 83

The proton pump of parietal cells can be found on which side of the cell?

Answer 83

The luminal side

Question 84

The proton pump of the parietal cells pumps _____ into the cell and sends _____ out of the cell and into the lumen.

Answer 84

Potassium; hydrogen

Question 85

Which common class of drugs inhibit the parietal cells proton pump? Give an example of one

Answer 85

Proton pump inhibitors such as omeprazole

Question 86

How does acetylcholine stimulate acid production by parietal cells?

Answer 86

I-t activates an M3 receptor on the cells that directly stimulates acid secretion via a G protein cascade

Question 87

In what two ways does gastrin stimulate acid production by parietal cells?

Answer 87

Gastrin directly binds cholecystokinin receptors on parietal cells and stimulates a G protein cascade; gastrin also stimulates histamine production by enterochromaffin-like cells

Question 88

What is the second messenger that is used in histamine-induced acid secretion?

Answer 88

cAMP, stimulated by the H2receptor

Question 89

What substances inhibit acid secretion by the parietal cells?

Answer 89

Prostaglandins, somatostatin

Question 90

Is the mucus secreted by Brunners glands acidic, alkaline, or neutral?

Answer 90

Alkaline

Question 91

What is the function of Brunners gland secretions?

Answer 91

To neutralize acid contents entering the duodenum from the stomach

Question 92

Brunners glands are located in what portion of the gastrointestinal tract?

Answer 92

The duodenum

Question 93

Brunners glands are located in what layer of the gastrointestinal tract?

Answer 93

The submucosa

Question 94

Which disease results in hypertrophy of Brunners glands?

Answer 94

Peptic ulcer disease

Question 95

What is the function of α-amylase?

Answer 95

To digest starch

Question 96

Lipase, phospholipase A, and colipase function primarily in what process?

Answer 96

Fat digestion

Question 97

Which pancreatic enzymes are involved in protein digestion?

Answer 97

Trypsin, chymotrypsin, elastase, and carboxypeptidase

Question 98

Are proteases secreted in active or inactive forms?

Answer 98

Inactive forms called proenzymes or zymogens

Question 99

What enzyme converts trypsinogen to trypsin?

Answer 99

Enterokinase/enteropeptidase

Question 100

Where is enterokinase (a protein that activates trypsin) located?

Answer 100

In the duodenal brush border

Question 101

After being converted to its active form in the intestinal lumen, trypsin then does what?

Answer 101

It activates the other proenzymes as well as more trypsin molecules

Question 102

Which pancreatic enzyme is also present in saliva?

Answer 102

Amylase

Question 103

In addition to enterokinase, what other enzyme can convert trypsinogen to the active form of trypsin?

Answer 103

Trypsin itself

Question 104

What are the three basic enzyme groups that digest carbohydrates?

Answer 104

Salivary amylase, pancreatic amylase, and oligosaccharide hydrolases

Question 105

What are the functions of salivary amylase?

Answer 105

Starts digestion by hydrolyzing α-1,4 linkages in starches

Question 106

What are the products of carbohydrate digestion by salivary amylase?

Answer 106

Disaccharides such as α-limit dextrin, maltose, and maltotriose

Question 107

Pancreatic amylase is at its highest concentration in what area of the gastrointestinal tract?

Answer 107

The duodenal lumen

Question 108

Pancreatic amylase hydrolyzes starch to what two types of substances?

Answer 108

Oligosaccharides and disaccharides

Question 109

Where are oligosaccharide hydrolases found?

Answer 109

At the brush border of the intestine

Question 110

What are the products of the reactions catalyzed by oligosaccharide hydrolases?

Answer 110

Monosaccharides

Question 111

True or False? Only monosaccharides are absorbed by enterocytes.

Answer 111

True; this includes glucose, galactose, and fructose

Question 112

Glucose and galactose are taken up by what transporter in the gastrointestinal tract?

Answer 112

Sodium-glucose linked transporter 1, which is sodium dependent

Question 113

Fructose is taken up by what transporter in the gastrointestinal tract?

