1 - Toxicokinetics

Question 1

What to consider in regards to absorption?

Answer 1

• Rate and extent
• Route of administration
• Transport mechanism (depends on characteristics of drug – MW, solubility, polarity, ionization, lipid solubility)

Question 2

Define xenobiotic

Answer 2

External to the body

Question 3

Xenobiotic characteristics that affect GI absorption

Answer 3

• Physicochemical properties of drug, dosage forms, dissolution profiles
• Pre-systemic elimination

Question 4

Pt characteristics that affect GI absorption

Answer 4

• GI motility (gastric emptying time, GI transit time)
• GI disease (achlorhydria, gastric ulcer, duodenal ulcer, Crohn’s disease)
• Malnutrition (GI transit time, mucosal atrophy, altered flora)
• Pregnancy

Question 5

How does GI motility affect GI absorption?

Answer 5

• If drug stays in stomach for longer time, absorption is delayed and decreased (most often) b/c most drugs absorbed in intestines
• If GI transit time increased (drug bases through intestine faster), absorption is increased b/c it reaches the intestines faster where it is absorbed

Question 6

Describe absorption changes in pregnancy

Answer 6

• Increased gastric emptying time (30-50%)
• Decreased intestinal motility
• Increased intestinal blood flow
• Increased gastric pH and buffer capacity
• *Tendency towards increased absorption, therefore pregnant women may be at increased risk for xenobiotic toxicity; however, factors such as increased cardiac output can increase renal perfusion and thus clearance of some xenobiotics

Question 7

Can we effectively alter GI absorption?

Answer 7

• Can decrease bioavailability
• • Gastric emptying (emesis, gastric lavage, increase in intestinal motility)
• • Administration of active charcoal (direct intervention on absorption process)

Question 8

What is distribution?

Answer 8

Reversible transfer from systemic circulation to peripheral tissue compartments

Question 9

Vd formula

Answer 9

Vd = F*dose / Co

Question 10

What does a large Vd mean?

Answer 10

• A large Vd indicates that the xenobiotic resides outside the plasma compartment; in overdose, it can be used to estimate a max plasma concentration when dose is known
• Drugs w/ large Vd would not be adequately removed by dialysis

Question 11

Which protein primarily binds acidic compounds?

Answer 11

Albumin

Question 12

Which protein primarily binds basic compounds?

Answer 12

Alpha 1-acid-glycoprotein

Question 13

Factors affecting distribution

Answer 13

• Membrane diffusion principles
• Affinity for plasma and tissue proteins
• Acid-base status of pt
• Physiological barriers
• Pt characteristics (obesity, age, pregnancy, disease)

Question 14

Effect of obesity on Vd and serum concentration for lipophilic and hydrophilic xenobiotics

Answer 14

• Lipophilic xenobiotics -> increased Vd, decreased serum levels, and may have decreased toxicity
• Hydrophilic xenobiotics -> decreased Vd, increased serum levels, and may have increased toxicity

Question 15

Significance of increase in body fat for Vd

Answer 15

Increase in Vd for lipophilic xenobiotics (ex: diazepam)

Question 16

Significance of decrease in total body water for Vd

Answer 16

Decrease in Vd for hydrophilic xenobiotics (ex: aminoglycosides)

Question 17

Significance of decrease in plasma albumin for Vd

Answer 17

Decrease in binding = increase in Fu = increase in toxicity (ex: phenytoin)

Question 18

How does hypoalbuminemia affect distribution in pregnancy?

Answer 18

Decrease binding of acidic drug (salicylic acid, sulfonamides, phenytoin)

Question 19

How does increased plasma volume affect distribution in pregnancy?

Answer 19

Increased Vd for many drugs (ex: increase dose for aminoglycosides)

Question 20

How does increased cardiac output affect distribution in pregnancy?

Answer 20

Increased renal perfusion and output = increased Cl for some drugs

Question 21

What remains unchanged during pregnancy w/ regards to distribution?

Answer 21

Hepatic blood flow

Question 22

Effect of renal disease on distribution

Answer 22

• Hypoalbuminemia w/ accumulation of endogenous substances that may compete for binding sites
• Decreased binding of acidic drugs
• • Ex: naproxen => increased Vd and t1/2
• • Ex: phenytoin fraction unbound increases 2-3-fold partly due to decreased binding sites (so doses must be adjusted)

Question 23

Can we effectively alter distribution?

