PEDIATRIC TOXICOLOGY

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PEDIATRIC TOXICOLOGY

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39% are children younger than 3 years. 52% in children younger than 6 years ... Neuro: miosis, AMS, coma, hypothermia, seizures. Toxidromes. Sedatives/hypnotics ... – PowerPoint PPT presentation

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Title: PEDIATRIC TOXICOLOGY

1
PEDIATRIC TOXICOLOGY

Nga B. Pham, M.D.

2
Epidemiology

64 Poison Centers serving 295 million people
2.4 million exposures last year
39 are children younger than 3 years
52 in children younger than 6 years
106 deaths in age lt19 for 2003
2003 Annual report of the American Association
of Poison Control Centers Toxic Exporure
Surveillance System Watson et. al

3
Epidemiology

Most commonly fatal classes of poisoning
Analgesics (375)
62 Tylenol only, 52 Tylenol 1 other, 100
Tylenol combination products (Lortab, etc.)
23 ASA more than half did not have ASA levels
gt100mg/dl early and more aggressive dialysis
recommended
Street drugs (124)
Antidepressants (112)
Amitriptyline

4
Epidemiology

Most common Pediatric Exposure
Cosmetics and personal care products (13)
Cleaning substances (10)
Analgesics (7.8)
Foreign Bodies (7.4)
Topicals (7.4)
Cold and Cough Preparations (5.5)
Plants (4.6)
Pesticides (4.1)

5
Epidemiology

Unintentional (1-2 years)
Exploratory
Boys gt girls
Unable to discriminate safe from unsafe liquid
Intentional (adolescent)
Purposeful
Girls gt boys

6
Epidemiology

Around meal time
Grandparents home
Kerosene or gasoline in a soda bottle
Older sibling can pharmaceutically treat younger
sibling

7
Evaluation of Suspected Poisoning

ABCs and routine ICU management
Establishing the diagnosis
Must consider poisoning, especially in at risk
age groups
Less than 6 year old with acute decompensation
(AMS, arrhythmias, hypotension, metabolic
acidosis, etc.)

8
Evaluation

History of poisoning
Physical Examination
Laboratory studies
Gastrointestinal decontamination

9
History

What?
When?
How much?
Reliability

10
What?

Medication
Illicit drug
Hazardous chemical

11
What forms?

Pill
Solid
Liquid
Gaseous

12
What route?

Ingestion
Inhalation
Topical
Intravenous

13
When?

Elapsed time

14
How much?

Estimate amount
Concentration

15
PICU Admission

Tricyclic antidepressants (TCA)
Anticonvulsants
Digoxin
Opiates
Hydrocarbon-based household products

16
Toxic Exposure - Death

Analgesics
Sedative-hypnotics
Alcohols
Gases fumes
Cleaning substances

17
Toxidromes

Anticholinergics
Atropine, scopolamine, TCAs, phenothiazines,
antihistamines, mushrooms, jimson weed
Hot as a hare, dry as a bone, red as a beet, mad
as a hatter
Neuro agitation, hallucinations, coma,
extrapyramidal movements, mydriasis, hyperthermia
CV tachycardia, hypotension, hypertension,
arrhythmia
GI/GU decreased bowel sounds, urinary retention

18
Toxidromes

Cholinergics
Organophosphates and carbamates

19
Muscarinic Effects of Organophosphate Poisoning

S alivation D iaphoresis/diarrhea
L acrimation U rination
U rination M iosis
D efecation B radycardia/bronchospasm
G I secrestion/upset E mesis
E mesis L acrimation excess
S alivation excess

20
Nicotinic Effects of Organophosphate Poisoning

Muscle fasciculation
Cramping
Weakness (extreme is diaphragmatic failure)
Autonomic nicotinic effects include hypertension,
tachycardia, pupillary dilation, and pallor

21
CNS Effects ofOrganophosphate Poisoning

Anxiety
Restlessness
Confusion
Ataxia
Seizures
Insomnia
Dysarthria
Tremors
Coma

22
Toxidromes

Opiates
Morphine, Methadone, Dextromethorphan

23
Toxidromes

Opiates
Morphine, methadone, dextromethorphan
Resp decreased respiratory rate, pulmonary edema
CV hypotension, bradycardia
Neuro miosis, AMS, coma, hypothermia, seizures

24
Toxidromes

Sedatives/hypnotics
Benzodiazepines, barbiturates
Resp slow respirations
CV tachycardia, hypotension
Neuro AMS, coma, seizures, hypothermia

25
Toxidromes

Tricyclic antidepressants
Amitryptiline, nortryptiline, etc.
See anticholinergic effects
CV arrhythmias, hypotension
Neuro coma, seizures

