Pulmonary chemical agents: Difference between revisions

Revision as of 14:32, 13 October 2019

Ammonia, methyl isocyanate, methyl bromide, hydrochloric acid and chlorine, phosgene
Common toxic industrial chemicals, transported widely across country
Can affect central or peripheral airways
- burning and irritation to epithelial lining causing airway edema or pulmonary edema, hypoxia, and hypotension

Choking agents combine with water in respiratory tract to form acids
Both chlorine and phosgene react with water in respiratory tract to form hydrochloric acid

Symptoms dependent on the water solubility of the chemical

Highly water-soluble
- Anhydrous, ammonia, Hydrogen chloride, Sulfur dioxide, Formaldehyde
- Rapidly react with water causing damage to upper airway to vocal cords
- Direct tissue damage causing bronchiolar/alveolar edema/airway obstruction and laryngospasm
- Nasopharyngeal and tracheal chemical burns, upper airway obstruction
- Laryngospasm (can occur immediately upon exposure)
- Respiratory distress/failure, hypoxia
- Cough
- Chest pain
- Arrhythmias (hydrochloric acid)
Moderately water-soluble
- Damage to moderate-sized airways (bronchioles)
- Bronchospasm and wheezing
Poorly water-soluble
- Phosgene, Nitrogen dioxide
- Inhaled deeply into alveoli
- Lack of irritation of mucous membranes can cause them to go undetected
- Respiratory distress, tachypnea, cough, pulmonary edema

Blister chemical agents (Vesicants)
- Lewisite (L)
- Sulfur mustard (H)
- Phosgene oxime (CX)
Pulmonary chemical agents (Choking agents)
Incendiary agents
- Agent orange
- White phosphorus
Cyanide chemical weapon agents (Blood agents)
- Prussic acid (AKA hydrogen cyanide, hydrocyanic acid, or formonitrile)
Nerve Agents (organophosphates)
- Acetylcholinesterase inhibitors
- Household and commercial pesticides (diazinon and parathion)
- G-series (sarin, tabun, soman)
- V-series (VX)
Lacrimating or riot-control agents
- Pepper spray
- Chloroacetophenone
- CS

Decontaminate patient!
- Liquid phosgene can cause off-gassing with release of toxin from clothes post-exposure
Do not allow patient to be active as it worsens condition
Inhaled beta agonists for bronchoconstriction
Diuretics and corticosteroids not shown to be effective

Authors:

@@ Line 14: / Line 14: @@
 **Anhydrous, ammonia, Hydrogen chloride, Sulfur dioxide, Formaldehyde
 **Rapidly react with water causing damage to upper airway to vocal cords
-**Direct tissue damage causing edema/airway obstruction and laryngospasm
+**Direct tissue damage causing bronchiolar/alveolar edema/airway obstruction and laryngospasm
+**Nasopharyngeal and tracheal [[chemical burns]], upper airway obstruction
+**Laryngospasm (can occur immediately upon exposure)
+**[[Respiratory distress]]/failure, [[hypoxia]]
+**[[Cough]]
+**[[Chest pain]]
+**[[Arrhythmias]] (hydrochloric acid)
 *Moderately water-soluble
 **Damage to moderate-sized airways (bronchioles)
@@ Line 22: / Line 28: @@
 **Inhaled deeply into alveoli
 **Lack of irritation of mucous membranes can cause them to go undetected
+**[[Respiratory distress]], tachypnea, [[cough]], [[pulmonary edema]]
 ==Differential Diagnosis==
@@ Line 29: / Line 36: @@
 ==Management==
-*Liquid phosgene can cause off-gassing with release of toxin from clothes post-exposure
+*'''Decontaminate''' patient!
+**Liquid phosgene can cause off-gassing with release of toxin from clothes post-exposure
 *Do not allow patient to be active as it worsens condition
-*Diuretics and corticosteroids not shown to be effective
+*Inhaled [[bronchodilators|beta agonists]] for bronchoconstriction
-*Inhaled beta agonists for bronchoconstriction
+*Diuretics and corticosteroids ''not'' shown to be effective
 ==Disposition==