Answer 113

Glucose transporter 5, which works by facilitated diffusion

Question 114

All monosaccharides are transported from the enterocytes to the blood by what transporter?

Answer 114

Glucose transporter 2

Question 115

Can sucrose be directly absorbed by enterocytes?

Answer 115

No, sucrose is a disaccharide; only monosaccharides (glucose, galactose, fructose) are absorbed directly by enterocytes

Question 116

Name the 3 monosaccharides that can be absorbed by enterocytes.

Answer 116

Glucose, galactose, fructose

Question 117

Where is iron absorbed in the gastrointestinal tract?

Answer 117

Duodenum; iron must be absorbed as a divalent cation, which is the reduced form of the ion and favored in an acidic environment

Question 118

Where is folate absorbed in the gastrointestinal tract?

Answer 118

Jejunum

Question 119

Where is vitamin B12 absorbed in the gastrointestinal tract?

Answer 119

Ileum; B12 must be bound by intrinsic factor to be effectively absorbed

Question 120

Peyers patches are what kind of tissue?

Answer 120

Unencapsulated lymphoid tissue

Question 121

In what two layers of the gastrointestinal tract are Peyers patches found?

Answer 121

The lamina propria and the submucosa

Question 122

What is the main action of M cells?

Answer 122

M cells take up antigens from the gut lumen for presentation to B cells and eventual creation of immunoglobulin A antibodies

Question 123

After stimulated B cells from Peyers patches have differentiated into plasma cells, what do they then secrete?

Answer 123

Immunoglobulin A; (remember: Intra-gut Antibody)

Question 124

After being secreted, immunoglobulin A functions to bind what?

Answer 124

Intraluminal antigens

Question 125

What are the six components of bile?

Answer 125

Bile salts, phospholipids, cholesterol, bilirubin, water, and ions

Question 126

What is the only means of cholesterol excretion from the body?

Answer 126

Via bile

Question 127

Are bile salts water soluble?

Answer 127

Yes, they are conjugated to glycine and taurine (bile acids are not water soluble)

Question 128

Bile acids are composed of bile acids conjugated to which two organic acids?

Answer 128

Glycine or taurine

Question 129

What is the function of bile?

Answer 129

Bile salts aid in triglyceride absorption and micelle formation

Question 130

Bilirubin is a breakdown product made during _____ metabolism.

Answer 130

Haem

Question 131

What is the essential structural difference between direct and indirect bilirubin?

Answer 131

Direct bilirubin is conjugated; indirect bilirubin is not

Question 132

Direct bilirubin is conjugated with what?

Answer 132

Glucuronic acid

Question 133

What type of bilirubin is water soluble, direct or indirect?

Answer 133

Direct

Question 134

What type of bilirubin is water insoluble, direct or indirect?

Answer 134

Indirect

Question 135

What is jaundice?

Answer 135

Yellow skin and sclerae due to elevated levels of bilirubin

Question 136

Unconjugated bilirubin travels through the circulation bound to _____. This complex can be measured as _____ _____.

Answer 136

Albumin; indirect bilirubin

Question 137

The liver excretes what form of bilirubin into the bile?

Answer 137

Conjugated (direct) bilirubin

Question 138

The conjugated bilirubin that gets excreted into the bile by the liver can be measured as _____ _____.

Answer 138

Direct bilirubin

Question 139

The form of bilirubin that gets excreted renally is called _____.

Answer 139

Urobilin

Question 140

Within the colon, conjugated bilirubin gets converted to _____ by _____.

Answer 140

Urobilinogen; bacteria

Question 141

The form of bilirubin that gets excreted in the feces is called _____.

Answer 141

Stercobilin

Question 142

Stercobilin gives feces what characteristic?

Answer 142

Its dark color

Question 143

From the gut, urobilinogen that does not get excreted fecally enters the _____ _____, which takes it back to the _____.

Answer 143

Enterohepatic circulation; liver

Question 144

Which enzyme catalyzes bilirubin conjugation?

Answer 144

Glucuronyl transferase

Question 145

Can unconjugated bilirubin be excreted by the kidneys?

Answer 145

No, it is bound to albumin and therefore cannot pass through the glomerular basement membrane