B5-093 Toxicology

Question 1

most common cause of acute liver failure in the Western world

Answer 1

acetaminophen

Question 2

causes hepatic necrosis secondary to cascade of signaling events, resulting in mitochondrial injury and cell death

Answer 2

acetaminophen

Question 3

standard of care for acetaminophen overdose

Answer 3

NAC within 8-12 hours of exposure

dose based on nomogram, shows acetaminophen plasma levels

Question 4

• causes tinnitus, dizziness
• eventually causes metabolic acidosis, hyperpyrexia
• can cause coma, convulsions, respiratory failure

Answer 4

salicylate

Question 5

treatment for salicylate overdose

Answer 5

sodium bicarbonate to alkalize urine to promote excretion, counteracts acidosis

Question 6

cause tachycardia, hypertension, seizures, mydriasis

Answer 6

sympathomimetics

cocaine, amephetamines

Question 7

cocaine and amphetamines fall under what classification?

Answer 7

sympathomimetics

Question 8

treatment for sympathomimetics overdose

Answer 8

maintain airway and respiration
* control convulsions: IV diazepam
* if convulsions interfere with respiration: succinylcholine
* vasopressors
* if orally ingested, charcoal emesis to remove

Question 9

what are contraindicated in the treatment of sympathomimetics overdose?

Answer 9

beta blockers

worsen toxicity

Question 10

cause unconsciousness, miosis, slow/shallow respirations

Answer 10

opioids

opioid triad

Question 11

morphine, fentanyl, tramedol fall under what classification?

Answer 11

opioids

Question 12

treatment for opioid overdose

Answer 12

naloxone

short DOA, give repeat doses

Question 13

• have anti-cholinergic effects
• cause cardiovascular toxicity
• blockade of myocardial fast sodium channels causes QT prolongation, hypotensions
• seizures

Answer 13

tricyclic antidepressants (amitryptiline)

Question 14

anticholinergic effects

Answer 14

dry mouth
tachycardia
nausea
confusion
urine retention

Question 15

treatment for tricyclic anti-depressant overdose

Answer 15

sodium bicarbonate to maintain arterial pH, reversing cardiac depressant effects

Question 16

what class of drugs in contraindicated in the treatment of tricyclic antidepressant overdose?

Answer 16

class IA anti-arrthymics

quinidine, procainamide, lidocaine, etc

Question 17

• cause first degree heart block, hypotension, and bradycardia
• increased PR intervals
• hypoglycemia and hyperkalemia
• CNS toxicity

Answer 17

beta blockers

Question 18

treatment for beta blocker overdose

Answer 18

• glucagon for bradycardia/hypotension
• sodium bicarb for conduction defects

Question 19

causes torsade de pointes polymorphous V tach w/ QT prolongation

Answer 19

sotalol overdose

Question 20

treatment for sotalol overdose

Answer 20

• isoproternol IV
• magnesium

Question 21

cause AMS, fever, agitation, myclonus, hyperreflexia, ataxia, diaphoresis

Answer 21

serotonin syndrome

Question 22

drugs that can cause serotonin syndrome

5

Answer 22

SSRIs
MAOIs
TCAs
Amphetamines
Opioids

usually SSRI + one of the others

Question 23

treatment for serotonin syndrome

Answer 23

• serotonin antagonists (cyproheptadine, propranolol)
• dantrolene

Question 24

organophosphates are […]

reversible/irreversible

Answer 24

irreversible

Question 25

carbamates are […]

reversible/irreversible

Answer 25

reversible

Question 26

parathion (paraoxon)
malathion (malaoxon)
sarin
soman

belong to what classification?

Answer 26

organophosphates

cholinesterase-inhibiting insecticides

Question 27

carbaryl
aldicarb
carbofuran
aminocarb

belong to what classification?