26
Toxidromes

Salicylates
ASA, oil of wintergreen
Resp tachypnea

27
Laboratory Tests Suggestive ofPoisoning

Elevated osmolar gap (gt10)
Serum osm (Na x 2) BUN/2.8 glucose/18
Volatile alcohols, mannitol
Elevated anion gap (gt12)
MUDPILES
Low anion gap
Lithium, iodine, bromine, fluoride
Hyperkalemia
Postassium, lithium, digoxin, fluoride
Hypokalemia
Theophylline, toluene

28
Laboratory Tests Suggestive ofPoisoning

Hyperglycemia
ASA, theophylline, caffeine, iron
Hypocalcemia
Ethylene glycol, ASA
UA
Glowing urine ethylene glycol
Calcium oxalate crystals ethylene glycol

29
Laboratory Testing

What is in a urine drug screen?
Amphetamines, Barbiturates, Cocaine,
Benzodiazepine, Opiates, THC, PCP
What is in a serum drug screen?
Acetaminophen, ETOH, Salicylate, TCA
What is in a comprehensive drug screen?
Barbiturates, Salicylates, Cannabinoids, PCP,
TCA, Sedatives, Benzodiazepines, Stimulants,
Opium alkaloid, Synthetic Narcotics,
Tranquilizers, Cocaine

30
Laboratory Testing

Grady unfortunately doesnt do HPLC anymore
Options for more comprehensive screen
Quest lab if needed in 24 hours or less
ARUP 2-4 days turn around
SERUM Acetaminophen, alcohols, barbiturates,
benzodiazepines, carbamazepine, carisoprodol,
disopyramide, meprobamate, phenytoin, primidone,
salicylate, theophylline, tricyclic and other
antidepressants
URINE acetaminophen, alcohols, barbiturates,
benzodiazepines, carbamazepines, carisoprodol,
chlorpheniramine, cocaine metabolites,
diphenhydramine,ethchlorvynol, ibuprefen,
lidocaine, meprobamate, narcotics synthetics,
phencyclidine, phenothiazines, phenytoin,
primidone metabolites, pyrilamine, salicylate,
sympathomimetic amines, theophylline, tricyclic
and other antidepressants, trimethoprim

31
Laboratory Testing

Additional testing is helpful if you have a
specific substance that you suspect
Usually less helpful as a fishing expedition
and wont affect management
Am J Emerg Med. 1999 May17(3)221-4. Belson MG,
Simon HK
Evaluate the clinical utility and
cost-effectiveness of the limited component vs
the HPLC component of comprehensive toxicologic
screens in children
Retrospective from HSCH ED Jan 1994-July 1995
The comprehensive test included a broad-spectrum
HPLC component as well as a limited component
that examined serum for ethanol, aspirin, and
acetaminophen and urine for benzodiazepines,
barbiturates, amphetamines, cocaine,
phencyclidien, and opiates
Comprehensive toxicology screens were performed
in 463 cases during the study period 234 (510
were positive for exogenous toxin

32
Laboratory Testing

In 227 of 234 positive screens (97), toxins were
either suspected by history and/or physical, were
present on the limited portion of the toxicology
screens, or were clinically insignificant
The remaining 7 of the 234 positive screens (3)
were clinically significant and detected solely
by the broad-spectrum HPLC portion of the
comprehensive screen
However, in none of these 7 cases was patient
management clinically altered as a result of the
positive screen
The total additional cost of the HPLC component
was 16,205 (35x464), an average distributive
charge of 2,315 per patient in whom the HPLC
portion provided additional clinical information
(16,205/7)
Although adding significant charges to the
evaluation of suspected toxic exposures in
children, the HPLC component of the comprehensive
drug screen was of no additional clinical benefit
compared with its limited component alone

33
Urine Drug Screens

THC 1-3 weeks
Cocaine 2-4 days
Amphetamine 2 days
Barbiturates 1-2 days
Opiates 1-2 days
PCP 5-7 days
LSD 1-2 days
Steroids 3 days or longer
Longer if prolonged exposure

34
Antidotes
35
Antidotes
36
Antidotes
37
Antidotes
38
Antidotes
39
Antidotes
40
Antidotes
41
Antidotes
42
Antidotes
43
Antidotes
44
Antidotes
45
Antidotes
46
Antidotes
47
Antidotes
48
Elimination of Poisons

Surface decontamination
Reduce any additional absorption
Ipecac
Not routinely recommended anymore
Possible useful in an observed, in hospital
poisoning
Gastric Lavage
Most effective 1-2 hours after ingestion
Can be effective later in drugs that delay
gastric emptying

