Exam 1

Question 1

What are prodrugs?

Answer 1

• inactive
• need to be biotransformed into active form

Question 2

Half lives to reach steady state?

Answer 2

5

Question 3

Goal of fixed dosing

Answer 3

o Designed to generate plasma drug conc. w/in therapeutic range

Question 4

Factors that vary individually & how they affect drug’s therapeutic effect

Answer 4

o Physiology
o Pathoglogy
o Pharmacologic effects (drug interactions etc)

Above effects on PK are unpredictable

Question 5

Drug & Disease Criteria for using Trial and error approach to dosing

Answer 5

Drugs
• Gas inhalants
• Ultrashort thiobarbituate anesthetics
• Rapid anticonvulsants
• Lidocaine in treatment of arrhythmias
• Drugs w/ large therapeutic window

Diseases
• Illnesses that are not serious

Question 6

Types of Drugs to Use TDM

Answer 6

o Drugs that cause serious toxicity
o Steep dose response curve
o Poorly defined clinical end point
o Narrow therapeutic range
o Nonlinear pharmacokinetics
o combo drugs that may interact
o Very specific target therapeutic range

Question 7

Criteria for Using TDM

Answer 7

o Response to drug must match plasma conc.
o Must measure compound or metabolite or both depending on which produces therapeutic effect
o Drug must be measurable
o Assay available to detect drug rapidly & accurately

Question 8

When to Measure the Peak Vs the Trough

Answer 8

Peak
• short half-life drug
• If toxicity is concern

Trough
• short half-life drug
• If efficacy is concern

Either
• If drug has a long half life

Question 9

Factors that may influence the incidence and significance of DDIs

Answer 9

o Relative doses of the interacting drugs
o Type of drug and condition being treated
o Dosage forms and routes of administration
o Duration of treatment

o Order of drug administration
o Multiple drug therapy
o Individual patient factors (liver/kidney dz)

Question 10

Drugs w/ Low Therapeutic Index

Answer 10

o Beta-blockers
o Anesthetics
o Phenytoin
o Theophylline
o Digoxin
o Cyclosporine
o Phenobarbital
o Warfarin

Question 11

Drug Drug Interactions Interfering w/ Absorption

Answer 11

Change in GI pH
• drug that makes pH basic when other drug needs acidic environment

Drug binding in GI tract
• Two drugs bind in GI tract and can’t be absorbed

Change in GI motility
• One drug changes motility -> decreases absorption of drug 2

Malabsorption

Question 12

Drug Drug Interactions Interfering w/ Distribution

Answer 12

o Drug 1 displaces drug 2 from binding site
o Drug 1 can induce transporter of drug

Question 13

Drug Drug Interactions Interfering w/ Elimination-Metabolism

Answer 13

Induction of Metabolism
• Drug 1 induces hepatic microsomal enzymes (cytochrome P450 enzymes, CYPs) ->
• Drug 2 metabolized by the induced CYP isoform may have reduced efficacy/duration
OR
• Induction of metabolism could increase drug effect
• Occurs after 2-3wks
• After removal of drug 1, returns to normal after 2-3wks

Inhibition of Metabolism
• Can increase drug effect OR decrease
• Can happen directly after 1st dose

Question 14

Reporting Adverse Drug Reactions to FDA

Answer 14

o Adverse or non-efficacious
o Should be reported even if drug was used off-label

Question 15

Drugs Prohibited in Food Animals

Answer 15

o Chloramphenicol
o Clenbuterol
o Diethylstilbestrol (DES)
o Dimetridazole, ipronidazole and other nitroimidazoles
o Furazolidone and nitrofurazone (except for approved topical use)
o Extralabel use of fluoroquinolones
o Glycopeptides

Question 16

Drugs Prohibited Specifically In Dairy Cows

Answer 16

Sulfonamide drugs EXCEPT
• Sulfadimethoxine
• Sulfabromomethazine
• Sulfaethoxypyridazine

Phenylbutazone in 20mo or older

Question 17

Special Considerations for Using Cephalosporins in Food Animals

Answer 17

Prohibited in cattle, swine, chickens, turkeys for:
• disease prevention (ok for treating dz)
• At unapproved doses, frequencies, durations, or routes of administration

• If the drug is not approved for that species and production class

Question 18

Special Considerations for Using Adamantane and Neuraminidase inhibitors in Food Animals

Answer 18

o approved for treating or preventing influenza A.

o prohibited from extra‐label uses in chickens, turkeys, and ducks

Question 19

Extra label use in food animals

Answer 19

o allowed if vet can establish extended withdrawal time to insure that the edible tissues are safe for human consumption
o Use FARAD for withdrawal time info
o Must: diagnose condition, maintain animals ID, establish extended withdrawal, ensure no illegal drug residues