Answer 27

carbamates

cholinesterase-inhibiting insecticides

Question 28

cause salivation, lacrimation, urination, defecation

Answer 28

cholinesterase-inhibiting insecticides

SLUD

Question 29

cholinesterase-inhibiting insecticides overdose treatment

Answer 29

• atropine - blocks cholinergic effects
• 2-pralidoxime (2-PAM) - reactivates ACHase enzyme

2-PAM for organophosphates only

Question 30

2-PAM is contraindicated for […] toxicity

Answer 30

carbamate

Question 31

chemicals affecting heme

Answer 31

• methemoglobin inducing agents (nitrates)
• carbon monoxide
• cyanide

Question 32

• causes hypertension, hypoxia, and cyanosis
• chocolate colored blood

Answer 32

nitrate induced methemoglobin

Question 33

treatment for nitrate induced methemoglobin

Answer 33

methylene blue

will convert methemoglobin back to hemoglobin

Question 34

odorless and colorless gas that is a major cause of lethal poisoning in US

Answer 34

carbon monoxide

Question 35

carboxyhemoglobin cannot transport

Answer 35

oxygen

Question 36

• causes headaches, dizziness, stupor, progressive brain anoxia
• bright red mucous membranes

Answer 36

carbon monoxide

carboxyhemoglobin is cherry red

Question 37

treatment for carbon monoxide poisoning

Answer 37

oxygen

Question 38

complexes with ferric iron of cytochrome oxidase inhibiting oxygen use in mitochondria

Answer 38

cyanide

Question 39

causes dizziness, headache, hypotension, unconciousness, respiratory failure

Answer 39

cyanide

Question 40

treatment for cyanide poisoning

Answer 40

• induce methemoglobin via nitrates (high affinity for cyanide ions)
• hydroxocobalamin: binds to cyanide ions to excrete in urine

Question 41

metals causing toxicity

5

Answer 41

• arsenic
• lead
• mercury
• cadmium
• manganese

Question 42

causes hemolysis, hemoglobinurea, GI disturbances, ventricular arrhythmias, vasodilation, rosy complexion

Answer 42

acute arsenic poisoining

Question 43

causes nephritis, dermatitis, cancer of bladder/liver

Answer 43

chronic arsenic toxicity

Question 44

binds to sulfahydryls, especially in lipoic acid, interfering with energy production

Answer 44

arsenic

Question 45

preferred chelator for acute arsenic poisoning

Answer 45

dimercaprol

Question 46

preferred chelator for chronic arsenic poisoning

Answer 46

succimer

Question 47

most exposure comes from smoke, smog, or old paint

Answer 47

lead

Question 48

causes kidney damage and GI irritation

Answer 48

acute lead poisoning

Question 49

causes plumbism, microcytic anemia, constipation, abdominal pain, neurological damage

Answer 49

chronic lead poisoning

Question 50

causes developmental deficits, low IQ, growth retardation, irritability in children

Answer 50

lead poisoning

Question 51

causes hypertension, cholic, anemia in adults

Answer 51

lead poisoning

Question 52

treatment for lead poisoning

Answer 52

chelation therapy:
* CaNa2EDTA
* BAL
* penicillamine (oral)
* succimer (oral)

Question 53

kids should be treated for lead poisoning at what blood lead level?

Answer 53

greater than 5 ug/dl

Question 54

therapeutic index

Answer 54

TD50/ED50

Question 55

margin of safety

Answer 55

TD1/E99

Question 56

lower doses have protective effect, higher doses have adverse effects

Answer 56

hormesis

vitamins, alcohol

Question 57

dose related toxicity due to non-immune mechanism

Answer 57

toxicity

Question 58

allergic reactions involving immune system

Answer 58

hypersensitivtty

Question 59

abnormal responses not linked to immune system

Answer 59

idiosyncrasies

Question 60

dose related adverse effects of drugs, which is generally an overextension of the pharmacological response

