Gastrointestinal Medicines

Question 1

Name one medication to tx gallstones

Answer 1

Ursodiol (Actigall)

Question 2

How does urosiol protect cholangiocytes against cytotoxicity of hydrophobic bile acids?

Answer 2

1. modulation of the composition of mixed phospholipid-rich micelles
2. reduction of bile acid cytotoxicity
3. decrease concentration of bile acids in cholangiocytes

Question 3

How does ursodiol stimulate hepatobiliary secretion?

Answer 3

through Calcium and protein kinase C alpha dependent mechanisms or activation of p38 MAPK and extracellular signal related kinases, which results in insertion of transporter molecules (bile salt export pump (BSEP) or conjugate export pump (MRP3)

Question 4

How does ursodiol protect hepatocytes against bile acid-induced apoptosis?

Answer 4

it inhibits mitochondrial permeability transition (MMPT) and stimulates a survival pathway
aka stabilizes hepatocyte canalicular membranes

Question 5

What is ursodiol used for?

Answer 5

dissolution of gallstones and decreases hepatic cholesterol secretion

Question 6

What are the side effects of ursodiol?

Answer 6

diarrhea, abd pain, HA, dyspepsia, nausea, viral infections

Question 7

Name 2 drug interactions with ursodiol?

Answer 7

1. aluminum based antacids decrease the effect of ursodiol

2. estrogen and clofibrate negate ursodiol’s effects

Question 8

What are the functions of gastric acids in the body? (3 main)

Answer 8

1. protein digestion
2. absorption of B12, iron, and calcium
3. prevents some enteric infections

Question 9

What is the composition of TUMS?

Answer 9

calcium carbonate

Question 10

What is the chemical composition of Alka-seltzer?

Answer 10

sodium bicarbonate

Question 11

What is the chemical composition of maalox?

Answer 11

aluminum hydroxide

Question 12

The condition in which antacids should be used cautiously

Answer 12

renal insufficiency

Question 13

What does the aluminum in maalox cause?

Answer 13

constipation

Question 14

What does the magnesium in mylanta cause?

Answer 14

diarrhea (due to unabsorbed salts)

Question 15

What is the general MOA of antacids?

Answer 15

they are weak bases therefore they neutralize acids and raise the pH to greater than 3.5

Question 16

What is the end product of antacids? (2)

Answer 16

1. sodium and water
   or
2. salt and CO2 (sodium bicarbonate)

Question 17

What are major SE of antacids?

Answer 17

metabolic alkalosis, cardiac disease, fluid/electrolyte imbalances

Question 18

Drug interactions of antacids?

Answer 18

any - binds with other drugs so take 1-2 hours after taking other meds, also the decrease in gastric acids could cause inefficient absorption

Question 19

What is the result of blocking Histamine 2 receptors?

Answer 19

decreased stomach acid production

Question 20

What can the decrease of stomach acid cause?

Answer 20

increased bacterial growth in the stomach, leading to increased bacterial colonization in the lungs, and pneumonia in COPD pt

Question 21

SE of IV formulations of H2 receptor antagonists

Answer 21

confusion, mental changes

esp. if pre-existing renal or hepatic impairment

Question 22

Famotidine brand name

Answer 22

pepcid

Question 23

ranitidine brand name

Answer 23

zantac

Question 24

cimetidine brand name

Answer 24

tagamet

Question 25

what is the chemical composition of mylanta?

Answer 25

magnesium hydroxide

Question 26

common SE of antacids NOT containing AlOH or MgOH?

Answer 26

eructation

Question 27

what is eructation

Answer 27

bleching

Question 28

Considerations for chronic antacid use in renal compromised pt

Answer 28

monitor ALP, ALT, AST, serum creatinine, BUN

Question 29

What do parietal cells do?

Answer 29

produce gastric acid

Question 30

What stimulates parietal cells?

Answer 30

histamine, acetylcholine, and gastrin receptors

Question 31

What releases histamine, ach and gastrin?

Answer 31

antral G cells and enterochromaffin-like cells (ECL)

Question 32

Examples of H2 antagonists?

Answer 32

famotidine, ranitidine, nizatidine, cimetidine

Question 33

nizatidine brand name

Answer 33

axid

Question 34

endocrine effects associated with cimetidine?

