Inhalation injury: Difference between revisions

Revision as of 04:18, 21 April 2021

Background

Inhalational injury a concern with history of being trapped in enclosed space for some time with toxic gases / fumes

Clinical Features

General

Initial signs/symptoms - cough, wheezing, dyspnea, irritated mucous members (runny eyes/nose), chest pain, hypoxia
Specific features dependent on type of exposure

Inert Gases

Inert gases (carbon dioxide, fuel gases) displace air and oxygen producing asphyxia
Present with severe hypoxia

Irritant Gases

Irritant gases (ammonia, formaldehyde, chlorine, nitrogen dioxide) when dissolved in water lining respiratory tract produce a chemical burn and inflammatory response
More soluble the gas produces more upper airway burns/irritation symptoms
Less soluble gases produce more pulmonary injury and respiratory distress

Systemic Toxins

Includes carbon monoxide, hydrogen cyanide, hydrogen sulfide
Interfere with delivery of oxygen for use in cellular energy production
Liver, kidney, brain, lung and other organ damage

Allergic

Inhaled gases, particles, aerosols
Produce bronchospasms and edema similar to asthma

Smoke Inhalation / Thermal

Most fatalities from burn injuries are attributed to smoke inhalation
Soot in posterior pharynx, singed nasal hair
Hyperacute - severe wheezing, bronchoconstriction, significant hypoxemia
Acute pulmonary edema - onset at 48-72 hours post injury in a previously asymptomatic patient
Bronchopneumonia often at 10 days post-injury

Differential Diagnosis

Inhalation injury

Unintentional

Terrorism

Pulmonary chemical agents
- Ammonia
- Methyl isocyanate
- methyl bromide
- Hydrochloric acid
- Chlorine
- Phosgene
Bioterrorism

Burns

Smoke inhalation injury (airway compromise)
Chemical injury
- Acrolein
- Hydrochloric acid
- Tuolene diisocyanate
- Nitrogen dioxide
Systemic chemical injury
- Carbon monoxide toxicity
- Cyanide toxicity
Specific types of burns
- Caustic burns
- Electrical injuries
  - Lightning Injuries
Associated toxicities

Evaluation

Look for evidence of exposure
- Estimated time of exposure
- Open or enclosed space
- Associated events such as fire, blast, etc.?
- Is the exposure known?
- Material on patient? Does patient smell of chemical?

Examples - smoke inhalation from burning building, leak of a solvent, chemical fumes

Physical examination with focus on airway and pulmonary system
Observe for evidence of airway compromise or respiratory distress
Chest x-ray, pulse oximetry, arterial blood gas
Consider carboxyhemoglobin and/or cyanide level if any suspicion based on history

Management

General

Separate patient from fumes/toxic agent
Decontaminate if not done on scene
Secure airway if necessary and ventilate, observe for respiratory distress and airway compromise
Oxygen at 6-12 liters per minute via mask

Inert Gases

Remove victim from the gas
Fresh air or oxygen
Observe for sequelae from hypoxia (myocardial infarction, cerebral injury)

Allergic

Aerosolized bronchodilators
Corticosteroids in patients with history of reactive airway disease

Smoke Inhalation / Thermals

Ensure adequate oxygenation, ventilation, pulmonary toilet and fluid resuscitation

Disposition

Respiratory distress or airway compromise will need admission
Observe for 1-4 hours if no signs or symptoms of inhalation injury develop or if all resolved within 1 hour consider discharging patient home with instructions for return for re-evaluation next day or sooner if pulmonary and/or airway symptoms develop

External Links

Video

References

Authors:

@@ Line 3: / Line 3: @@
 ==Clinical Features==
-* Initial signs/symptoms - coughing, wheezing, dyspnea, irritated mucous members (runny eyes/nose), chest pain, hypoxia
+===General===
+* Initial signs/symptoms - [[cough]], [[wheezing]], [[dyspnea]], irritated mucous members (runny eyes/nose), [[chest pain]], [[hypoxia]]
 * Specific features dependent on type of exposure
 ===Inert Gases===
-* Inert gases (carbon dioxise, fuel gases) displace air and oxygen producing asphyxia
+* Inert gases (carbon dioxide, fuel gases) displace air and oxygen producing asphyxia
-* Present with severe hypoxia
+* Present with severe [[hypoxia]]
 ===Irritant Gases===
-* Irritant gases (ammonia, formaldehyde, chlorine, nitrogen dioxide) when dissolved in water lining respiratory tract produce a chemical burn and inflammatory response
+* Irritant gases ([[ammonia toxicity|ammonia]], formaldehyde, [[chlorine gas|chlorine]], nitrogen dioxide) when dissolved in water lining respiratory tract produce a [[chemical burns|chemical burn]] and inflammatory response
 * More soluble the gas produces more upper airway burns/irritation symptoms
-* Less soluble gases produce more pulmonary injury and respiratory distress
+* Less soluble gases produce more pulmonary injury and [[respiratory distress]]
 ===Systemic Toxins===
-* Includes carbon monoxide, hydrogen cyanide, hydrogen sulfide
+* Includes [[carbon monoxide]], hydrogen [[cyanide]], [[hydrogen sulfide]]
 * Interfere with delivery of oxygen for use in cellular energy production
 * Liver, kidney, brain, lung and other organ damage
 ===Allergic===
 * Inhaled gases, particles, aerosols
-* Produce bronchospasms and edema similar to asthma
+* Produce bronchospasms and edema similar to [[asthma]]
-===Smoke Inhalation / Thermal ===
+===[[Smoke inhalation injury|Smoke Inhalation / Thermal]]===
 * Most fatalities from burn injuries are attributed to smoke inhalation
 * Soot in posterior pharynx, singed nasal hair
-* Hyperacute - severe wheezing, bronchoconstriction, significant hypoxemia
+* Hyperacute - severe [[wheezing]], [[bronchoconstriction]], significant [[hypoxemia]]
-* Acute pulmonary edema - onset at 48-72 hours post injury in a previously asymptomatic patient
+* Acute [[pulmonary edema]] - onset at 48-72 hours post injury in a previously asymptomatic patient
-* Bronchopneumonia often at 10 days post-inury
+* Broncho[[pneumonia]] often at 10 days post-injury
 ==Differential Diagnosis==
 {{Inhalation exposure}}
+{{Burn DDX}}
 ==Evaluation==
@@ Line 38: / Line 41: @@
 : Examples - smoke inhalation from burning building, leak of a solvent, chemical fumes
 * Physical examination with focus on airway and pulmonary system
-* Observe of evidence of airway compromise or respiratory distress
+* Observe for evidence of airway compromise or respiratory distress
+* [[Chest x-ray]], pulse oximetry, [[ABG|arterial blood gas]]
+* Consider [[carbon monoxide toxicity|carboxyhemoglobin]] and/or [[cyanide]] level if any suspicion based on history
 ==Management==
@@ Line 44: / Line 49: @@
 * Separate patient from fumes/toxic agent
 * Decontaminate if not done on scene
-* Secure airway if necessary and ventilate
+* Secure airway if necessary and ventilate, observe for respiratory distress and airway compromise
-* Oxygen at 6-12 liters per minute via mask
+* [[Oxygen]] at 6-12 liters per minute via mask
-* Chest x-ray, pulse oximetry, arterial blood gases
-* Consider carboxyhemoglobin level or cyanide level if any suspicion based on history
-* Observe for respiratory distress and airway compromise
 ===Inert Gases===
 * Remove victim from the gas
 * Fresh air or oxygen
-* Observe for sequelae  from hypoxia (myocardial infarction, cerebral injury)
+* Observe for sequelae  from [[hypoxia]] ([[myocardial infarction]], cerebral injury)
 ===Allergic===
-* Aerosolized bronchodilators
+* Aerosolized [[bronchodilators]]
-* Corticosteroids in patients with history of reactive airway disease
+* [[Corticosteroids]] in patients with history of reactive airway disease
 ===Smoke Inhalation / Thermals===
-* Ensure adequate oxygenation, ventilation, pulmonary toilet and fluid resuscitation
+* Ensure adequate oxygenation, ventilation, pulmonary toilet and [[IVF|fluid resuscitation]]
 ==Disposition==
@@ Line 64: / Line 69: @@
 ==See Also==
+*[[Smoke inhalation injury]]
+*[[Burns]]
 ==External Links==