Chloroethane: Difference between revisions

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Chloroethane, along with other [[volatile anesthetics]], is '''<u>extremely dangerous</u>''' to use recreationally and presents an example of essentially '''<u>unmitigable risk</u>''' due to the inability to reliably monitor or control the concentration of gas that is being inhaled. When chloroethane is sprayed into the environment, it immediately boils into a gas. This causes extremely high concentrations of gaseous chloroethane far beyond potentially fatal levels, especially if the liquid is sprayed into a material which will capture the gas and slow the boiling process (e.g. into a rag).
Chloroethane, along with other [[volatile anesthetics]], is '''<u>extremely dangerous</u>''' to use recreationally and presents an example of essentially '''<u>unmitigable risk</u>''' due to the inability to reliably monitor or control the concentration of gas that is being inhaled. When chloroethane is sprayed into the environment, it immediately boils into a gas. This causes extremely high concentrations of gaseous chloroethane far beyond potentially fatal levels, especially if the liquid is sprayed into a material which will capture the gas and slow the boiling process (e.g. into a rag).


=== Airway reflexes ===
=== Cardiac arrest ===
The difference in dose of chloroethane between the desired recreational effects and cardiac arrest is very small (<10% difference in the concentration of gas). Because chloroethane boils into a gas at room temperature, it is possible to produce extremely high concentrations of gas (>50%) if it is inhaled from a confined space such as a rag. Furthermore, it is practically impossible to accurately monitor and control the concentration of chloroethane being inhaled. '''<u>These characteristics mean that cardiac arrest can rapidly occur without warning during any use.</u>'''
 
=== Airway reflex activation ===
One major risk of chloroethane is the involuntary activation of airway reflexes, including [[laryngospasm]] (closure of the vocal cords), or [[bronchospasm]] (closure of the lower airways), resulting in partial or complete blockage of airflow to and from the lungs. Normally, these reflexes are protective and are triggered to prevent liquids or solids from entering the lungs. However, when unconsciousness is caused by an anesthetic agent, these reflexes can activate inappropriately even when no triggering stimulation was present, and may not relax once activated.
One major risk of chloroethane is the involuntary activation of airway reflexes, including [[laryngospasm]] (closure of the vocal cords), or [[bronchospasm]] (closure of the lower airways), resulting in partial or complete blockage of airflow to and from the lungs. Normally, these reflexes are protective and are triggered to prevent liquids or solids from entering the lungs. However, when unconsciousness is caused by an anesthetic agent, these reflexes can activate inappropriately even when no triggering stimulation was present, and may not relax once activated.


If laryngospasm occurs, it can sometimes be treated with [[Larson's maneuver]] (using fingers to apply firm inward pressure to the soft tissue directly underneath the ear lobe on both sides of the head). If a bag-valve-mask is present, positive pressure with a high inspiratory pressure may also resolve the episode. However, '''<u>some cases of laryngospasm will not resolve until death occurs</u>''' and can only be managed by trained experts with access to specialized medications and equipment.
If laryngospasm occurs, it can sometimes be treated with [[Larson's maneuver]] (using fingers to apply firm inward pressure to the soft tissue directly underneath the ear lobe on both sides of the head). If a bag-valve-mask is present, positive pressure with a high inspiratory pressure may also resolve the episode. However, '''<u>some cases of laryngospasm will not resolve until death occurs</u>''' and can only be managed by trained experts with access to specialized medications and equipment.


=== Cardiac arrest ===
=== Aspiration ===
The difference in dose of chloroethane between the desired recreational effects and cardiac arrest is very small (<10% difference in the concentration of gas). Because chloroethane boils into a gas at room temperature, it is possible to produce extremely high concentrations of gas (>50%) if it is inhaled from a confined space such as a rag. Furthermore, it is practically impossible to accurately monitor and control the concentration of chloroethane being inhaled. '''<u>These characteristics mean that cardiac arrest can rapidly occur without warning during any use.</u>'''
Chloroethane may cause uncontrollable retching and vomiting which can lead to [[aspiration]] of the stomach contents into the lungs. Aspiration is especially likely if the individual is unconscious or physically positioned such that they are unable to clear vomit from their mouth.
 