Answer 34

increased prolactin, decreased metabolism of estradiol, and blockage of androgen receptors

Question 35

how does cimetidine block androgen receptors?

Answer 35

inhibits binding of DHT (dihydroxytestosterone)

Question 36

Adverse endocrine effects of cimetidine (2)

Answer 36

glactorrhea in women, gynecomastia in men

Question 37

cautions for H2 antagonists

Answer 37

pregnancy category B, monitor renal or hepatic dysfunction for mental status changes

Question 38

IV administration of H2 antagonists may cause ___ in renally or hepatic impaired pt

Answer 38

mental status changes, confusion, depression

Question 39

What enzymes could cimetidine affect?

Answer 39

cytochrome p450 enzymes

Question 40

drug interactions with cimetidine?

Answer 40

other drugs using the same p450 pathway - warfarin, phenytoin, theophylline, lidocaine

Question 41

examples of proton pump inhibitors

Answer 41

esomeprazole, omeprazole, lansoprazole, pantoprazole, rabeprazole

Question 42

brand name esomeprazole

Answer 42

nexium

Question 43

brand name lansoprazole

Answer 43

prevacid

Question 44

brand name omeprazole

Answer 44

prilosec

Question 45

brand name pantoprazole

Answer 45

protonix

Question 46

brand name rabeprazole

Answer 46

aciphex

Question 47

MOA proton pump inhibitors

Answer 47

directly inhibiting proton pumps, which plays a role in gastric acid production in the stomach

Question 48

adverse effects of OTC PPI? (3)

Answer 48

increase of stomach bacteria, abdominal discomfort, diarrhea

Question 49

adverse effect of high dose, chronic PPI? (3)

Answer 49

atrophic gastritis, osteoporosis related bone fx, magnesium deficiency

Question 50

cautions for PPI

Answer 50

pregnancy category B, liver impaired patients due to the increased half life and impaired metabolism of the drug

Question 51

Drug interactions with PPI’s

Answer 51

ketoconazole and atazanavir (decreases the bioavailability of these drugs, since they need a certain pH to work); cyp 2c19 and cyp3A4 metabolized drugs; taking PPI and warfarin inc risk of bleeding

Question 52

How are PPI’s metabolized?

Answer 52

cytochrome P450 pathways, CYP 2C19 and CYP2A4

Question 53

2 treatments for H. pylori

Answer 53

1. PPI plus clarithromycin and amoxicillin OR PPI plus metronidazole for 14 days
2. a PPI or H2 antagonist plus bismuth, metronidazole, and tetracycline (bismuth quadruple therapy) for 10-14 days

Question 54

what is an alternative treatment for H. pylori NOT including bismuth-based quadruple therapy?

Answer 54

a PPI plus amoxicillin for 5 days, followed by a PPI plus clarithromycin and tinidazole for another 5 days

Question 55

what is bismuth subsalicylate?

Answer 55

pepto bismol

Question 56

absolute contraindictions for pepto bismol?

Answer 56

never give to children, especially after flu and varicella shots. salicylate is a causative agent of Reye’s syndrome

Question 57

How are mucosal protectants different than antacids, H2 antagonists, or PPI’s?`

Answer 57

they do not affect gastric acid secretion, rather, shield gastric mucosa

Question 58

MOA of sucralfate

Answer 58

due to limited solubility, becomes thick and sticky in acid solutions. <3% of intact drug absorbed.
utilizes negative charges to adhere to gastric erosions (with positively charged proteins) to protect from further damage and promote healing

Question 59

MOA bismuth subsalicylate

Answer 59

coats stomach lesions and can bind to microbes to provide protection from gastric acids, for diarrhea can bind to and absorb toxins and inhibit intestinal prostaglandin and chloride secretion

Question 60

MOA misoprostol (cytotec)

Answer 60

activates prostaglandin E1 receptors on gastric parietal cells and inhibits gastric acid production via G protein coupled receptor-mediated inhibition of adenylate cyclase. this decreases intracellular cyclic adenosine monophosphate and proton pump activity.

Question 61

what combination of drugs is given to prevent GI erosions ?