Question 20

Prescribing Human Drugs to food animals

Answer 20

can’t prescribe an approved human drug if there’s a drug approved for food‐producing animals
o Ex: if a drug approved for chickens is available, you must first use that drug to treat a sick cow before reaching for a drug approved for people
o Exceptions: animal drug does not contain active ingredient needed, required dosage, required conc., or is clinically ineffective

Question 21

Extralabel Drug Use in companion animals

Answer 21

o In companion animals, you can prescribe an approved human drug for an extra‐label use even if an approved animal drug is available
o must keep records for 2 years or time required by federal or state law, whichever is longer

Question 22

Scheduled Drugs

Answer 22

Schedule I
o No accepted medical use in US

Schedule II/IIN
o High potential for abuse
o Sever psychological or physiological dependency

Schedule III/IIIN
o Abuse less likely
o Moderate physical dependency
o High psychological dependency

Schedule IV
o Low potential for abuse

Question 23

Most Important Functions of Kidney

Answer 23

o Regulation of water & electrolytes
o Excretion of metabolic waste
o Regulation of arterial pressure
o Acid-base balance
o Regulation of 1,25 cholecalciferol
o EPO production
o Glucose synthesis

Question 24

Function of Glomerulus, Proximal Tubule, Loop of Henle, Distal Tubule

Answer 24

Glomerular Function
o GFR affects drug clearance
o Prevents protein loss into urine

Proximal Tubule Function
o Resorption of water
o Loss of solutes

Loop of Henle Function
o Dilutes urine
o Develops medullary conc. gradient

Distal Tubule
o Dilutes urine
o Resorps Na
o ALD
o Bicarb formation

Question 25

Carbonic Anhydrase Inhibitor, Drug, area, MOA

Answer 25

o Acetazolamide
o Works on proximal tubules

Mechanism
• Decreases H+

• Decreased Na absorption via the Na+/H+ antiporter
• K+ wasting and increased HCO3‐ secretion -> alkaline diuresis

Question 26

Carbonic Anhydrase Inhibitor, Indications & Toxicity

Answer 26

Indications
• Metabolic alkalosis
• Glaucoma
• Hyperkalemic periodic paralysis (equine)

Toxicity
• Allergen to those allergic to sulfonamide
• Causes metabolic acidosis
• Cause electrolyte disturbance

Question 27

Osmotic Diuretics; Drug, area, MOA

Answer 27

o Mannitol
o Mainly proximal tubule

Mechanism
• Expands extracellular fluid volume
• Inhibit water & Na+ reabsorption in medullary collecting ducts
• Increase inner medullary blood flow

Question 28

Osmotic Diuretics; Indications & Toxicity

Answer 28

Indications
• Relieve intratubular obstruction
• Increase GFR, renal blood flow, urine production
• Glaucoma

Toxicity
_ Acute
• Rapid volume expansion ->
• increased blood pressure and hyponatremia ->
• may precipitate cardiac failure and pulmonary edema
_ Chronic
• Dehydration
• Electrolyte disturbance

Question 29

Loop Diuretics; Drug, area, MOA

Answer 29

• Furosemide
• Loop of Henle

Mechanism
• Inhibit Na/K/Cl symporter
• Increase prostaglandin release -> increase renal blood flow
• Inhibits Ca & Mg reabsorption
• Increases K & H+ excretion
• Increases renin release
• Increases venous compliance
• Decrease R atrial P
• Decrease pulmonary artery P

Question 30

Loop Diuretics; Indications & Toxicity

Answer 30

Indications
• Most commonly used diuretic
• Treatment of edema due to cardiac, hepatic, or renal
• Increased urine output in renal failure
• Hypercalcemia
• Hyperkalemia
• Udder edema (cows)
• Exercise induced pulmonary hemorrhage (horses)

Toxicity
• Additive risk for nephrotoxicity w/ other nephrotoxic drugs
• Additive risk of ototoxicity
• Hypokalemia
• Dehydration

Question 31

Loop Diuretics; Transport, Drug Interactions, Contraindications

Answer 31

Transport
• Potent, rapid, short-lived
• Action limited by amount of Na
• Must be transported to loop by organic anion transporter

Drug Interactions
• Efficacy inhibited by NSAIDs

Contraindications
• Patients w/ anuria
• Preexisting electrolyte or H2O abnormalities
• Conditions that lead to electrolyte or H2O abnormalities
• Hypotension
• Hepatic encephalopathy

