a lecture about Most common Pediatrics drugs poisoning.. Including Iron , acetaminophen & salicylates .

1. PEDIATRIC POISONINGS
Dina F. El Wahaidi
Supervised by:
Dr. Mostafa El KahLout .

2. POISONING IN CHILDREN
 Definition of Poisoning:
 Exposure to a chemical or other agent that adversely
affects functioning of an organism.
 Circumstances of Exposure can be intentional, accidental,
environmental, medicinal or recreational.
 Routes of exposure can be ingestion, injection, inhalation
or cutaneous exposure.
“All substances are poisons...the right dose separates poison from a
remedy.” Parcelsus

3. EPIDEMIOLOGY
 US Poison Centers receive 1.5 million calls a
year regarding pediatric ingestions.
 79% of these calls involve children younger than
age six.
 56% of pediatric exposures are from products
around the house including medicines, cleaning
agents, pesticides, plants and cosmetics.

4. EPIDEMIOLOGY
99% of ingestions by children under 6 are
unintentional.
Approximately 40% of ingestions reported
to the poison center by adolescents are
intentional.
Approximately 56% of adolescent
ingestions are by females.

5. EPIDEMIOLOGY

6. Major four toxidromes are:
 Anticholinergic
 Sympathomimetic
 Opiates/Sedatives- Hypnotics/ Alcohol
 Cholinergic

7. IMPORTANT HISTORY POINTS
 What toxic agent/medications were found near the
patient?
 What medications are in the home?
 What approximate amount of the “toxic” agent was
ingested?
 How much was available before the ingestion?
 How much remained after the ingestion?
 When did the ingestion occur ?
 Were there any characteristic odors at the scene of the
ingestion?
 Was the patient alert on discovery?
 Has the patient remained alert since the ingestion?
 How has the patient behaved since the ingestion?
 Does the patient have a history of substance abuse?

8. ABC’S OF TOXICOLOGY:
 Airway
 Breathing
 Circulation
 Drugs:
 Resuscitation medications if needed
 Universal antidotes
 Draw blood:
 chemistry, coagulation, blood gases, drug levels
 Decontaminate
 Expose / Examine
 Full vitals / Foley / Monitoring
 Give specific antidotes / treatment

9.  Decontamination:
1. Ocular:
– Flush eyes with saline
2. Dermal:
– Remove contaminated clothing
– Brush off
– Irrigate skin
3. Gastro-intestinal:
– Activated charcoal:
 May Prevent /delay absorption of some drugs/toxins
 Almost always indicated Only in the 1st
hour !!!!
– Naso/oro-gastric Lavage
– Bowel Irrigation:
 Recent ingestions
 Awake alert patient
 500 cc NS Children / 2000cc adults
 Orally / Nasogastric tube
 Contraindications…?
ABC’S OF TOXICOLOGY:

10. in Children

12. IRON
The most common
cause of death in
toddlers.
Classically taught as
having five clinical
stages.

13. IRON
Toxic doses occur at 10-20mg/Kg of
elemental iron.
Prenatal vitamins typically contain about
65 mg of elemental iron.
Children's vitamins contain about 10-18
mg of elemental iron.

14. THE FIVE STAGES :
 Stage 1 ( first 6 hrs )
 Nausea, vomiting, abdominal pain and diarrhea.
 Stage 2 ( 6- 12 hrs )
 This is the latent phase often between 4-12hours as the
patient resolves GI symptoms.
 Stage 3 ( 12 - 24 hrs )
 Shock stage involving multiple organs including
coagulopathy, poor cardiac output, Hypovolemia,
lethargy and seizures.
 Stage 4 (2-3 days)
 Continuing of hepatic failure and ongoing oxidative
damage by the iron in the reticuloendothelial system.
 Stage 5 ( 2 -6 weeks )
 Gastric outlet obstruction secondary to scarring & Liver
Cirrhosis .

15. DIFFERENTIAL DIAGNOSES
Metabolic Acidosis
Other Problems to Be Considered
Gastroenteritis
Hepatic failure

16. WORKUP
LABORATORY STUDIES
 It is a clinical diagnosis
 Little is known about the absorption rate of iron
in an overdose or the timing of peak serum iron
level
 Serum levels Of :
Mild - Less than 300 µg/dL
Moderate - 300-500 µg/dL
Severe - More than 500 µg/dL
 TIBC has no utility in the acute
overdose setting.

17. MANAGEMENT
 Detailed history and physical including
a rectal exam for frank blood.
 Aggressive fluid resuscitation and intravenous
access.
 Whole bowel irrigation and KUB to
Look for pills.
 Laboratory analysis for CBC,
chemistry, and iron levels (peak around 4 hours)
Will often require repeat levels with
a repeat chemistry

18. INDICATIONS FOR DEFEROXAMINE
TREATMENT
- shock, altered mental status,
persistent GI symptoms,
metabolic acidosis, pills
visible on radiographs, serum
iron level greater than 500
µg/dL, or estimated dose
greater than 60 mg/kg of
elemental iron
- if a serum iron level is not
available and symptoms are
present

19. If the patient is in shock, remember to at
least type and screen (if not cross match) for
blood.
Deferoxamine was derived from
streptomyces pilosus.
Ferrioxamin :This complex imparts a
reddish, vin rosé, color to the urine
Hypotension and allergic reactions are seen.
ARDS is a known complication and usually
limit its use to 24 hours or less.