Answer 23

• Manipulation of pH (salicylates)
• • If alter pH of urine to make more alkaline, can trap salicylates in urine to prevent re-absorption
• • If you can alter the pH of blood, can alter the distribution of salicylates in tissues
• Chelators (deferoxamine)
• Use of antibody fragments (digoxin)

Question 24

What is clearance and what is the formula?

Answer 24

• Clearance = unit of volume per unit of time
• Cl = Q * ER
• ER = (Cin - Cout) / Cin

Question 25

Factors affecting elimination

Answer 25

• Environmental/ social (smoking, alcohol, diet)
• Age
• Gender
• Disease
• Pregnancy
• Genetics

Question 26

Smoking effect on elimination

Answer 26

• Induction of CYP P450 isoenzymes
• • Ex: theophylline -> Cl increases and t1/2 decreases causing serum levels to fall => therapeutic failure
• • Second-hand smoke is sufficient to induce enzymes
• • NABQI formed from acetaminophen may exceed glutathione stores
• • Smoking + malnutrition + alcohol = increased acetaminophen toxicity

Question 27

Alcohol effect on elimination

Answer 27

• Acute effects = inhibition of oxidative metabolism immediately after ingestion
• Chronic effects = enzyme induction = “metabolic tolerance” (clearance of drugs such as warfarin, meprobamate, and phenytoin increases)
• Cirrhosis -> may decrease clearance; however, b/c of enzyme induction no changes may be seen until shunting occurs
• • Shunting: hepatic damage leads to obstruction of normal blood flow

Question 28

Age effect on elimination

Answer 28

• Influences hepatic function
• • Hepatic blood flow decreases 0.5-1.5% per year after age 25
• • Effect on drug metabolism is unclear; however, metabolism of high extraction drugs has been shown to decrease (ex: propranolol) => increased risk for poisoning
• Renal blood flow and function also decrease w/ age, as does CrCl, and dose/dosing interval of renally cleared drugs must be adjusted

Question 29

Describe the effect of pregnancy on elimination

Answer 29

• Increased estrogen/ progesterone levels may exaggerate sex differences
• Estrogen -> inhibits oxidative metabolism and has cholestatic effects (risk for cholecystitis in pregnancy => impaired hepatic elimination of biliary excreted drugs)
• Progesterone -> induces microsomal enzymes and may increase clearance of some drugs
• Renal blood flow increased => increased renal clearance
• Caffeine, diazepam, and metoprolol metabolism may be decreased
• • Metoprolol may have an increase in half-life
• Note: adjustments made on an individual basis

Question 30

Can we effectively alter metabolism?

Answer 30

• Induction of metabolism
• • Increase metabolic elimination of a poison (ex: rifampin = inducer of P450)
• Inhibition of metabolism
• • Decrease production of a toxic metabolite (ex: cimetidine = inhibitor of P450)

Question 31

Describe the steps of renal excretion

Answer 31

• Glomerular filtration (non-saturable process)
• Tubular secretion (saturable)
• Passive tubular reabsorption (non-charged, lipid soluble compounds)

Question 32

Can we effectively alter excretion?

Answer 32

• Manipulation of pH (ion trapping; ex: salicylates)
• Chelators (deferoxamine)
• Multiple-dose activated charcoal
• • In the gut, activated charcoal almost works like dialysis b/c it causes the drug to be reabsorbed into the gut & then eliminated
• Extracorporeal devices

Question 33

Describe excretion in breast milk

Answer 33

• Toxic material may be passed from mother to infant
• Excretion occurs by simple diffusion
• pH 6.5, ion trap for basic compounds
• Differences in affinity to serum proteins vs. milk proteins affect excretion
• Drugs w/ longer t1/2 will have greater opportunity to be excreted in milk (ex: diazepam)
• *In general, not many drugs accumulate in breast milk & amount that transfers to breast milk is small

Question 34

What are toxidromes?

Answer 34

• Group of signs and sx associated w/ a particular agent or toxin
• Frequent repeated assessment needed
• Individual patient’s response (clinical manifestation) more variable
• “Classic” case doesn’t always occur
• Monitoring of vital signs important to identify patterns of changes after intervention