49
Elimination of Poisons

Activated charcoal
Adsorbs many drugs, thus decreasing systemic
absorption
Doesnt work well for lithium, iron,
hydorcarbons, alcohols, solvents, acid/alkali
ingestions
Role of charcoal in gastrointestinaldialysis
Cathartics
Not generally used
Some charcoal has sorbitol in it
Whole bowel irrigation
Golytely infusions
Initially done with success in iron ingestions
Used mostly for drugs that charcoal doesnt work
well with

50
Elimination of Poisons

Diuresis /- alteration of urine pH
Obviously, only useful for renally excreted drugs
Altering pH example
ASA pkA3
At a pH of 3, there is a 11 ratio of
ionized/unionized
At a pH of 7.4, the ratio is 25,0001
Ionized form cant cross cell membranes so when
you dump ASA into the tubule, if the pH is 4.5
you would have about 5,001 ratio, if you
increase urine pH to 8.0, then essentially all of
it is in the ionized form, and cant get
reabsorbed

51
Elimination of Poisons

Altering pH
Alkalinize the urine ASA, isoniazid, phenobarb
Use bicarb in the fluids
Dont use acetazolamide (Diamox) in ASA poisoning
Metabolic acidosis increases unionized form which
can cross into CNS, worsening poisoning
Acidify the urine (usually not needed)
quinidine, PCP, fenfluramine, amphetamine

52
Elimination of Poisons

Dialysis
What makes things dialyzable
Low molecular weight
Low volume of distribution
Low protein binding
Charge
Methods
Intermittent Hemodialysis
CVVH/CVVHD/CVVHDF
Albumin dialysis

53
Elimination of Poisons

Charcoal hemoperfusion
Clear chemicals by direct adsorbtion with
charcoal in an extracorporeal circuit
Doesnt depend of molecular size, protein binding
Can be used for a variety of otherwise difficult
to manage poisonings
Digoxin, ASA, barbiturates, TCAs, theophylline
Not used that much anymore

54
Elimination of Poisons

Plasmapheresis
Works very well with highly protein (albumin)
bound drugs
Not a routine methodology, but has been used to
remove theophylline and digoxin/digibind
complexes
Exchange transfusion
Use in smaller infants where vascular access for
extracorporeal techniques cant be done

55
Tylenol Ingestion

Clinical manifestations
Stage 1
First 12-24 hours
Nausea, vomiting, anorexia
No CNS involvement of you see it, think of
polysubstance ingestion
Stage 2
Resolution of GI symptoms
36 hours after ingestion see biochemical evidence
of liver dysfunction AST/ALT, bilirubin, PT

56
Tylenol Ingestion

Clinical manifestation
Stage 3
Liver dysfunction reaches a peak on day 3-4
Start GI symptoms again
High transaminases (gt10,000) do not necessarily
predict liver failure
Fulminant liver failure can occur
Stage 4
Recovery stage lasts 7-8 days
Chronic hepatitis does not occur LFTs/biopsy
return to normal

57
Tylenol Ingestion

Prediction of toxicity
Rumack nomogram for single ingestion
Rough guide for potential toxicity
Children 150 mg/kg
Adults 7.5 gm
Uncommon 150mg/kg
50 with 250 mg/kg
100 with 350mg/kg

58
Tylenol Ingestion

Therapy
N-acetylcysteine (Mucomyst)
Oral 140 mg/kg load, followed by 70mg/kg q4
hours for 17 doses
Repeat dose if vomits within 1 hour
Can mix with carbonated drinks or grapefruit
juice
Intravenous 150 mg/kg load over 15 minutes,
then 50mg/kg over 4 hours, then 100mg/kg over 16
hours

59
Volatile Alcohols

Diagnosis
High index of suspision
Elevated osmolar gap
Volatile alcohol screen separate test for
ethylen glycol
Methanol and ethylene glycol no ketones
Isopropyl alcohol marked acetone
Ethanol acetoacetate and B-hydroxybutyrate

60
Volatile Alcohols

Isopropyl Alcohol
Toxic dose is 1 ml/kg of 70 solution
More than one swallow in children should be
presumed toxic
About 20 is broken down by liver ADH to acetone
Symptoms are like ethanol ingestion
Nystagmus is common
More CNS depressant than ETOH, because acetone is
a CNS depressant as well
Management
Supportive (without hypotension essentially 0
mortality)
Levels dont mean much prognostically
Dialysis will remove it
Coma hypotension 30 mortality
Level over 400 (implied severe ingestion)

61
Volatile Alcohols

Methanol
No safe dose. 5ml is lethal in toddler age and
can cause blindness in adults. 1ml/kg is lethal
in adults
Metabolism
30 excreted by lungs
5 kidneys
Rest to liver to make toxic metabolites