20. COMPLICATIONS
Infectious -Yersinia enterocolitica
septicemia
Pulmonary - Acute respiratory distress
syndrome (ARDS)
Gastrointestinal - Fulminant hepatic
failure, hepatic cirrhosis, pyloric or
duodenal stenosis

21. ACETAMINOPHEN
Acetaminophen is the most widely used analgesic-
antipyretic medication taken by people in the
United States and the world.
or paracetamol, is also known by its chemical
name, N -acetyl-p -aminophenol (APAP)

23. In Great Britain, acetaminophen toxicity is cited
as the most common etiology of hepatic failure
requiring liver transplantation

24. CLINICAL
History :
Patients with acetaminophen-induced
hepatotoxicity present in 4 clinical
stages :

25. Stage I 0-24 hrs
Early symptoms
Mild
Neurologic, respiratory, and cardiac symptoms
are rare in stage 1. If CNS involvement and/or
severe metabolic acidosis (elevated anion gap)
are present, consider co-ingestants
Nausea, vomiting, malaise and diaphoresis.
Normal bilirubin Transaminases and PT but may
elevate after 12 hrs Post Ingestion

26. Stage 2 (24-72 h )
 Stage 1 symptoms become less evident or resolve.
 pain and tenderness in the right upper quadrant.
(hepatomegaly) can be present. Some patients may
report (oliguria).
 Serum studies reveal elevated ALT and AST levels,
(PT), and bilirubin values.
 RF may also be present and indicate nephrotoxicity

27. Stage 3 (72-120 h)
 Stage 3 develops 3-5 days after ingestion
 Severe toxicity is evident on sera laboratory studies.
Lactic acidosis, prolonged PT or (INR), markedly
elevated ALT and AST (>10,000 IU/L )
 Death is most common during stage 3, with
multiorgan failure as the primary cause

28. Stage 4 (5-14 d)
 This stage can last as long as 21 days.
 Patients either have a complete recovery or they
die.
 the period to normalization may take several
weeks. Hepatic histiologic can take as long as 3
months to resolve.
 DOES NOT cause chronic hepatic dysfunction

29. PHYSICAL EXAM
 Stage 1 : non specific (Pallor, diaphoresis, &
dehydration )
 Stage 2 : RUQ Tenderness, tachycardia &
hypotension
 Stage 3 : hepatic injury (abdominal pain, jaundice,
and GI bleeding ) Encephalopathy and cerebral
edema& MOF
 Stage 4 : resolve or death occurs.

30. Remember the Dose
Aceta = 4 gday for adults
= 80mgKgday for #
Aceta =352-650mg every 4-6hrs for adults
=10-15mgKg every 4-6 hrs for #
For #
Not more than 5 doses
Not more than 2.6g Per Day
# = Children < 12 Years Or < 50 Kg

31. DIFFERENTIAL DIAGNOSIS
Pancreatitis
Gastroenteritis
Peptic ulcer
Infections
CMV Infection
Hepatitis A , B Or C
EBV or Varicella
Amatoxin
Wilson dis.
Reye syndrome

32. WORKUP
Measurement of acetaminophen serum
concentration
Any serum sample drawn 4 hours or longer
after a single ingestion may be plotted on
(Rumack-Matthew nomogram) to estimate
the risk of hepatotoxicity
Measurement of hepatic (ALT) and (AST)
hepatic injury is defined by elevation of the
plasma transaminases more than 1000 IU/L
 Others

34. TREATMENT
 Medical Care
1) Consider decontamination with activated charcoal in
any patient who presents within 4 hours of ingestion.
Consider gastric lavage if ingestion occurred within 1
hour of evaluation
2) Oral N-acetylcysteine (Mucomys)
3) Intravenous (IV) NAC (Acetadote)
INDICATIONs : altered mental status, GI bleeding and/or
obstruction or a history of caustic ingestion, potential fetal toxicity
from maternal toxicity, or an inability to tolerate oral
SE : flushing, pruritus, and a rash (15%)
Bronchospasm and hypotension (<2% of patients)

35. Probable toxicity should be treated with:
 N-acetylcysteine bolus 140 mg/kg
 Then 70 mg/kg Q 4 hrs for 17 doses.
 Assess hepatic function:
On presentation
 Daily
 Continue other support

36. SALICYLATES
One teaspoon of 98% methyl salicylate
contains 7000 mg of salicylate, the
equivalent of nearly 90 baby aspirin and
more than 4 times the potentially toxic
dose for a child who weighs 10 kg !
consider salicylate poisoning when topical
herbal medicinal oil is involved

