Description
A poison is a substance (other than an infectious substance) that is harmful to human health if ingested, inhaled, injected, or absorbed through the skin. Substances that are benign or therapeutic at low levels (for example, pharmaceuticals and herbal remedies) may be poisonous at higher concentrations. Toxins are poisons that are produced by living organisms. Venoms are toxins that are injected by an organism.
AUSTRALIAN
RESUSCITATION
COUNCIL
Guideline 9.5.1 Page 1 of 6
J uly 2011
GUIDELINE 9.5.1
EMERGENCY MANAGEMENT OF A VICTIM WHO HAS BEEN
POISONED
INTRODUCTION
A poison is a substance (other than an infectious substance) that is harmful to human health if
ingested, inhaled, injected, or absorbed through the skin. Substances that are benign or
therapeutic at low levels (for example, pharmaceuticals and herbal remedies) may be
poisonous at higher concentrations. Toxins are poisons that are produced by living organisms.
Venoms are toxins that are injected by an organism.
RECOGNITION
? Poisons can cause harm by a wide range of mechanisms and can cause a wide range of
symptoms including unconsciousness, nausea, vomiting, burning pain in the mouth or
throat, headache, blurred vision, seizures, difficulty breathing, respiratory arrest, and
cardiac arrest.
? Recognition of poisoning may be obvious from the circumstances of the incident, but this
is not always true. A person may complain of physical symptoms without realising these
are due to a poison. Alternatively, they may exhibit abnormal behaviour, which may be
misinterpreted as alcoholic confusion or psychiatric disturbance.
? Most pharmaceuticals are poisonous in overdose. Some are relatively safe unless many
times the recommended dose is taken, but many are lethal if less than a single pack is
taken simultaneously.
? Poisons may have a rapid effect, but their effects may also be delayed. Speed of effect is
determined by the nature of the poison, its concentration, and the time of exposure.
? It is important to seek medical assessment or advice after significant exposure to a poison,
even if symptoms are initially mild or absent.
MANAGEMENT
The principles of managing a patient who has been poisoned are:
? Prevention of poisoning of the rescuer.
? Decontamination of the patient.
? Resuscitation and supportive care, using the Australian Resuscitation Council and New
Zealand Resuscitation Council Basic Life Support Flowchart (Guideline 8).
? Specific management of particular poisons: antidotes, techniques to remove the poison
from the body, and the treatment of complications of the poison.
[Class A; LOE Expert Consensus Opinion ]
? If the victim is unconscious or is not breathing normally, commence resuscitation if
necessary, following the Australian Resuscitation Council and New Zealand
Resuscitation Council Basic Life Support Flowchart (Guideline 8)
? Ensure that an ambulance has been called
1. Prevention of poisoning of the rescuer
? During first aid and subsequent treatment, the suspected poison should be identified
and safely handled to minimise further exposure. The victim may pose a danger if the
poisonous substance can be transferred to the rescuer (for example, by contact with
contaminated clothing).
? If the poisoning occurs in an industrial, farm or laboratory setting suspect particularly
dangerous agents and take precautions to avoid accidental injury.
? If more than one person simultaneously appears affected by a poison, there is a high
possibility of dangerous environmental contamination.
? The rescuer may need to wear personal protective equipment (PPE) during
decontamination and resuscitation. The need for PPE will be guided by knowledge of
the likely poison. If equipment is not available to safely decontaminate and treat a
victim, rescue may not be possible. [Class A; LOE Expert Consensus Opinion ]
2. Decontamination
? Separate the victim from the poisonous substance. How this is done will depend on
the type of the poison. Examples are listed below.
? If the poison is SWALLOWED
? Give the person who has swallowed the poison a sip of water to wash out their
mouth.
? Do NOT try to make them vomit. Do NOT use Ipecac Syrup.
1;2
[Class A; LOE
IV]
? If the poison is INHALED
? Immediately get the person to fresh air, without placing yourself at risk.
? Avoid breathing fumes. Special breathing apparatus may be required, for example,
with cyanide or agricultural chemicals poisoning.
? If it is safe to do so, open doors and windows wide.
? If the poison enters the EYE
? Flood the eye with saline or cold water from a running tap or a cup/jug.
? Continue to flush for 15 minutes, holding the eyelids open.