Answer 61

NSAID and misoprostol, due to NSAID decreasing prostaglandin synthesis

Question 62

Adverse effects bismith subsalicylate? (3)

Answer 62

dark brown-black stools, constipation or salicylate toxicity with chronic use

Question 63

adverse effects misoprostol? (5)

Answer 63

abdominal discomfort with or without diarrhea, N/V, flatulence, dyspepsia

Question 64

Pregnancy risk categories for sucralfate, bismuth subsalicylate, and misoprostol?

Answer 64

B, C, X

Question 65

Drug interactions with sucralfate?

Answer 65

should not be given with any other drugs bc will bind to them and inhibit their absorption

Question 66

drug interactions with misoprostol?

Answer 66

none

Question 67

drug interactions with bismuth subsalicylate?

Answer 67

chemical reactions with tetracyclines and quinolone antibiotics, decreases antibiotic absorption; may increase hypoglycemic effects of insulins/DM meds, increase risk of bleeding in concurrent warfarin d/t synergistic effects of antiplatelets; decrease effectiveness of probenecid and sulfinpyrazone (for gout); avoid using with other salicylates like aspirin

Question 68

Drugs to stimulate GI motility are called?

Answer 68

Gastroprokinetic drugs

Question 69

How do gastroprokinetic drugs work?

Answer 69

increased frequency of small intestine contractions WITHOUT disrupting rhythm

Question 70

What conditions can be relieved by gastroprokinetic drugs? (11)

Answer 70

IBS, acid reflux disease, gastroparesis, gastritis, functional dyspepsia, abdominal discomfort, bloating, constipation, heartburn, nausea, vomiting

Question 71

2 types of gastroprokinetic drugs?

Answer 71

cholinergic mimetic agents, dopamine receptor antagonists

Question 72

specific MOA of cholinergic mimetic agents? (2)

Answer 72

1. antagonize M1 receptor (which usually inhibits ach release), therefore increasing ach production
2. inhibit acetylcholineesterase (less ach broken down)
3. MAY stimulate muscarinic M3 receptors on muscle cells and myenteric plexus synapses

Question 73

General MOA of gastroprokinetic drugs?

Answer 73

increasing availability of acetylcholine which increases GI peristalsis which increases pressure on lower esophageal sphincter (increases GI motility)

Question 74

Considerations for cholinergic mimetic agents?

Answer 74

never administer IV (fast absorption may lead to heart block or severe hypotension, d/t drug being in the wrong location) , never use if there is a mechanical obstruction of gastric or urinary tracts

Question 75

Example of a cholinergic mimetic agent?

Answer 75

bethanechol (urecholine)

Question 76

SE of cholinergic mimetic agents? (8)

Answer 76

abd discomfort, diarrhea, hypotension, reflex tachycardia, lacrimation, miosis, salivation, urinary urgency

Question 77

General MOA of dopamine receptor blockers

Answer 77

stimulates the GI tract without increasing gastric secretions

Question 78

example of D2 receptor blocker?

Answer 78

metoclopramide (reglan)

Question 79

Adverse effects of D2 receptor blockers? (10)

Answer 79

parkinsonian like symptoms, tardive dyskinesia, acute dystonia, drowsiness, confusion, elevated prolactin levels, galactorrhea, gynecomastia, impotence, menstrual disorders

Question 80

Drug interactions with D2 receptor blockers?

Answer 80

alcohol, tranquilizers, sleep meds, narcotics, use caution with hypertensive pt

Question 81

Types of drugs to control diarrhea? (3)

Answer 81

opioid agonists, bismuth compounds, octredotide

Question 82

opioid agonist monotherapy drug

Answer 82

loperamide (imodium)

Question 83

combination opioid agonists?

Answer 83

diphenoxylate plus atropine (lomotil) and difenoxin plus atropine (motofen)

Question 84

characteristics of loperamide (3 major)

Answer 84

does not cross blood brain barrier, no analgesic properties or potential for addiction, nonprescription

Question 85

characteristics of diphenoxylate (2 major)

Answer 85

prescription only, analgesic properties at higher/nonstandard doses

Question 86

general MOA of opioid agonists?