37. PATHOPHYSIOLOGY
 acetylsalicylic acid is rapidly converted to
salicylic acid, its active moiety
 salicylic acid is metabolized by the liver and
eliminated in 2-3 hours
 Salicylate poisoning is manifested clinically by
disturbances of several organ systems
 Salicylates directly or indirectly affect most
organ systems in the body by uncoupling
oxidative phosphorylation, inhibiting Krebs
cycle enzymes, and inhibiting amino acid
synthesis but lipid metabolism is stimulated

38.  GI tract & Hepatic effects : Nausea and vomiting.
Hepatitis at or above 30.9 mg/d & Rey syndrome
CNS effects : tinnitus, hearing loss at serum levels of
30-45 mg/dl, seizures, cerebral edema, hyperthermia, coma,
cardiorespiratory depression
 Acid-base status :normal anion-gap acidosis does not
exclude salicylate.
 Respiratory system effects 35 mg/dL
 Glucose metabolism
 Fluid and electrolyte effects : 5-10 %dehydration,
Hypokalemia and hypocalcemia ( due to Resp. Alka. )
 Hematologic effects Hypoprothrombinemia and platelet
dysfunction
 Musculoskeletal effects Rhabdomyolysis

39. Reye syndrome is characterized by acute
noninflammatory encephalopathy and hepatic failure
of unknown etiology , typically occurs after a viral illness,
partic. an (URTI), influenza, Varicella or GE & it is
associated with the use of aspirin during the illness .
 Diagnostic criteria from the (CDC) :
1) Acute noninflammatory encephalopathy with an altered
level of consciousness
2) Hepatic dysfunction with a liver biopsy showing fatty
metamorphosis or a more than 3-fold increase in (ALT),
(AST), and/or ammonia levels
3) No other explanation for cerebral edema or hepatic
abnormality
4) CSF with WBCs (usually lymphocytes) (8 X 109/L or
fewer)
5) Brain biopsy with cerebral edema without inflammation

40. CLINICAL AND LABORATORY
MANIFESTATIONS
 Phase 1 : hyperventilation respiratory alkalosis
and compensatory alkaluria. Both K & NaHCO3 are
excreted in the urine. may last as long as 12 hours
 phase 2 : paradoxic aciduria occurs when sufficient
potassium has been lost from the kidneys. may begin
within hours & may last 12-24 hours
 Phase 3 : includes dehydration, hypokalemia, and
progressive metabolic acidosis. This phase may begin
4-6 hours after ingestion in a young infant or 24 hours
or more after ingestion in an adolescent or adult.

41. HISTORY
 When possible take :
 Type of salicylate
 Amount
 Approximate time of ingestion
 Possibility of long-term ingestion
 Potential co-ingestants
 Presence of other medical conditions (eg, cardiac,
renal diseases)
 The presence of tinnitus is a clue for salicylate
ingestion. Tachypnea, tachycardia, and elevated
temperature can be detected by evaluating vital
sign

42. DIFFERENTIAL DIAGNOSES
DKA
SEPSIS
Meningitis
Encephalitis
Other TOx

43. WORKUP
LABORATORY STUDIES
 Bedside ferric chloride testing (No longer)
 ABG: the most common abnormality is a mixed acid-
base disturbance
 Salicylate concentration: Therapeutic range of salicylate
is 15-30 mg/Dl
 the peak serum concentration may not occur for 4-6
hours . A 6-hour salicylate level higher than 100 mg/dL
is considered potentially lethal and is an indication for
hemodialysis
 the Done nomogram is regarded as not very useful and is
seldom used by clinicians
 Others . Repeat every 2 hrs till stabilization !

44. POTENTIAL SEVERITY AND MORBIDITY OF AN
ACUTE, SINGLE EVENT, NONENTERIC-
COATED, SALICYLATE INGESTION:
 less than 150 mg/kg - ranges from no toxicity to
mild toxicity
 From 150-300 mg/kg - Mild-to-moderate
toxicity
 From 301-500 mg/kg - Serious toxicity
 Greater than 500 mg/kg - Potentially lethal
toxicity

45. TREATMENT
Gastric lavage and activated charcoal are useful for acute
ingestions but not in chronic salicylism.
ABCs & lactated Ringer or isotonic Na Cl solution for
volume expansion at 10-20 cc/kg/h until a 1-1.5-cc/kg/h urine
flow is established
GI tract decontamination :initial dose of activated charcoal is
1 g/kg of body weight to a maximum of 50 g in children and
1-2 g/kg to a maximum of 100 g in adults . If enteric-coated
aspirin has been ingested or salicylate levels do not decrease
despite charcoal, WBI should probably be used in addition to
charcoal
Urinary alkalization the U pH to 7.5-8 .Ion trapping : ions
are poorly reabsorbed in the tubules and are excreted more
readily. Correct hypokalemia and dehydration

46. HEMODIALYSIS INDICATIONS :
1. serum level greater than 120 mg/dL (acutely) or
greater than 100 mg/dL (6 h postingestion)
2. refractory acidosis,
3. coma or seizures,
4. noncardiogenic pulmonary edema,
5. volume overload
6. renal failure.
 In chronic overdose, for a symptomatic patient with
a serum salicylate level greater than 60 mg/dL.
 Peritoneal dialysis is only 10-25% as efficient as
hemodialysis