Valentovic: Poisoning & OD (2) - Leah :)

Question 1

Two goals when taking an H/P in the case of acute poisoning

What is the main cause of death imposed by most poisons?

Answer 1

FIND OUT:

• what toxins/ what dose?
• respiratory and cardio status

(MAIN CAUSE OF DEATH: cardio/ pulmonary failure– find out: do they need respiratory support/ ventilation?)

Question 2

Most common ages of poisoning in children?

Four main sources of toxicity in children?

Answer 2

• under 5, especially 1-2 year old toddlers

- iron in vitamins, OTC meds, cleaning substances, pesticides

Question 3

Most common sources of poisoning in adults?

Answer 3

#1 in US: carbon monoxide!!
Here.... opiates more common.

But also think of:
analgesics, illicit drugs, antidepressants, sedatives, anti-anxiety agents, alcohol, and usually a COMBINATION of these things in addicts.

Question 4

MOST COMMON thing you will need to do in the ER for poisoned patients in WV?

Answer 4

-Maintain respiratory status because:
opiates (i.e. oxycodone, fentanyl, heroin & combos) are very common here (cause respiratory depression)

-also probably: NALOXONE (although she didn’t mention this.)

Question 5

How do:
1. cocaine 
2. CO 
3. opiates 
effect the circulatory system?

Answer 5

• Cocaine: tachycardia –> clot –> MI
• CO: lowers O2 carrying ability of the blood –> hypoxia
• Opiates: cause low BP (and respiratory depression) = massive hypoxia

Question 6

When are rates of CO poisoning expected to be high?

Answer 6

winter time, kerosine heaters

**also common during massive power outages

Question 7

How is CO poisoning treated?

Answer 7

1. get them to fresh air if mild
2. get them to 100% O2 if moderate
3. get them to 100% O2 + hyperbaric O2 if severe

Question 8

Three ways to terminate exposure to a toxin:

Answer 8

1. remove source
2. enhance elimination
   (alkalinize urine to remove acidic toxin; emesis etc)
3. use antidote/ antagonist
   (i.e. naloxone. flumazinil)

Question 9

By what drug can emesis be induced?
How does it work? (2)
Most common toxin we use this for?

Answer 9

Syrup of Ipecac
1. stimulates CTZ + direct effect on stomach

**Very effective for many drugs but esp for paraquat (Pot!)

Question 10

Why is syrup of ipecac not widely available? (2)

Answer 10

1. abused by bulimics
2. parents gave their kids the whole bottle when they got really nervous about an ingestion.
   (1/2 bottle = ADULT dose)

Question 11

When shouldn’t syrup of ipecac/ removal of toxin by emesis be used? (5)

Answer 11

1. Ingestion of CORROSIVE agents
   (do not want to re-expose the esophagus)
   (drain cleaner, ammonia, electric dishwasher cleaner)
2. Loss of GAG reflex/ comatose patients
3. Sharp objects
4. Drugs assc with SEIZURES (strychnine, TCAs, GHB)
5. Ingestion of HYDROCARBONS (furniture polish)
   (risk aspiration pnuemonitis worse than systemic tox)

Question 12

How does activated charcoal remove toxins?

What kinds of toxins does it typically remove?

Answer 12

-charcoal absorbs drugs –> charcoal removed by lavage and rest in feces
(prevents absorption of toxin)

-common drugs (OTC), nicotine gum OD, malathion (insecticide), too much ipecac

Question 13

List four cases in which charcoal absorption should not be used to remove a toxin.

Answer 13

• corrosives
• acids/alkali (won’t bind)
• metals
• petroleum

Question 14

Naloxone:
MOA
When is it used?
How is it given?

Answer 14

-competitive reversible antagonist of the mu receptor
-reverses respiratory depression in opiate OD
(–codeines, morphine, heroin)
-IV, short t1/2, so usually multiple times

Question 15

Flumazenil:
MOA
Use?

Answer 15

• competitive reversible antagonist at BDZ receptor

- reverses respiratory depression in BDZ OD

Question 16

Atropine:
MOA?
Use?

Answer 16

-muscarinic antgonist –> reduces parasympathetic fx
-organophospate and carbamate insecticide poisoning
(should also use 2PAM for organophosphate)

Question 17

How is excretion of acidic drugs enhanced? (2)

Does similar methodology work to facilitate excretion of basic counterparts?

Answer 17

1. Administer sodium bicarb to alkalinize urine
   - Acidic drugs ionized at the tubular filtrate –> not reabsorbed into blood –> excreted as ions
2. Hemodialysis

**Cannot generally use acid to remove basic toxin.

Question 18

Petroleum distillates:

• age group usually poisoned
• common souce of toxin
• two “classic” sources for test?
• most detrimental effect

Answer 18

• kids 1-3 yoa
• kerosine stored in poor container (orange, looks like soda)
• ***gasoline v. mineral oil
• causes chemical pneumonitis if aspirated!!!