Answer 86

act directly on intestine to slow peristalsis, allow more fluid and electrolyte absorption in colon, anticholinergic properties of atropine contribute as well

Question 87

Considerations for opioid agonists?

Answer 87

acute tx of diarrhea d/t CNS depression, take with adequate fluids to prevent constipation and electrolyte imbalance, FIRST rule out c. diff

Question 88

SE Lomotil? (4)

Answer 88

dry mouth, abd pain, tachycardia, blurred vision (d/t atropine)

Question 89

Considerations for the patient for opioid agonist users?

Answer 89

if diarrhea continues, fever, abdominal pain or bloody stools occur, contact prescriber asap

Question 90

Drug interactions with opioid agonists?

Answer 90

additive sedation with CNS depressants or alcohol, hypertensive crisis when taken with MAOIs (because they both increase synaptic 5-HT which can be toxic)

Question 91

3 MOA of octreotide (sandostatin)

Answer 91

1. prevents secretion of hormones and transmitters like gastrin, serotonin, and other active peptides causing diarrhea
2. directly inhibits intestinal and pancreatic secretion and enhances absorption
3. slows GI motility

Question 92

Octreotide is usually used to tx diarrhea related to these 5 conditions

Answer 92

cancer, vagotomy, dumping syndrome, short bowel syndrome, AIDS

Question 93

Adverse effects of octreotide (4)

Answer 93

nausea, abdominal pain, flatulence, diarrhea

Question 94

adverse effects of chronic octreotide use (4)

Answer 94

acute cholecystitis, hyperglycemia, hypothyroidism, bradycardia

Question 95

Considerations for octreotide for impaired pancreatic secretion?

Answer 95

may cause steatorrhea, leading to fat soluble vitamin deficiency

Question 96

Types of stool according to Bristol Stool Chart (7)

Answer 96

1. separate hard lumps like nuts (hard to pass)
2. sausage shaped but lumpy
3. sausage but with surface cracks
4. sausage or snake, smooth and soft
5. soft blobs with clear cut edges (passed easily)
6. fluffy pieces with ragged edges (mushy stool)
7. watery, no solid pieces, entirely liquid

Question 97

Normal frequency of bowel movements?

Answer 97

once per week to 2-3 times per day

Question 98

Subcategories of laxatives (5)

Answer 98

bulk forming laxatives, stimulant laxatives, stool softeners/surfactants, osmotic laxatives, miscellaneous

Question 99

Considerations for prescribing laxatives

Answer 99

sufficient fluids must be consumed, take a thorough hx of laxative use d/t potential to cause fecal impaction, adequate fiber and fluid intake

Question 100

Examples of bulk forming laxatives?

Answer 100

calcium polycarbophil (fibercon), psyllium mucilloid (metamucil)

Question 101

MOA of bulk forming laxatives?

Answer 101

absorb water to form a bulky emollient gel that distends the colon to promote peristalsis

Question 102

Characteristics of bulk forming laxatives

Answer 102

indigestible, hydrophillic colloids, safest class, produce less abdominal cramping, but more flatulence or bloating

Question 103

Drug interactions of bulk forming laxatives?

Answer 103

may decrease absorption of warfarin, digoxin, nitrofurantoin, antibiotics, salicylates

Question 104

examples of stimulant laxatives

Answer 104

bisacodyl (dulcolax), castor oil (emulsoil)

Question 105

Pregnancy categories dulcolax and emulsoil?

Answer 105

C and X

Question 106

General MOA of stimulant laxatives?

Answer 106

activate bowel movement by irritating mucosa and enteric nervous system in the colon and altering intestinal electrolyte and fluid absorption

Question 107

Concern for stimulant laxatives?

Answer 107

more abdominal cramping and depletion of fluid and electrolytes, potential dependence and destruction of myenteric plexus MAY be safe for long term use

Question 108

drug interactions for stimulant laxatives?

Answer 108

do not give with milk or dairy, as this will dissolve enteric coating and cause dyspepsia, take on empty stomach for faster action and to avoid decreased absorption

Question 109

example of stool softener/surfactant?

Answer 109

docusate sodium (colase)

Question 110

general MOA of colase?