62
Volatile Alcohols

Methanol
Clinical symptoms Biphasic
Initial CNS depression secondary to direct
action of methanol on CNS
Delayed
Visual disturbances
Photophobia, snowflakes, blurred vision
CAN HAVE FIXED DILATED PUPILS
Metabolic acidosis
Laboratory
Elevated anion gap is due to formic acid and
lactate
Retinal damage is due to locally produced formic
acid

63
Volatile Alcohols

Methanol
Treatment
Supportive
Ethanol/dialysis
Fomepizole /- dialysis now

64
Volatile Alcohols

Ethylene Glycol
Minimum lethal dose is 1.4-1.6 ml/kg
Clinical symptoms
Severe neurotoxicity, metabolic acidosis, renal
failure, cardiovascular collapse
1st phase 30 min 12 hours CNS symptoms, N/V
If LP pleocytosis and elevated protein
2nd phase cardiorespiratory failure with
pulmonary edema
3rd phase renal failure
Metabolism
25 excreted unchanged by kidneys
Remainder rapidly metabolized by liver and
kidneys to toxic metabolites

65
Volatile Alcohols

Ethylene Glycol
Lactic acidosis develops secondary to altered
NADH/NAD ratio
Oxalic acid chelates calcium
Tetany and myocardial dysfunction
Renal failure is likely due to glycoaldehyde,
glycolic acid, glyoxylic acid
Most recover can be prolonged up to 2 months
Can see calcium oxalate crystals in urine

66
Volatile Alcohols

Ethylene Glycol
Treatment
Fomepixole /- dialysis

67
Cyanide Poisoning

Exposures
Mostly from fires in children
Acetonitrile in some cosmetics reported lethal
Vitamin B17 cyanogenic glycosides sold in
health food stores from pits of apricots and
bitter almonds
Laetrile only when given orally or rectally
Nipride use sodium thiosulfate to reduce
incidence 1 gram per 100mg of Nipride

68
Cyanide Poisoning

Pathophysiology
Reversible binding to a-a3 cytochrome
Halts aerobic metabolism and ATP formation
Pushes to anaerobic metabolism and resultant
lactic acidosis
Inability to use oxygen at the cellular level
Normal oxygen content and oxygen delivery

69
Cyanide Poisoning

Treatment
100 oxygen always
Eli Lilly Cyanide Antidote Kit No M-76
Amyl nitrate pearls inhale for 15-30 secs
Produces about 5 methemoglobinemia
IV sodium nitrite
IV sodium thiosulfate
Aiming for methemoglobin of 30

70
Hydrocarbon Ingestion

Unintentional vs intentional
Clinical presentation
Respiratory distress
Hydrocarbons dissolve the lipid layer in the lung
Surfactant inactivation, distal airway closure,
hypoxemia, V/Q mismatch
Can progress to ARDS
CNS abnormalities
Mostly due to hypoxia
GI abnormalities

71
Hydrocarbons Ingestion

Clinical presentation
Fever and leukocytosis common in first 24-48
hours
Treatment
Supportive
Treat the hypoxia
No induction of vomiting

72
Iron Intoxication

Relatively common ingestion
About 5-10 require hospitalization
Can be lethal
lt20 mg/kg elemental Fe insignificant
20-60 mg/kg mild toxicity
gt60 mg/kg moderate to severe toxicity
gt200 mg/kg rapidly lethal if not treated

73
Iron Intoxication

Pathophysiology
Huge uptake of iron from small bowel
Overwhelm transferrins ability to bind and thus
get free iron circulating in blood
Disruption of CMS, GI, CV systems
Major oxidant stress possibly shunts electrons
away from cytochromes in the mitochondria
Interferes with activation of thrombin and clot
formation, leading to coagulopathy
Direct gut toxicity with hemorrhagic gastritis
and bowel perforation

74
Iron Intoxication

Clinical manifestation
1st phase GI symptoms (N/V/D, hemorrhagic
gastritis, GI bleed) direct effect
2nd phase temporary recovery 6-12 hours from
ingestion can last several days
3rd phase return of GIU symptoms and MSOF
Metabolic acidosis, shock, CNS depression, liver
dysfunction, renal failure, coagulopathy, etc.
Die or get better
4th phase 4-6 weeks out pyloric, gastric, or
intestinal obstruction due to healing of
initial damage

75
Iron Intoxication

Prognosis
Ingestion size
Serum iron levels
Peak 2-6 hours after ingestion
lt100 unlikely toxicity
100-300 minimal
300-500 moderate
500-1,000 severe
gt1,000 potentially lethal
After 6 hours even in large ingestion, level may
be normal

76
Iron Intoxication

Therapy
Role of gastric lavage
Desferoxamine iron chelator
Binds iron to form ferrioxamine which can be
safely excreted renally
Red (vin rose) color to urine
Also has a protective effect of increasing
intracellular binding of iron, reducing toxicity
Not dialysable

77
Beta Blockers