? If the poison contacts the SKIN
? Remove contaminated clothing, taking care to avoid contact with the poison.
? Flood skin with running cold water.
? Wash gently with soap and water and rinse well.
Guideline 9.5.1 Page 2 of 6
J uly 2011
3. Resuscitation and supportive care
? If the victim is unconscious or is not breathing normally, commence resuscitation if
necessary, following the Australian Resuscitation Council and New Zealand
Resuscitation Council Basic Life Support Flowchart (Guideline 8).
[Class A; LOE Expert Consensus Opinion]
? Before commencing resuscitation, quickly wipe obvious contamination from around
the mouth.
? Ensure that an ambulance has been called
? A self-inflating bag-valve-mask apparatus is the safest way to provide ventilation for
the BLS rescuer. If this equipment is not available, mouth-to-mask or mouth-to-mouth
ventilation may be considered depending on the chemical ingested. Mouth-to-mouth
ventilation should be avoided if cyanide or organophosphate poisoning is suspected.
[Class A; LOE Expert Consensus Opinion]
? Inhaled poisons are unlikely to pose a risk during mouth to mouth ventilation unless
the victim is contaminated with the liquid phase of the inhaled poison.
4. Specific Management of particular poisons
? If possible, ascertain what poison or pharmaceutical has been taken, how much, and
when. Then obtain medical advice promptly. The source of medical advice will
depend on the situation. Options include:
? Australian Poisons Information Centre on 13 11 26 anywhere in Australia 24
hours a day, 7 days a week.
? New Zealand poisons centre 0800 764 766 (0800 POISON)
? Occupational health facilities
? Some poisons have specific antidotes, but (with some exceptions, such as cyanide)
these are rarely used outside hospital. However, accurately identifying these poisons
will help treatment so if there are packets or bottles they should go with the victim to
hospital. Poisons with antidotes include:
? Cyanide
? Organophosphates
? Iron
? Paracetamol
? Antifreeze
? Methanol
? some Antidepressants
? Digoxin
? Warfarin
5. If unable to get advice, or while waiting for help to arrive:
? Monitor the victim, especially the Airway, Breathing and Circulation, and manage
according to the Australian Resuscitation Council and New Zealand Resuscitation
Council Basic Life Support Flowchart (Guideline 8).
[Class A; LOE Expert Consensus Opinion]
Guideline 9.5.1 Page 3 of 6
J uly 2011
SUBSTANCES COMMONLY CAUSING POISONING
? Paracetamol is the most common pharmaceutical overdose leading to hospital admission,
and is also responsible for the most calls to Australian Poisons Information Centres.
3
Paracetamol is involved in a large proportion of accidental poisoning in children. Without
treatment, even small amounts of paracetamol are sufficient to cause an adult significant
liver damage and even death and effects may be delayed. Any poisoning in excess of
recommended doses requires immediate medical attention. The treatment for paracetamol
poisoning is most effective if administered as early as possible.
? Organic substances such as glues, hair spray, aerosol paints, lighter fluid, dry cleaning
fluid, nail polish remover and petrol may be deliberately inhaled to produce altered
sensation. Poisonous effects include:
o Hyperactivity, followed by drowsiness and unconsciousness
o Irregular heartbeat, followed by cardiac arrest
o Difficulty breathing
These dangers are increased by exercise, inhaling poison from bag, or inhalation in a
confined space.
? In Australia, household chemicals are the third most common cause of poisoning in
children after pharmaceuticals and venoms.
4
Household chemicals may include caustic
substances (e.g. dishwasher detergent) which have a risk of significant damage to the
oesophagus and lung.
5
Do not induce vomiting to prevent further damage to the
oesophagus and possible lung damage due to aspiration.
? Fungi (mushrooms; toadstools) grow widely throughout Australia. Some are edible, but
some are poisonous, causing hallucinations, vomiting, and diarrhea. Ingestion of even one
Amanita phalloides mushroom can cause liver failure and death. Cooking does not
neutralise the toxin. Most reported cases of mushroom poisoning are in children less than
five eating mushrooms growing in their home gardens.
6
The risk can be reduced by
regularly checking for and removing garden mushrooms.