Answer 110

soften stool by absorbing water and lipids, take with 6-8 oz water

Question 111

Colase is commonly used in these (3) situations to prevent constipation?

Answer 111

recent surgery, traumatic injury, MI

Question 112

adverse effects of colase? (2)

Answer 112

abdominal cramping, diarrhea, caution with elderly d/t risk of nutritional deficits

Question 113

pregnancy category of colase?

Answer 113

C

Question 114

Drug interactions with Colase?

Answer 114

do not use in sodium restricted patients, do not give concurrent with mineral oil (increases systemic absorption of docusate), long term use may impair absorption of fat soluble vitamins ADEK (decreased contact time in GI tract)

Question 115

Examples of osmotic laxatives?

Answer 115

magnesium hydroxide (milk of magnesia), polyethylene glycol (miralax), sodium biphosphate (fleet phospho-soda)

Question 116

general MOA of osmotic laxatives?

Answer 116

attract water and create more fluid stools, cause a concentration gradient

Question 117

considerations for milk of magnesia?

Answer 117

very potent, so only use in fecal impaction where bowel obstruction has been ruled out

Question 118

Adverse effects of osmotic laxatives?

Answer 118

abdominal cramping, diarrhea

Question 119

Use osmotic laxatives with caution in these patients

Answer 119

elderly d/t dehydration and electrolyte imbalance, renal impairment d/t risk of hypermagnesemia (decreased ability of mg elimination)

Question 120

Drug interactions with osmotic laxatives?

Answer 120

Milk of magnesia may decrease absorption of histamine2 receptor antagonists, iron salts, phenytoin, digoxin and tetracyclines

Question 121

Collection of medications to control IBS? (5)

Answer 121

antidiarrheal, laxatives, anticholinergics, serotonin 5HT receptor antagonists/agonists, chloride channel activators

Question 122

What are anticholinergics used to treat in IBS?

Answer 122

reduce bowel motility, prevent painful cramping spasms

Question 123

Commonly used anticholinergic/antimuscarinics for IBS?

Answer 123

dicyclomine (bentyl) and hycosamine

Question 124

general MOA of anticholinergics in IBS?

Answer 124

bind to muscarinic receptors in GI mucosa, relaxing intestinal spasms, may inhibit intestinal gland secretion (reduce diarrhea)

Question 125

Anticholinergic effects (4 examples)

Answer 125

dry mouth, visual disturbance, urinary retention, constipation

Question 126

Examples of 5HT3 antagonists (5)

Answer 126

alosetron, ondansetron, graisetron, dolasetron, palonosetron

Question 127

Which 5HT antagonist was removed from market due to cardiovascular deaths?

Answer 127

tegaserod, is now used in emergency situations for short term treatment in women with IBS with predominant constipation

Question 128

What is the difference between alosetron and tegaserod?

Answer 128

alosetron is a highly potent and selective 5HT3 antagonist with a longer duration of effect (higher affinity and slower dissocation from receptors), tegaserod is a 5HT4 receptor partial agonist

Question 129

Considerations for alosetron

Answer 129

restricted to women with diarrhea-predominant IBS who have not responded to conventional therapies (due to ischemic colitis and constipation risks), be very aware of sx of lightheadedness and chest pain due to cardiovascular risks associated with this and tegaserod

Question 130

Adverse effects of tegaserod

Answer 130

angina, heart attack, stroke (pt must register with the manufacturer when they receive this medication)

Question 131

Strict duration of treatment for alosetron and tegaserod

Answer 131

4-6 weeks ONLY

Question 132

Example of a chloride-channel activator for IBS

Answer 132

lubiprostone

Question 133

Lubiprostone target

Answer 133

type 2 volume regulated chloride channel located in gastric parietal cells, small intestinal and colonic epithelia

Question 134

Restrictions for lubiprostone

Answer 134

used in women with constipation-predominant IBS

Question 135

Lubiprostone MOA

Answer 135

prostanoic acid derivative from a metabolite of prostaglandin E1, activates selective type 2 volume regulated Cl channel to accelerate small bowel and colon transit times to increase secretion of fluid and electrolytes

Question 136

Adverse effects of lubiprostone

Answer 136

diarrhea, nausea, DO NOT use for known or suspected bowel obstruction

Question 137

Drug interactions with lubiprostone

Answer 137

none

Question 138

What stimulates nausea and vomiting?