Question 32

Thiazide Diuretics; Drug, area, MOA

Answer 32

Drugs
o Chlorothiazide
o Hydrochlorothiazide

Sit of Action
o Early distal tubule

MOA
o WEAK diuretic
o Inhibits Na-Cl transporter
o Enhances excretion of Na, Cl, H2O, K. Mg, P, Iodide, Bromide
o Decreases Ca excretion (opposite of furosemide)

Question 33

Thiazide Diuretics; Indications, Toxicity

Answer 33

Indications
o Prevent calcium oxalate uroliths in dogs
o Decrease PU/PD in diabetes insipidus
o Used to enhance effects of diazoxide in treatment of insulinomas in dogs
o Hyperkalemic periodic paralysis in horses

Toxicity
o Dehydration
o Hypokalemia
o GI effects
o Alkalosis
o Sulfonamide hypersensitivity
o Exacerbate hyperglycemia

Question 34

Aldosterone Antagonists; Drug, area, MOA

Answer 34

Drugs
o Spironolactone

Site
o Distal tubules

MOA
o Inhibits ALD binding
o Increase excretion of Na, Cl, H2O
o Decrease excretion of K, ammonium, phosphate

Question 35

Aldosterone Antagonists; Indications, Toxicity

Answer 35

Indications
o w/ furosemide or ACE for CHF
o w/ loop or thiazide diuretics to decrease K waisting
o ascites

Toxicity
o Hyperkalemia
o Dehydration
o Metabolic acidosis
o Lead to digoxin tox

Question 36

K-Sparing Diuretics; Drug, area, MOA

Answer 36

Drugs
o Amiloride

Site
o Distal Tubules

MOA
o Block Na channels
o Less K excreted into lumen

Question 37

K-Sparing Diuretics; Indications, Toxicity

Answer 37

Indications
o Uncommon in vet med
o Combine w/ loop or thiazide to decrease K wasting
o Edema in hepatic encephalopathy

Toxicity
o hyperkalemia

Question 38

Renal Secondary Hyperparathyroidism Basics

Answer 38

• Less functional kidney (decreased GFR) 

• Phosphorus is not excreted 

• High phos causes low iCa 

• PTH release stimulated 

• Phos still high so keeps stimulating PTH release 

• Increased PTH causes increased Ca 

• Parathyroid hyperplasia develops
• treated w/ calcitrol

Question 39

Calcitrol; MOA, Toxicity, Form, Monitoring

Answer 39

MOA
• Replaces activated vit D
• Improves GI Ca absorption
• Inhibits PTH production

Toxicity
• Hypercalcemia
• Tissue mineralization
• Do not use if serum P >6

Form
• Large capsule

Monitoring
• Ca, P, & PTH

Question 40

Erythrocyte Stimulating Agents; Drugs, MOA, Indications, Toxicity, Form, Monitoring

Answer 40

Drugs
o Epoetin alfa
o Darbepoetin alfa

MOA
o Directly replace EPO to stimulate RBC production

Inidcations
o Clinical anemia

Toxicity
o Polycythemia
o Hypertension
o Autoantibody formation

Delivery Form & monitoring
o Injectable
o Should give w/ Fe supplement
o Monitor PCV

Question 41

Opiates Used for Anti-tussives

Answer 41

Morphine
• Poor bioavailability in dogs

Codeine
• less addictive
• Poor bioavailability in dogs

Hydrocodone
• similar to codeine

Butorphanol
• FDA approved
• most used
• poor oral bioavailability but oral dosing achieves therapeutic levels

Question 42

Opiates as Anti-tussives; MOA, Indications, Toxicity

Answer 42

MOA
• Directly depress cough center in the medulla via either mu or kappa opiate receptors

Indications
• Moderate to severe coughing that interferes with patient’s quality of life

Toxcicity
• Potential for abuse

• Sedation

• Constipation

• Respiratory depression (less of a problem with butorphanol)
• Excitation/dysphoria in cats and horses (except butorphanol)

Question 43

Dextromethorphan; Basics, MOA, Indications, Toxicity

Answer 43

o Anti-tussive
o Many OTC formulations should not be used in animals
o Poor oral bioavailability & short half-life in dogs

MOA
• Unknown
• dextromethorphan is an opiate derivative but does not stimulate opiate receptors

Indications
• Moderate to severe coughing that interferes with patient’s quality of life

Toxicity
• Vomiting and CNS toxicity at high doses (dogs and cats)

Question 44

Tramadol; Basics, MOA, Indications, Toxicity

Answer 44

o Non-opiate anti-tussive
o NOT a controlled substance

o Has greater oral bioavailability than true opiates

MOA
• Non-opiate that is a partial mu agonist, serotonin and alpha‐2 activity

Indications
• Moderate to severe coughing that interferes with patient’s quality of life.