Answer 60

drug toxicity

can causes minor adverse effects or severe organ directed toxicities

Question 61

adverse effect of atropine

Answer 61

dry mouth

Question 62

adverse effect diazepam

Answer 62

drowsiness

Question 63

aspirin overdose causes […] toxicity

organ directed

Answer 63

gastrointestinal

Question 64

acetaminophen causes […] toxicity

organ directed

Answer 64

hepato

Question 65

doxorubicin causes […] toxicity

organ directed

Answer 65

cardiac

Question 66

drugs that cause direct fetal toxicity

3

Answer 66

• sulfonamide - kernicterus
• chloramphenicol- Gray baby syndrome
• tetracycline- teeth discoloration, bone growth retardation

Question 67

• physical defects in developing fetus due to drug exposure in mother during gestation
• effects more pronounced during organogenesis (day 20-end of first trimester)

Answer 67

teratogenicity

Question 68

teratogens

4

Answer 68

• thalidomide
• alcohol
• lithium
• antifolates

Question 69

abnormal response resulting from previous sensitizing exposure activating immonologic mechanism

Answer 69

drug allergy/hypersensitivity

Question 70

untoward reactions to drugs that occur in a small fraction of patient and have no obvious relationship to dose or duration of therapy

Answer 70

idosyncrasies

Question 71

hemolytic anemia in reponse to […] is due to differences in G6PD activity

drug name

Answer 71

primaquin

example of idiosyncracies

Question 72

most drug idiosyncrasies are due to

Answer 72

genetic variation within SNPs

Question 73

patients with abnormal serum cholinesterase develop sleep apnea when given normal doses of

Answer 73

succinylcholine

example of idiosyncracy

Question 74

what is the major challenge of treating drug toxicity?

Answer 74

no credible info

stabilize patient first, then try to figure out toxin

Question 75

ABCDts of EM

Answer 75

airway
breathing
circulation
drugs
temperature

Question 76

constellation of clinical symptoms that are associated with exposure to certain toxicological classes of chemicals

Answer 76

toxidrome

Question 77

identify the toxidrome

• increased BP
• increased pulse
• slight temperature increase
• mydriasis
• hyperalert
• increased reflexes

Answer 77

sympathomimetic

amphetamine, methamphetamine, pseudoephedrine

Question 78

identify the toxidrome

• increased pulse
• increased temperature
• mydriasis
• decreased bowel sounds
• altered mental status

Answer 78

anticholinergic

Question 79

identify the toxidrome

• decreased pulse
• miosis
• increased bronchial sounds
• increased bowel sounds
• altered mental status

Answer 79

cholinergic

Question 80

identify the toxidrome

• decreased BP
• decreased pulse rate
• decreased temperature
• miosis
• rales
• decreased bowel sounds
• decreased level on consciousness

Answer 80

opioid

fentanyl, oxycodone, hydrocodone

Question 81

hypertension and tachycardia

Answer 81

amphetamine

Question 82

hypotension and tachycardia

Answer 82

TCAs

Question 83

hypotension and bradycardia

Answer 83

beta blockers

Question 84

rapid respiration

Answer 84

carbon monoxide

Question 85

hyperthermia

2

Answer 85

anticholinergics, salicylates

Question 86

hypothermia

2

Answer 86

ethanol, sedatives

Question 87

pupil constriction (miosis)

Answer 87

opioid

Question 88

pupil dilation (mydriasis)

Answer 88

amphetamines

Question 89

dry skin

Answer 89

atropine

Question 90

excessive sweating

Answer 90

organophosphates

Question 91

cyanosis

Answer 91

methemoglobin (nitrates)

Question 92

jaundice

Answer 92

hepatotoxicity, acetaminophen

Question 93

twitching

Answer 93

cocaine

Question 94

muscle rigidity

Answer 94

anti psychotics

Question 95

flaccid coma

Answer 95

opioids

Question 96

hypertension, tachycardia, mydriasis, seizure

Answer 96

amphetamines

Question 97

anion gap equation

Answer 97

Na-(HCO3+Cl)