Answer 138

center of medulla stimulated when receives input from digestive tract, inner ear, or chemoreceptor trigger zone (in postrema)

Question 139

6 classes of antiemetics

Answer 139

1. 5HT3 receptor antagonists
2. corticosteroids
3. neurotonin 1 receptor antagonists
4. dopamine receptor antagonists
5. antihistamines/anticholinergics
6. cannabinoids

Question 140

Examples of 5HT3 receptor antagonists (4)

Answer 140

ondansetron (zofran), granisetron (kytril), dolasetron (anzemet), palonosetron (aloxi)

Question 141

What effect do cytotoxic drugs or radiation have on GI cells?

Answer 141

causes release of serotonin from enterochromaffin cells in the GI mucosa, which stimulates 5HT3 receptors on sensory nerve terminals peripherally, initiating emesis or cause sensory nervous system to initiate emesis

Question 142

5HT3 antagonists work on the receptors to create an antiemetic response through selective antagonism at ____?

Answer 142

peripheral 5HT3 receptors

Question 143

Mild SE of 5HT3 antagonists? (5)

Answer 143

mild HA, dizziness, constipation, diarrhea, transient elevation of hepatic aminotransferase levels (AST, ALT)

Question 144

drug interactions with 5HT3 antagonists?

Answer 144

none

Question 145

Examples of corticosteroids used to treat N/V (2)

Answer 145

dexamethasone (decadron), methyprednisolone (solu-medrol)

Question 146

Long term effects of corticosteroids? (5)

Answer 146

risk for DM2, hypertension, osteoporosis, hyperadrenalism, hypoadrenalism

Question 147

Cautions for corticosteroids

Answer 147

avoided or monitored in hyperglycemic or diabetic pt

Question 148

adverse events in dexamethasone specifically (7)

Answer 148

insomnia, indigestion, epigastric discomfort, agitation, increased appetite, weight gain, acne

Question 149

example of neurokinin-1 (NK1) receptor antagonist

Answer 149

aprepitant (emend)

Question 150

MOA of NK1 RA?

Answer 150

inhibits substance P, which is involved in the emesis reflex centrally and peripherally

Question 151

What is substance P?

Answer 151

a neuropeptide that acts as a NT by preferentially binding to NK1 receptor that is involved in the emesis reflex

Question 152

common SE of aprepitant (6)

Answer 152

fatigue, HA, anorexia, diarrhea, hiccups, mild transaminase elevation

Question 153

Drug interactions with NK1 RA

Answer 153

induces CYP3A4 and CYP 2C9, and dexamethasone is a substrate of CYP2C9, so decrease dexamethasone 50%; warfarin, phenytoin, itraconazole, terfenadine, oral contraceptives (synergistic effects on same CYP 450 subtype system)

Question 154

Categories of dopamin-receptor antagonists (3)

Answer 154

1. phenothiazine, butyrophenones, substituted benzamides

Question 155

examples of phenothiazines (3)

Answer 155

promethazine (phengergan), prochlorperazine (compazine), thiethylperazine

Question 156

examples of butyrophenones (1)

Answer 156

droperidol (inapsine)

Question 157

examples of substituted benzamides (2)

Answer 157

metoclopramide (reglan), trimethyobenzamide (tigan)

Question 158

General MOA of central dopamine antagonists

Answer 158

inhibits dopamine and muscarinic receptors, selective for D2 receptors

Question 159

Adverse effects of central dopamine antagonist long term use? (5)

Answer 159

sedation, extrapyramidal symptoms (restlessness, dystonias, parkinsonian symptoms)

Question 160

Additional adverse effects of droperidol (inapsine) (2)

Answer 160

hypotension, prolonged QT interval

Question 161

Pregancy class of the phenothiazines?