If aspiration occurs and the airway is not immediately cleared, death by drowning will occur. If the airway is cleared but some vomit was inhaled, the individual is still at risk for complications and '''<u>should be evaluated in an emergency room</u>'''. Some examples include:
 
* Aspiration pneumonitis, which is lung inflammation and dysfunction caused by an aspiration event which may not initially be obvious, but leads to increasingly worsening symptoms over the next 24 to 48 hours, followed by rapid improvement.
* Aspiration pneumonia, which is a lung infection that requires treatment with antibiotics.


=== Interactions <!-- Describe the interactions of this drug. --> ===
=== Drug interactions<!-- Describe the interactions of this drug. -->===
Chloroethane will synergistically interact with other depressants and reduce the dose required to produce each of the listed effects above.
Chloroethane will synergistically interact with other depressants and reduce the dose required to produce each of the listed effects above.



Revision as of 23:15, 5 February 2024

Chloroethane
Other names Ethyl chloride, spray poppers
Health risk Critical
Addiction risk Moderate
Legal risk
External links

Chloroethane (also known as ethyl chloride, or spray poppers, and under various trade names such as Maximum Impact® and Black Max®) is a volatile organic solvent which produces rapid-onset intoxication when its vapors are inhaled. It is toxic and lethal in high concentrations.

Background

Medical uses

Chloroethane was previously used as an inhalational anesthetic to produce general anesthesia. However, its flammability, toxicity, and pharmacokinetics have led to it being replaced by more modern agents such as sevoflurane. It is still sometimes used as a local anesthetic due to the chilling effect produced by topical evaporation.

Mechanism of action

Chloroethane is thought to produce intoxication primarily through GABA receptor agonism, similar to other volatile anesthetics.

Physical properties

Chloroethane is a volatile organic compound which boils at room temperature. When sprayed from a pressurized bottle in liquid form, it rapidly converts to a gas producing a very high concentration chloroethane near where it was sprayed.

Appeal

Chloroethane is capable of producing a sensation similar to alcohol intoxication which can become extremely powerful and result in the rapid loss of consciousness.

Dosing

The effects of chloroethane primarily depend on the concentration of gas being inhaled and the duration of exposure.[1] If used repeatedly, chloroethane will accumulate in the body until the concentration being inhaled reaches equilibrium with the concentration in the body. The concentration in the body represents the "dose" of the drug, and produces the following effects:

  • <1%: Usually no symptoms
  • 3-5%: Symptoms similar to alcohol intoxication
  • 6-8%: Amnesia, partial or complete loss of consciousness, shallow breathing, myocardial depression
  • 9-12%: Apnea (cessation of breathing), complete unresponsiveness, involuntary activation of reflexes (laryngospasm, bronchospasm, gagging), vomiting (which can cause aspiration of stomach contents into the lungs)
  • >12%: Cardiac arrest and rapid death

Risks

Chloroethane, along with other volatile anesthetics, is extremely dangerous to use recreationally and presents an example of essentially unmitigable risk due to the inability to reliably monitor or control the concentration of gas that is being inhaled. When chloroethane is sprayed into the environment, it immediately boils into a gas. This causes extremely high concentrations of gaseous chloroethane far beyond potentially fatal levels, especially if the liquid is sprayed into a material which will capture the gas and slow the boiling process (e.g. into a rag).

Cardiac arrest

The difference in dose of chloroethane between the desired recreational effects and cardiac arrest is very small (<10% difference in the concentration of gas). Because chloroethane boils into a gas at room temperature, it is possible to produce extremely high concentrations of gas (>50%) if it is inhaled from a confined space such as a rag. Furthermore, it is practically impossible to accurately monitor and control the concentration of chloroethane being inhaled. These characteristics mean that cardiac arrest can rapidly occur without warning during any use.