Toxicity
• Sedation, nausea, vomiting
• Efficacy reduced w/ drugs that inhibit CYP 2D

Question 45

Uses & MOA for Bronchodilators

Answer 45

o reactive airway disease in cats (feline asthma)
o recurrent airway obstruction (heaves in horses)
o chronic obstructive airway disease and inflammatory airways disease (horses)
o allergic bronchitis in dogs

MOA
o inhibition of phosphodiesterase (PDE)

o Adenosine receptor antagonists

Question 46

Methylxanthines; Class, Indications, Toxicity, interactions

Answer 46

o Bronchodilators

Indications
• Feline asthma
• Canine allergic bronchitis
• Recurrent airway obstruction horses (heaves/COPD)
• Does not work in cattle

Toxicity
• CNS stimulation (limits use in horses)
• Tachycardia

• Nausea/vomiting

• mild diuresis

Drug-drug Interactions
• Fluroquinolones & cimetidine inhibit CYP 450 & cause methylxanthine toxicity
• Phenobarbital & rifampicin induce CYP and reduce methylxanthine conc.

Drugs
• Theophylline

Question 47

Beta 2 Adrenergic Agonists; MOA, Drugs, Toxicity

Answer 47

MOA
• increases intracellular cAMP and causes relaxation of smooth muscle
• increase mucociliary clearance
• short-acting used in emergencies
• long-acting used for chronic conditions

Drugs
• Terbutaline
• Metaproterenol
• Albuterol (short acting)
• Salmeterol (long acting; 12hrs)
• Clenbuterol (long acting 6-8hrs)

Toxicity
• Short-acting agents stimulate alpha & beta 1 & 2 -> tachycardia
• Beta-2 at high doses also stimulate Beta 1 -> cardiac toxicity
• Tolerance to beat agonists occurs
• Clenbuterol -> muscle tremors, sweating in horses
• Tocolytic effects (anti-contraction of uterus)
• Hypokalemia

Question 48

Anticholinergics; MOA, Indications, Toxicity, Drugs

Answer 48

MOA
• Inhibit muscarinic receptor type 3

Indications
• Short-term bronchodilation

Toxicity
• Tachycardia
• ileus, constipation, dry mouth
• decreased mucocilliary clearance
• CNS excitation leading to coma

Drugs
• Atropine - Crosses BBB
• Glycopyrrolate - IV does not cross BBB
• Ipratropium bromide - Aerosol not absorbed from drugs -> no systemic effects

Question 49

Cromolyn; Route, MOA, Indications

Answer 49

Route
• Inhalation/nebulization

MOA
• Inhibits mast cell degranulation by interfering with Ca transport across cell membrane.
• Has no bronchodilator effects

Indications
• Must be administered prior to exposure to allergen

Question 50

Corticosteroids; MOA, Indications, Toxicity, Drugs

Answer 50

MOA
• Produces lipocortin -> blocks PLA2
• Decrease inflammation
• Augment beta-2 bronchial smooth muscle relaxation
• Prevent downregulation of beta-2 adrenergic receptors

Indications
• Inhalation for feline asthma
• Allergic bronchitis
• Non-septic pulmonary dz
• Horses in resp distress

Toxicity
• Dogs – weight gain, Gi ulcers, secondary infections
• Cats – weight gain, hyperglycemia, secondary infections
• Horses – maybe laminitis

Drugs
• Prednisone(dogs) / prednisolone(cats/horses) – PO
• Methylprednisolone acetate – IM
• Dexmethasone – PO horses ONLY

Question 51

Expectorants; Indications, Drugs

Answer 51

Indications
• Increase output of bronchial secretions / decrease viscosity

Drugs
• Saline – vagally mediated reflex on gastric mucosa
• Guaifenesin – vagal stimulation on bronchial secretion

Question 52

Doxapram; MOA, Indications

Answer 52

MOA
• Stim resp center of brain
• Also might stim carotid & aortic chemoreceptors

Indications
• Use Stimulate respiratory center in emergency situations
• Anesthetic emergencies
• Overdoses‐opiates, benzodiazepines, macrocyclic lactones
• Neonates
• Laryngeal exam

Question 53

Acetylcysteine MOA

Answer 53

• Mucolytic effects
• Breaks disulfide bonds on mucoproteins

Question 54

Sildenafil & Tadalafil MOA

Answer 54

• Type V phosphodiesterase inhibitor ->
• nitric oxide production ->
• dilate vessels in lungs

Question 55

Use for Pseudoephedrine

Answer 55

decongestant