Answer 161

C

Question 162

Pregnancy class of metoclopramide

Answer 162

B

Question 163

Drug interactions with phenothiazines

Answer 163

synergistic with streptomycin, erythromycin, oleandomycin, spectinomycin, levofloxacin, azithromycin, amoxicillin-clavulanic acid

Question 164

Contraindications of metoclopramide

Answer 164

pt who take antipsychotics, HIGH LIKELIHOOD of tardive dyskinesia with long term use

Question 165

Drug given for motion sickness, and type of drug

Answer 165

scopolamine (hyoscine), anticholinergic

Question 166

Examples of H1 antihistamines

Answer 166

diphenhydramine (benadryl), dimenhydrinate (dramaine), meclizine (antivert)

Question 167

MOA for H1 antihistamines and anticholinergics for antiemesis?

Answer 167

inhibits H1 and muscarinic cholinergic M1 receptors

Question 168

Adverse effects of antihistamines and anticholinergics?

Answer 168

dizziness, sedation, dry mouth, confusion, cycloplegia, urinary retention

Question 169

Cannabinoids used as antiemetics

Answer 169

dronabinol (marinal), nabilone (cesamet)

Question 170

What is dronabinol (marinal) used to tx? (2)

Answer 170

appetite stimulant, antiemetic

Question 171

Hypothesized MOA of cannabinoids?

Answer 171

modulates 5HT3 receptor activation in nodose ganglion and substance P release in the spinal cord

Question 172

Effects of cannabinoids? (9)

Answer 172

euphoria, dysphoria, sedation, hallucinations, dry mouth, increased appetite, tachycardia, conjunctival injection, orthostatic hypotension

Question 173

What is IBD?

Answer 173

inflammatory bowel disease, combines ulcerative colitis and Crohn’s Disease

Question 174

IBD drugs that affect the immune system (6)

Answer 174

immunosupressants, purine analogs, methotextrate, monoclonal antibodies, antitumor necrosis factor agents, anti-integrin agents

Question 175

Categories of IBD drugs (3)

Answer 175

aminosalicylates, corticosteroids, immune system drugs

Question 176

Two subtypes of aminosalicylates

Answer 176

5-ASA/mesalamine and azo compounds

Question 177

Drugs with azo compounds (3)

Answer 177

sulfasalazine, balsalazide, olsalazine

Question 178

Drugs with 5-ASA formulations (6)

Answer 178

pentasa, asacol, apriso, lialda, rowasa, canasa

Question 179

Primary MOA of salicylates and NSAIDS

Answer 179

blockage of prostaglandin synthesis by inhibiting COX

Question 180

Potential MOA of salicylates in the GI tract (4)

Answer 180

1. modulation of inflammatory mediators derived by COX and lipoxygenase pathways
2. interference with the production of inflammatory cytokines
3. inhibitory effects on nuclear factor kB
4. other inhibitory effects on NK cells, mucosal lymphocytes, and macrophages

Question 181

SE of olsalazine (4)

Answer 181

secretory diarrhea, subtle renal tubular changes, rare interstitial nephritis, rare hypersensitivity reactions

Question 182

SE of sulfasalazine (15)

Answer 182

nausea, GI upset, HA, malaise, arthralgias, myalgias, bone marrow supression, hypersensitivity reactions causing fever, exfoliative dermatitis, pancreatitis, pneumonitis, hemolytic anemia, pericarditis, hepatitis

Question 183

Drug interactions with sulfasalazine

Answer 183

may interfere with folic acid absorption and processing, take 1mg/day folic acid

Question 184

examples of glucocorticoids used to treat IBD (4)

Answer 184

prednisone, prednisolone, topical hydrocortisone, budesonide

Question 185

MOA of glucocorticoids

Answer 185

inhibits production of inflammatory cytokines and chemokines like TNFalpha, interleukin 1 (IL-1) and interleukin 8 (IL-8)
reduction of expression of adhesion molecules, inhibition of gene transcription of nitric oxide synthesis, phospholipase A2, COX2, and NF-kB

Question 186

Examples of purine analogs

Answer 186

azathioprine, 6-mercaptopurine (6-MP)

Question 187

When are purine analogs used

Answer 187

when IBD patients are unresponsive to aminosalicylates or glucocorticoids, or who relapse when glucocorticoids are withdrawn

Question 188

Proposed MOA of purine analogs

Answer 188

metabolized to nucleotide 6-thioinosinic acid, thioguanylic acid, and 6-methylmercaptopurine ribotide. these are thought to inhibit purine ribonucleotide synthesis, which then impedes DNA synthesis and proliferation of fast growing cells (T and B lymphocytes)