Airway reflex activation

One major risk of chloroethane is the involuntary activation of airway reflexes, including laryngospasm (closure of the vocal cords), or bronchospasm (closure of the lower airways), resulting in partial or complete blockage of airflow to and from the lungs. Normally, these reflexes are protective and are triggered to prevent liquids or solids from entering the lungs. However, when unconsciousness is caused by an anesthetic agent, these reflexes can activate inappropriately even when no triggering stimulation was present, and may not relax once activated.

If laryngospasm occurs, it can sometimes be treated with Larson's maneuver (using fingers to apply firm inward pressure to the soft tissue directly underneath the ear lobe on both sides of the head). If a bag-valve-mask is present, positive pressure with a high inspiratory pressure may also resolve the episode. However, some cases of laryngospasm will not resolve until death occurs and can only be managed by trained experts with access to specialized medications and equipment.

Aspiration

Chloroethane may cause uncontrollable retching and vomiting which can lead to aspiration of the stomach contents into the lungs. Aspiration is especially likely if the individual is unconscious or physically positioned such that they are unable to clear vomit from their mouth.

If aspiration occurs and the airway is not immediately cleared, death by drowning will occur. If the airway is cleared but some vomit was inhaled, the individual is still at risk for complications and should be evaluated in an emergency room. Some examples include:

  • Aspiration pneumonitis, which is lung inflammation and dysfunction caused by an aspiration event which may not initially be obvious, but leads to increasingly worsening symptoms over the next 24 to 48 hours, followed by rapid improvement.
  • Aspiration pneumonia, which is a lung infection that requires treatment with antibiotics.

Drug interactions

Chloroethane will synergistically interact with other depressants and reduce the dose required to produce each of the listed effects above.

Addiction

Users of chloroethane have reported experiencing compulsive redosing during use, leading to the inability to stop using

Risk mitigation

The use of any amount of chloroethane carries risk of sudden death which is unmitigable in nearly any circumstance.

Known incidents

Medical case reports

  • Death attributed to ethyl chloride (1993)[2]
  • Death due to inhalation of ethyl chloride (2000)[3]
  • A Fatal Case of Ethyl Chloride Sniffing Using Head-Cleaning Spray (2004)[4]
  • Is old stuff back? A fatal case of ethyl chloride sniffing (2019)[5]

References

  1. "Chloroethane", Wikipedia, 2023-12-01, retrieved 2024-02-06
  2. Yacoub, I.; Robinson, C. A.; Simmons, G. T.; Hall, M. (1993-10). "Death attributed to ethyl chloride". Journal of Analytical Toxicology. 17 (6): 384–385. doi:10.1093/jat/17.6.384. ISSN 0146-4760. PMID 8271788. {{cite journal}}: Check date values in: |date= (help)
  3. Broussard, L. A.; Broussard, A. K.; Pittman, T. S.; Lirette, D. K. (2000-01). "Death due to inhalation of ethyl chloride". Journal of Forensic Sciences. 45 (1): 223–225. ISSN 0022-1198. PMID 10641945. {{cite journal}}: Check date values in: |date= (help)
  4. Masakazu, O. Y. A.; Yoichi, Mitsukuni (2004). "A Fatal Case of Ethyl Chloride Sniffing Using Head-Cleaning Spray". 山梨医科学雑誌. 19 (4): 117–121. doi:10.34429/00002896.
  5. Pascali, Jennifer P.; Fais, Paolo; Viel, Guido; Cecchetto, Giovanni; Montisci, Massimo (2019-06-11). "Is old stuff back? A fatal case of ethyl chloride sniffing". Egyptian Journal of Forensic Sciences. 9 (1): 29. doi:10.1186/s41935-019-0136-4. ISSN 2090-5939.{{cite journal}}: CS1 maint: unflagged free DOI (link)