? Cyanide is not a common cause of poisoning but may occur from inhalation of fume
during house or industrial fires or occupational exposure. As early treatment with an
antidote can be lifesaving, workplaces with a risk of cyanide exposure should be
adequately prepared. Depending on the risk, preparation should include:
o frequent inspection of work practices,
o plans for containment and decontamination of spills,
o access to a resuscitation device capable of delivering high oxygen concentrations
with the ability to assist ventilation if necessary, and
o a cyanide antidote.
The contents of a workplace Cyanide Emergency Kit should be determined by a
qualified occupational health assessor, taking into account the nature of the threat, first
aider training, and the proximity of external assistance. Several cyanide antidotes are
commercially available.
Unlike other strategies, intravenous hydroxycobalamin (vitamin B
12
) has few adverse
effects.
7;8
There is more evidence for the efficacy of hydroxycobalamin (three fair quality
studies
9-12
and three poor quality studies
13-15
) than for the alternatives.
Guideline 9.5.1 Page 4 of 6
J uly 2011
Adult patients with suspected severe cyanide poisoning (including those in cardiac
arrest) should receive immediate intravenous hydroxycobalamin, 5mg over 15 minutes
with repeat dosing up to 15mg. [Class A; LOE IV] Even if only BLS rescuers are likely
to be immediately available, keeping hydroxycobalamin for use by pre-hospital ALS or
hospital personnel may still be useful.
PREVENTION
? Many poisons are substances that also have a useful purpose. Poisoning is particularly
common in children and vulnerable adults. Ensuring poisons are only accessible by
people who need and know how to use them reduces their risk of harm.
? Make a survey of your home or workplace and identify all poisonous substances.
? Remove poisons or medicines that are unwanted. Dispose of chemicals safely using their
accompanying directions. Pharmaceuticals can be returned to a pharmacy for safe
disposal, which is safer and more environmentally friendly than disposal in domestic
waste or flushing down a toilet. The Poisons Information Centre can also advise on
methods of safe disposal.
? Store poisonous substances in their original containers in locked or child-resistant
cupboards or containers out of reach of children. Do not store medicines in the
refrigerator unless advised to do so by a pharmacist.
? Use non-poisonous alternatives to cleaning products, insecticides, etc. when possible.
? Keep the amount of poisonous substances stored in a home to a minimum.
? When possible, choose substances available in child-resistant packaging. However, do
not rely on child-resistant packaging to prevent a child’s access to a poison.
? Read medicine labels and use according to the directions. Ensure the right:
- medication
- person
- dose
- route of administration
- time and frequency of administration
? Wear the recommended personal protective equipment when using toxic or caustic
chemicals, for example spraying, painting, or oven cleaning.
? Do not eat or drink near poisons.
FURTHER READING
ARC Guideline 8 Cardiopulmonary Resuscitation
ARC Guidelines 9.4.1 – 9.4.8 Envenomations
For information on specific poisons, consult the Australian Poisons Information Centre on 13
11 26 or New Zealand poisons centre 0800 764 766 (0800 POISON)
Guideline 9.5.1 Page 5 of 6
J uly 2011
Guideline 9.5.1 Page 6 of 6
J uly 2011
REFERENCES
1. Heard K: The changing indications of gastrointestinal decontamination in poisonings.
Clin.Lab Med. 2006; 26: 1-12, vii
2. Greene SL, Dargan PI, J ones AL: Acute poisoning: understanding 90% of cases in a
nutshell. Postgrad.Med.J . 2005; 81: 204-16
3. Daly FF, Fountain J S, Murray L, Graudins A, Buckley NA: Guidelines for the
management of paracetamol poisoning in Australia and New Zealand--explanation
and elaboration. A consensus statement from clinical toxicologists consulting to the
Australasian poisons information centres. Med.J .Aust. 2008; 188: 296-301
4. Lam LT: Childhood and adolescence poisoning in NSW, Australia: an analysis of
age, sex, geographic, and poison types. Inj.Prev. 2003; 9: 338-42
5. Turner A, Robinson P: Respiratory and gastrointestinal complications of caustic
ingestion in children. Emerg.Med.J . 2005; 22: 359-61
6. Fungi poisoning. 1999. Melbourne, State of Victoria.
Ref Type: Pamphlet
7. Uhl W, Nolting A, Golor G, Rost KL, Kovar A: Safety of hydroxocobalamin in
healthy volunteers in a randomized, placebo-controlled study. Clin.Toxicol.(Phila)
2006; 44 Suppl 1: 17-28
8. Forsyth J C, Mueller PD, Becker CE, Osterloh J , Benowitz NL, Rumack BH et al.:
Hydroxocobalamin as a cyanide antidote: safety, efficacy and pharmacokinetics in
heavily smoking normal volunteers. J .Toxicol.Clin.Toxicol. 1993; 31: 277-94
9. Borron SW, Baud FJ , Barriot P, Imbert M, Bismuth C: Prospective study of
hydroxocobalamin for acute cyanide poisoning in smoke inhalation. Ann.Emerg.Med.