Question 189

Dose dependent adverse effects of purine analogs

Answer 189

nausea, vomiting, bone marrow suppression, hepatic toxicity, hypersensitivity reactions with fever, rash, pancreatitis, diarrhea, hepatitis

Question 190

considerations for purine analogs

Answer 190

monitor CBC and hepatic function tests

Question 191

Drug interactions with purine analogs

Answer 191

allopurinal reduces xanthine oxide catabolism of purine analogs, increasing active 6-thioguanine nucleotides, increasing risk for leukopenia
allopurinol inhibits xanthine oxidase (which breaks down 6-MP)

Question 192

MOA of methotrexate

Answer 192

inhibits dihydrofolate reductase, which participates in tetrahydrofolate synthesis, and therefore inhibits production of purines and thymidines; may interfere with inflammatory actions of IL-1, simulate release of adenosine, and induce apoptosis of activated T-lymphocytes

Question 193

Adverse effects methotrexate

Answer 193

with lower dose, don’t see bone marrow suppression, megaloblastic anemia, alopecia, and mucositis, and low risk of hepatic damage.

Question 194

Interactions with methotrexate

Answer 194

caffeine (coffee, tea, soda, chocolate) (effectiveness is reduced), alcohol (liver dysfunction), NSAIDS can increase blood levels of methotrexate

Question 195

Anti-tumor necrosis factor drugs approved for IBD tx (3)

Answer 195

infliximab, adalimumab, certolizumab

Question 196

When are anti-TNF drugs used?

Answer 196

pt with IBD who have shown inadequate response to conventional treatment

Question 197

What is TNF?

Answer 197

important pro-inflammatory cytokine in the pathogenesis of IBD

Question 198

MOA of anti-TNF agents

Answer 198

bind to soluble and membrane bound TNF and prevents the binding of TNF to TNFr that are present on helper T cell type 1 and other innate immune/non-immune cells
-binding of anti-TNF to membrane bound TNF induces reverse signaling, suppressing cytokine release

Question 199

Adverse effects of anti-TNF agents

Answer 199

due to suppression of helper T cell type 1 (TH1), this immunosuppression may allow infections to flourish, like bacterial sepsis, TB, invasive fungal organisms, reactivation of Hep B, listeriosis, and opportunistic infections

Question 200

considerations for anti-TNF agents

Answer 200

test for TB before starting, administer prophylactic tx for positive TB, may increase the risk of lymphoma

Question 201

Why does anti-TNF cause drug resistance?

Answer 201

production of antibodies to TNF antibodies (ATA) or non-ATA mechanisms

Question 202

Reactions to drug resistance/TNF antibody development

Answer 202

acute or delayed infusion reactions = fever, HA, dizziness, urticaria, mild cardiopulmonary sx

Question 203

Delayed infusion reactions to anti-TNF agents

Answer 203

myalgia, jaw tightness, rash, edema

may occur 1-2 weeks after therapy is initiated

Question 204

Example of anti-integrin therapy

Answer 204

natalizumab

Question 205

What are integrins

Answer 205

integrins are adhesion molecules located on the surface of leukocytes, which interact with selectins on the surface of vascular endothelial cells. this allows circulating leukocytes to adhere to the vascular endothelium and move though blood vessel wall into the tissue

Question 206

MOA of natalizumab

Answer 206

humanized IgG4 monoclonal antibody targets the alpha-4 subunit of integrins and blocks the interaction of integrins with selectin, therefore preventing leukocyte migration into the surrounding tissue
= prevents IBD progression in chronic disease process

Question 207

Risk of natalizumab

Answer 207

induces progressive multifocal leukoencephalopathy due to the reactivation of a human polyomavirius in pt receiving concurrent immunomodulators
aka do not take with immunomodulators/immune suppressants

Question 208

pregnancy class of milk of magnesia?

Answer 208

B

Question 209

pregnancy class of miralax?

Answer 209

B

Question 210

pregnancy class of colase?

Answer 210

C

Question 211

pregnancy class of dulcolax

Answer 211

C