Question 19

Risk of aspiration in petroleum distillate toxicity is dependent on what three things?
Which is MOST important?

Answer 19

#1 VISCOSITY, volatility, and surface tension

LOW viscosity, LOW ST, HIGH volatility = ^^^ risk

Question 20

Example of a low viscosity pertroleum distillate?
High viscosity?

How is viscosity expressed?

Answer 20

• low viscosity: gasoline, ^^ aspiration risk
• high viscosity: mineral oil, low aspiration risk

SUS units: high number = unlikely to aspirate

Question 21

How does volatility of petroleum distillates determine their toxicity?
Which is more volatile: gasoline or mineral oil?

Answer 21

^^ volatility –> displaces O2 in lungs –> hypoxia

gasoline more volatile and more dangerous!

Question 22

How does surface tension effect the toxicity of petroleum distillates?
Which has lowest surface tension: gasoline or mineral oil?

Answer 22

• LOW ST = easy spread from mouth –> trachea –> lungs = chemical pneumonitis
• Gasoline has LOW surface tension = more dangerous!

Question 23

When do we see increased incidence of gasoline/ pertrolleum distillate toxicity in the US?

Answer 23

-when gas prices rise –> ^^ incidence of “siphoning” gasoline using mouth!

Question 24

What are the deleterious effects of “huffing” paint/ glue/ etc. ?
How common is this seen?
What is the classic sign that a kid has been huffing?

Answer 24

• cardiac arrest, hypoxia acutely
• permanent brain damage or cancer long term
• over 1 million US teens have tried at least once
• “huffers rash”– red ring around mouth

Question 25

Long term effects of inhaling toluene?
benzene?
anything during pregnancy?

Answer 25

Toluene: blindness, deafness (TOLtally deaf and blind)
Benzene: leukemia
Pregnancy: low birth weight, neural damage, fetal death

Question 26

Iron toxicity:
-what age group
-whats the toxic dose
(she says you do actually need to know this NUMBER)

Answer 26

-leading cause of fatal OD in kids
(vitamins are like candy)
-more than 20 mg/ Kg “elemental” iron

Question 27

What is the difference between ferrous sulfate/ gluconate and elemental iron?

Answer 27

-sulfate/ gluconate are not 100% elemental iron.
-only 30-50% of a ferrous sulfate/ gluconate formula is actual elemental iron
(takes more of these than elemental iron to induce toxicitiy)

Question 28

Iron Tox:

• first stage symptoms
• 6-24 hrs/ second stage symptoms
• 12-24 hr/ third stage symptoms
• 4th phase symptoms

Answer 28

• 1st stage: vomiting/ diarrhea
• 2nd stage: iron absorbed –> “apparent recovery”
• 3rd stage: organ failure
• 4th stage: pyloric obstruction

Question 29

Three methods for treating iron tox

Answer 29

-emesis
-lavage
-chelation w/ DEFEROXAMINE
(antidote given IV for systemic iron tox = UWORLD QUESTION!!!) de”FE”roxamine

Question 30

Acetaminophen:
target organs for damage (2)
what is the effect on each of these organs?

Answer 30

• liver (centrilobular necrosis)
• kidneys (proximal tubular necrosis)

..damage at each organ by a DIFFERENT metabolite and a DIFFERENT mechanism

Question 31

In what two ways is acetaminophen removed from the body? (major path vs. minor path)

Answer 31

1. MAJOR: conjugated (glucuronidated and sulfated) = no toxicity
2. metabolized by CYP450 in liver –> toxic metabolite NAPQI (a quinone)
   - Must be detoxified by reduced glutathione
   - ^^ Concentrations–> glutathione depleted–> NAPQI binds proteins –> centrilobular necrosis of the liver

Question 32

What is the acetaminophen antidote?
When does acetaminophen antidote need to be administered in cases of OD?
When do symptoms appear?
When does hepatic damage begin?

Answer 32

Antidote: N-acetylcysteine (precursor for glutathione synth)
–> ^ Glutathione

• administer antidote w/in 6-12 hours
• 24 hours minor symptoms (N/V)
• 24-48 hours hepatic damage*** (delayed hepatotoxicity)

Question 33

How is risk of liver damage post acetaminopen ingestion determined?

Answer 33

• Get blood level of acetaminophen (not NAPQI, to unstable)
• Get time of ingestion

Using time + level, can determine risk of liver damage using a chart called a “nomogram”.

Question 34

In what ways can acetaminophen toxicity be reversed? (3)

Answer 34

• emesis
• lavage with activated charcoal
• antidote: n-acetyl cysteine (oral or IV)

Question 35

How does n-acetyl cysteine work?

Problem with n-acetyl cysteine?

Answer 35

• provides cysteine for glutathione synthesis
• oral NAC smells like rotten eggs –> patient pukes up the antidote OR kids just wont take it.
• can use IV NAC in these cases but oral is more effected.