2007; 49: 794-801, 801
10. Houeto P, Hoffman J R, Imbert M, Levillain P, Baud FJ : Relation of blood cyanide to
plasma cyanocobalamin concentration after a fixed dose of hydroxocobalamin in
cyanide poisoning. Lancet 1995; 346: 605-8
11. Espinoza OB, Perez M, Ramirez MS: Bitter cassava poisoning in eight children: a
case report. Vet.Hum.Toxicol. 1992; 34: 65
12. Fortin J L, Desmettre T, Manzon C, J udic-Peureux V, Peugeot-Mortier C, Giocanti J P
et al.: Cyanide poisoning and cardiac disorders: 161 cases. J .Emerg.Med. 2010; 38:
467-76
13. Fortin J L, Giocanti J P, Ruttimann M, Kowalski J J : Prehospital administration of
hydroxocobalamin for smoke inhalation-associated cyanide poisoning: 8 years of
experience in the Paris Fire Brigade. Clin.Toxicol.(Phila) 2006; 44 Suppl 1: 37-44
14. Borron SW, Baud FJ , Megarbane B, Bismuth C: Hydroxocobalamin for severe acute
cyanide poisoning by ingestion or inhalation. Am J .Emerg.Med. 2007; 25: 551-8
15. Pontal PG, Bismuth C, Garnier R: Therapeutic attitude in cyanide poisoning:
retrospective study of 24 non-lethal cases. Veterinary and Human Toxicology 1982;
24: 286-7
doc_258912594.pdf
A poison is a substance (other than an infectious substance) that is harmful to human health if ingested, inhaled, injected, or absorbed through the skin. Substances that are benign or therapeutic at low levels (for example, pharmaceuticals and herbal remedies) may be poisonous at higher concentrations. Toxins are poisons that are produced by living organisms. Venoms are toxins that are injected by an organism.
AUSTRALIAN
RESUSCITATION
COUNCIL
Guideline 9.5.1 Page 1 of 6
J uly 2011
GUIDELINE 9.5.1
EMERGENCY MANAGEMENT OF A VICTIM WHO HAS BEEN
POISONED
INTRODUCTION
A poison is a substance (other than an infectious substance) that is harmful to human health if
ingested, inhaled, injected, or absorbed through the skin. Substances that are benign or
therapeutic at low levels (for example, pharmaceuticals and herbal remedies) may be
poisonous at higher concentrations. Toxins are poisons that are produced by living organisms.
Venoms are toxins that are injected by an organism.
RECOGNITION
? Poisons can cause harm by a wide range of mechanisms and can cause a wide range of
symptoms including unconsciousness, nausea, vomiting, burning pain in the mouth or
throat, headache, blurred vision, seizures, difficulty breathing, respiratory arrest, and
cardiac arrest.
? Recognition of poisoning may be obvious from the circumstances of the incident, but this
is not always true. A person may complain of physical symptoms without realising these
are due to a poison. Alternatively, they may exhibit abnormal behaviour, which may be
misinterpreted as alcoholic confusion or psychiatric disturbance.
? Most pharmaceuticals are poisonous in overdose. Some are relatively safe unless many
times the recommended dose is taken, but many are lethal if less than a single pack is
taken simultaneously.
? Poisons may have a rapid effect, but their effects may also be delayed. Speed of effect is
determined by the nature of the poison, its concentration, and the time of exposure.
? It is important to seek medical assessment or advice after significant exposure to a poison,
even if symptoms are initially mild or absent.
MANAGEMENT
The principles of managing a patient who has been poisoned are:
? Prevention of poisoning of the rescuer.
? Decontamination of the patient.