Question 98

AT MUD PILES

Answer 98

Alcohol
Toluene
Methanol
Uremia
DKA
Paraldehyde
Iron, Isoniazid
Lactic Acid
Ethylene Glycol
Salicylates

Question 99

high anion gap indicates

Answer 99

metabolic acidosis

Question 100

osmolar gap calculation

Answer 100

Question 101

normal osmolar gap

Answer 101

285

Question 102

normal anion gap

Answer 102

12

Question 103

MAE DIE

Answer 103

Methanol
Acetone
Ethanol
Diuretics
Isopropanol
Ethylene gylcol

Question 104

drugs that cause Torsades de Pointes

2 main ones

Answer 104

• Quinidine (Class IA and III antiarrhythmics)
• TCA

Question 105

prolonged QT is caused by

Answer 105

beta-1 stimulation and intense sympathetic activation

Question 106

treatment for torsades de pointes

Answer 106

magnesium sulfates

Question 107

removal and elimination treatments for toxicity

Answer 107

• gastric lavage with activated charcoal
• emesis via ipecac syrup

only used if injested orally, can cause aspiration

Question 108

methods for preventation of further toxicity absorption

Answer 108

inhalation: ventilation
topical: remove contaminated clothes
injestion: lavage, emesis, irrigation, etc

Question 109

methods to remove blood from plasma

Answer 109

• hemodialysis
• hemoperfusion
• hemofiltration
• plasma exchange

Question 110

fomepizole is an antidote for

Answer 110

ethylene glycol

Question 111

hydroxicocobolamine is an antidote for

Answer 111

cyanide

Question 112

atropine is an antidote for

2

Answer 112

organophophates
nerve gas agents

Question 113

fab fragments are antidotes for

Answer 113

digoxin

Question 114

dimercaprol is a chelator for

4

Answer 114

• arsenic
• gold
• mercury
• acute lead

Question 115

calcium disodium EDTA is a chelator for

Answer 115

lead

Question 116

penicillamine is a chelator for

2

Answer 116

lead
copper

Question 117

succimer is an oral chelator for

Answer 117

lead

Question 118

used to determine adverse effects on large populations

Answer 118

quantal dose response

Question 119

used to determine dose dependent increase in toxicity to a number of doses

2

Answer 119

graded and individual dose response

Question 120

used to demonstrate that chemicals have adverse effects when they are both deficienct in the body and present in very high quantities

vitamins

Answer 120

quantal dose response

Question 121

formula to calculate margin of safety

Answer 121

TD01/ED99

Question 122

• decreased blood pressure, pulse and temperature
• pupil constriction

Answer 122

opioids

Question 123

• agitated delirium
• confusion, restlessness, picking at imaginary objects

Answer 123

anticholinergics

Question 124

• tachycardia
• hypertension
• hypertherma
• tachypnea
• mydrasis
• diaphoresis
• tremor
• hyperactive bowel
• rhabdo
• seizures
• psyhchoses

Answer 124

sympathomimetics

Question 125

• salivation
• lacrimation
• urination
• defecation

Answer 125

cholinergic

Question 126

distinguishing feature of TCA overdose

Answer 126

torsades de pointes

Question 127

administration of sodium bicarb is based on what treatment principle

Answer 127

ion trapping

Question 128

used to treat lead, mercury, iron, and arsenic poisoning

Answer 128

chelation therapy

Question 129

used to alkalinize urine to inhibit reabsorption of weakly acidic toxins across renal tubular membrane

Answer 129

ion trapping with bicarb

Question 130

acetaminophen OD is treated with

Answer 130

N acetyl cysteine

Question 131

TCA OD is treated with

Answer 131

sodium bicarb

Question 132

treatment for beta blocker OD

Answer 132

glucagon
atropine
epi
calcium salts

Question 133

treatment for lead poisoning

Answer 133

chelation