Question 36

What three amino acids make up glutathione?
What is the rate limiting step of glutathione synthesis?
Why cant IV glutathione be administered?

Answer 36

• Glut-Cys-Gly
• Addition of Cys to the peptide
• IV glutathione itself will not enter the cell.

Question 37

When can therapeutic levels of acetaminophen cause liver damage? Why? (3) **

Answer 37

***Consumed with ALCOHOL.
2 Alcoholic beverages + 1 normal acetaminophen dose = LIVER DAMAGE!!!!! BAD.

• Alcohol activates CYP2E1 –> increased NAPQI
• Alcohol decreases glutathione –> dont clear NAPQI
• Alcohol decreases NADPH/ ^^ NADH –>further decreases reduced glutathiones!

“Remember this, they ask it on step one”

Question 38

What is the major path for aspirin metabolism?

Answer 38

Always starts with aspirin –> salicylic acid

-minor path:
CYP450- salicylic acid –> gentistic acid

-major path:
conjugation with glucuronides or glycine

Question 39

Salicylates (aspirin/ methyl salicylates in sports cream):
Describe the kinetics with one dose vs many doses (i.e. arthritis, OD):

• what order?
• amount eliminated?
• enzyme saturation?
• t1/2?

Answer 39

-first order with one dose
(constant FRACTION of elimination, enzymes not saturated, 2-4 hr t1/2)

-zero order with ^^ doses; i.e. arthritis or OD
(saturated enzymes, constant AMOUNT of elimination, minor CYP 450 path takes over, 18-20 hr t1/2)

Question 40

Describe the findings in ASA OD:

5

Answer 40

• ox-phos uncoupling = ^^ CO2 and HIGH FEVER
• medullary stimulation = hyperventilation
• headache, TINNITUS, etc
• acid-base imbalance;

Question 41

Describe the acid-base disturbances assc with aspirin OD:

Answer 41

1. respiratory alkalosis (hyperventilation)
   2.respiratory acidosis (kids, caused by respirator inhibition)
2. metabolic acidosis w/ anion gap
   (uncoupling oxphos= ^^ ketones, lactic acid, pyruvic acid)

Question 42

How is aspirin toxicity excreted?
What can be administered to increase salicylate excretion? What is a common electrolyte imbalance associated with ASA toxicity?
What should we correct immediately?
(4 bullets total)

Answer 42

• emesis, lavage, or charcoal
• IV bicarb increases salicylate excretion
• correct fluid imbalance + electrolye imbalances (usually HYPOkalemia)
• correct fever

Question 43

To predict aspirin toxicity risk, a nomogram is used, as in acetaminophen tox.

What information is needed for this nomogram? (2)

Answer 43

• blood levels of salicylate (NOT aspirin)

- time since ingestion

Question 44

Isopropyl Alcohol

• How does it compare to ethanol in terms of inebriation?
• How is it metabolized?
• Key feature in toxicity?

Answer 44

• Greater CNS depressant and drying effect than ethanol
• converted by alcohol dehydrogenase + aldehyde dehydrogenase –> acetone
• smells like “fruit” just like in DKA because = ^^ ketones/ ketoacidosis

Question 45

Methanol:
Two Toxic metabolites?
What does each metabolite cause?

Answer 45

• converted to formaldehyde and then formic acid
• BLINDNESS** due to formic acid
• GI symptoms due to formaldehyde

Question 46

Ethylene Glycol:
(also causes inebriation)
 -found in what substance?
-What are the metabolites? (3) 
-What is the main toxicity?

Answer 46

• radiator fluid
• ethylene glycol –> glycoaldehyde –> glycolic acid –> oxalate

= oxalate crystal in lumen of kidney, olgiuric renal failure

Question 47

What three treatment options are available for alcohol toxicities?

Answer 47

• emesis or lavage if less than 3 hours
• administer IV ethanol to compete for alcohol dehydrogenase
• fomepizole- inhibits alcohol dehydrogenase

Question 48

PRACTICE QUESTION:

2 y/o w/ pain, nausea chills.
X ray show ovals.
Kid says he ate some “colored candy he found in mom’s bathroom”.

What tests do you run? Whats the most likely substance involved? What would you give?

Answer 48

• Tox screens for most common drugs in bathroom
• Prob not prescription because it was colorful
• Check for acetaminophen, aspirin, and esp iron
• If Fe ^^^, give kiddo deferoxamine (chelate)

Question 49

PRACTICE QUESTION:
Mr Hour has cough H/A congestion and “sees” halos.
He admits to drinking a pint of corn liquor.

What toxic substances COULD be in the liquor.
What do his symptoms suggest?

Answer 49

• could be…. methanol OR lead (will learn about this in the metals lecture)
• “seeing halos” suggests methanol (formic acid)