? Resuscitation and supportive care, using the Australian Resuscitation Council and New
Zealand Resuscitation Council Basic Life Support Flowchart (Guideline 8).
? Specific management of particular poisons: antidotes, techniques to remove the poison
from the body, and the treatment of complications of the poison.
[Class A; LOE Expert Consensus Opinion ]
? If the victim is unconscious or is not breathing normally, commence resuscitation if
necessary, following the Australian Resuscitation Council and New Zealand
Resuscitation Council Basic Life Support Flowchart (Guideline 8)
? Ensure that an ambulance has been called
1. Prevention of poisoning of the rescuer
? During first aid and subsequent treatment, the suspected poison should be identified
and safely handled to minimise further exposure. The victim may pose a danger if the
poisonous substance can be transferred to the rescuer (for example, by contact with
contaminated clothing).
? If the poisoning occurs in an industrial, farm or laboratory setting suspect particularly
dangerous agents and take precautions to avoid accidental injury.
? If more than one person simultaneously appears affected by a poison, there is a high
possibility of dangerous environmental contamination.
? The rescuer may need to wear personal protective equipment (PPE) during
decontamination and resuscitation. The need for PPE will be guided by knowledge of
the likely poison. If equipment is not available to safely decontaminate and treat a
victim, rescue may not be possible. [Class A; LOE Expert Consensus Opinion ]
2. Decontamination
? Separate the victim from the poisonous substance. How this is done will depend on
the type of the poison. Examples are listed below.
? If the poison is SWALLOWED
? Give the person who has swallowed the poison a sip of water to wash out their
mouth.
? Do NOT try to make them vomit. Do NOT use Ipecac Syrup.
1;2
[Class A; LOE
IV]
? If the poison is INHALED
? Immediately get the person to fresh air, without placing yourself at risk.
? Avoid breathing fumes. Special breathing apparatus may be required, for example,
with cyanide or agricultural chemicals poisoning.
? If it is safe to do so, open doors and windows wide.
? If the poison enters the EYE
? Flood the eye with saline or cold water from a running tap or a cup/jug.
? Continue to flush for 15 minutes, holding the eyelids open.
? If the poison contacts the SKIN
? Remove contaminated clothing, taking care to avoid contact with the poison.
? Flood skin with running cold water.
? Wash gently with soap and water and rinse well.
Guideline 9.5.1 Page 2 of 6
J uly 2011
3. Resuscitation and supportive care
? If the victim is unconscious or is not breathing normally, commence resuscitation if
necessary, following the Australian Resuscitation Council and New Zealand
Resuscitation Council Basic Life Support Flowchart (Guideline 8).
[Class A; LOE Expert Consensus Opinion]
? Before commencing resuscitation, quickly wipe obvious contamination from around
the mouth.
? Ensure that an ambulance has been called
? A self-inflating bag-valve-mask apparatus is the safest way to provide ventilation for
the BLS rescuer. If this equipment is not available, mouth-to-mask or mouth-to-mouth
ventilation may be considered depending on the chemical ingested. Mouth-to-mouth
ventilation should be avoided if cyanide or organophosphate poisoning is suspected.
[Class A; LOE Expert Consensus Opinion]
? Inhaled poisons are unlikely to pose a risk during mouth to mouth ventilation unless
the victim is contaminated with the liquid phase of the inhaled poison.
4. Specific Management of particular poisons
? If possible, ascertain what poison or pharmaceutical has been taken, how much, and
when. Then obtain medical advice promptly. The source of medical advice will
depend on the situation. Options include:
? Australian Poisons Information Centre on 13 11 26 anywhere in Australia 24
hours a day, 7 days a week.
? New Zealand poisons centre 0800 764 766 (0800 POISON)
? Occupational health facilities
? Some poisons have specific antidotes, but (with some exceptions, such as cyanide)
these are rarely used outside hospital. However, accurately identifying these poisons
will help treatment so if there are packets or bottles they should go with the victim to
hospital. Poisons with antidotes include:
? Cyanide
? Organophosphates
? Iron
? Paracetamol
? Antifreeze
? Methanol
? some Antidepressants
? Digoxin
? Warfarin
5. If unable to get advice, or while waiting for help to arrive:
? Monitor the victim, especially the Airway, Breathing and Circulation, and manage
according to the Australian Resuscitation Council and New Zealand Resuscitation
Council Basic Life Support Flowchart (Guideline 8).
[Class A; LOE Expert Consensus Opinion]
Guideline 9.5.1 Page 3 of 6
J uly 2011
SUBSTANCES COMMONLY CAUSING POISONING
? Paracetamol is the most common pharmaceutical overdose leading to hospital admission,
and is also responsible for the most calls to Australian Poisons Information Centres.
3
Paracetamol is involved in a large proportion of accidental poisoning in children. Without
treatment, even small amounts of paracetamol are sufficient to cause an adult significant
liver damage and even death and effects may be delayed. Any poisoning in excess of
recommended doses requires immediate medical attention. The treatment for paracetamol
poisoning is most effective if administered as early as possible.
? Organic substances such as glues, hair spray, aerosol paints, lighter fluid, dry cleaning
fluid, nail polish remover and petrol may be deliberately inhaled to produce altered
sensation. Poisonous effects include:
o Hyperactivity, followed by drowsiness and unconsciousness
o Irregular heartbeat, followed by cardiac arrest
o Difficulty breathing
These dangers are increased by exercise, inhaling poison from bag, or inhalation in a
confined space.
? In Australia, household chemicals are the third most common cause of poisoning in
children after pharmaceuticals and venoms.
4
Household chemicals may include caustic
substances (e.g. dishwasher detergent) which have a risk of significant damage to the
oesophagus and lung.
5
Do not induce vomiting to prevent further damage to the
oesophagus and possible lung damage due to aspiration.
? Fungi (mushrooms; toadstools) grow widely throughout Australia. Some are edible, but
some are poisonous, causing hallucinations, vomiting, and diarrhea. Ingestion of even one
Amanita phalloides mushroom can cause liver failure and death. Cooking does not
neutralise the toxin. Most reported cases of mushroom poisoning are in children less than
five eating mushrooms growing in their home gardens.
6
The risk can be reduced by
regularly checking for and removing garden mushrooms.
? Cyanide is not a common cause of poisoning but may occur from inhalation of fume
during house or industrial fires or occupational exposure. As early treatment with an
antidote can be lifesaving, workplaces with a risk of cyanide exposure should be
adequately prepared. Depending on the risk, preparation should include:
o frequent inspection of work practices,
o plans for containment and decontamination of spills,
o access to a resuscitation device capable of delivering high oxygen concentrations
with the ability to assist ventilation if necessary, and
o a cyanide antidote.
The contents of a workplace Cyanide Emergency Kit should be determined by a
qualified occupational health assessor, taking into account the nature of the threat, first
aider training, and the proximity of external assistance. Several cyanide antidotes are
commercially available.
Unlike other strategies, intravenous hydroxycobalamin (vitamin B
12
) has few adverse
effects.
7;8
There is more evidence for the efficacy of hydroxycobalamin (three fair quality
studies
9-12
and three poor quality studies
13-15
) than for the alternatives.
Guideline 9.5.1 Page 4 of 6
J uly 2011
Adult patients with suspected severe cyanide poisoning (including those in cardiac
arrest) should receive immediate intravenous hydroxycobalamin, 5mg over 15 minutes
with repeat dosing up to 15mg. [Class A; LOE IV] Even if only BLS rescuers are likely
to be immediately available, keeping hydroxycobalamin for use by pre-hospital ALS or
hospital personnel may still be useful.
PREVENTION
? Many poisons are substances that also have a useful purpose. Poisoning is particularly
common in children and vulnerable adults. Ensuring poisons are only accessible by
people who need and know how to use them reduces their risk of harm.
? Make a survey of your home or workplace and identify all poisonous substances.
? Remove poisons or medicines that are unwanted. Dispose of chemicals safely using their
accompanying directions. Pharmaceuticals can be returned to a pharmacy for safe
disposal, which is safer and more environmentally friendly than disposal in domestic
waste or flushing down a toilet. The Poisons Information Centre can also advise on
methods of safe disposal.
? Store poisonous substances in their original containers in locked or child-resistant
cupboards or containers out of reach of children. Do not store medicines in the
refrigerator unless advised to do so by a pharmacist.
? Use non-poisonous alternatives to cleaning products, insecticides, etc. when possible.
? Keep the amount of poisonous substances stored in a home to a minimum.
? When possible, choose substances available in child-resistant packaging. However, do
not rely on child-resistant packaging to prevent a child’s access to a poison.
? Read medicine labels and use according to the directions. Ensure the right:
- medication
- person
- dose
- route of administration
- time and frequency of administration
? Wear the recommended personal protective equipment when using toxic or caustic
chemicals, for example spraying, painting, or oven cleaning.
? Do not eat or drink near poisons.
FURTHER READING
ARC Guideline 8 Cardiopulmonary Resuscitation
ARC Guidelines 9.4.1 – 9.4.8 Envenomations
For information on specific poisons, consult the Australian Poisons Information Centre on 13
11 26 or New Zealand poisons centre 0800 764 766 (0800 POISON)
Guideline 9.5.1 Page 5 of 6
J uly 2011
Guideline 9.5.1 Page 6 of 6
J uly 2011
REFERENCES
1. Heard K: The changing indications of gastrointestinal decontamination in poisonings.
Clin.Lab Med. 2006; 26: 1-12, vii
2. Greene SL, Dargan PI, J ones AL: Acute poisoning: understanding 90% of cases in a
nutshell. Postgrad.Med.J . 2005; 81: 204-16
3. Daly FF, Fountain J S, Murray L, Graudins A, Buckley NA: Guidelines for the
management of paracetamol poisoning in Australia and New Zealand--explanation
and elaboration. A consensus statement from clinical toxicologists consulting to the
Australasian poisons information centres. Med.J .Aust. 2008; 188: 296-301
4. Lam LT: Childhood and adolescence poisoning in NSW, Australia: an analysis of
age, sex, geographic, and poison types. Inj.Prev. 2003; 9: 338-42
5. Turner A, Robinson P: Respiratory and gastrointestinal complications of caustic
ingestion in children. Emerg.Med.J . 2005; 22: 359-61
6. Fungi poisoning. 1999. Melbourne, State of Victoria.
Ref Type: Pamphlet
7. Uhl W, Nolting A, Golor G, Rost KL, Kovar A: Safety of hydroxocobalamin in
healthy volunteers in a randomized, placebo-controlled study. Clin.Toxicol.(Phila)
2006; 44 Suppl 1: 17-28
8. Forsyth J C, Mueller PD, Becker CE, Osterloh J , Benowitz NL, Rumack BH et al.:
Hydroxocobalamin as a cyanide antidote: safety, efficacy and pharmacokinetics in
heavily smoking normal volunteers. J .Toxicol.Clin.Toxicol. 1993; 31: 277-94
9. Borron SW, Baud FJ , Barriot P, Imbert M, Bismuth C: Prospective study of
hydroxocobalamin for acute cyanide poisoning in smoke inhalation. Ann.Emerg.Med.
2007; 49: 794-801, 801
10. Houeto P, Hoffman J R, Imbert M, Levillain P, Baud FJ : Relation of blood cyanide to
plasma cyanocobalamin concentration after a fixed dose of hydroxocobalamin in
cyanide poisoning. Lancet 1995; 346: 605-8
11. Espinoza OB, Perez M, Ramirez MS: Bitter cassava poisoning in eight children: a
case report. Vet.Hum.Toxicol. 1992; 34: 65
12. Fortin J L, Desmettre T, Manzon C, J udic-Peureux V, Peugeot-Mortier C, Giocanti J P
et al.: Cyanide poisoning and cardiac disorders: 161 cases. J .Emerg.Med. 2010; 38:
467-76
13. Fortin J L, Giocanti J P, Ruttimann M, Kowalski J J : Prehospital administration of
hydroxocobalamin for smoke inhalation-associated cyanide poisoning: 8 years of
experience in the Paris Fire Brigade. Clin.Toxicol.(Phila) 2006; 44 Suppl 1: 37-44
14. Borron SW, Baud FJ , Megarbane B, Bismuth C: Hydroxocobalamin for severe acute
cyanide poisoning by ingestion or inhalation. Am J .Emerg.Med. 2007; 25: 551-8
15. Pontal PG, Bismuth C, Garnier R: Therapeutic attitude in cyanide poisoning:
retrospective study of 24 non-lethal cases. Veterinary and Human Toxicology 1982;
24: 286-7
doc_258912594.pdf