Hydrocarbon Inhalation


Article Author:
Kristin Brown


Article Editor:
Tyler Armstrong


Editors In Chief:
Chaddie Doerr


Managing Editors:
Avais Raja
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Khalid Alsayouri
Trevor Nezwek
Radia Jamil
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Saad Nazir
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Mark Pellegrini
James Hughes
Beata Beatty
Beenish Sohail
Nazia Sadiq
Hajira Basit
Phillip Hynes


Updated:
6/4/2019 6:41:32 PM

Introduction

Hydrocarbons are organic compounds that consist of hydrogen and carbon. They are quite ubiquitous in society and are present in many common household and occupational products, for example, in motor fuel, paint thinner, cleaning agents, lotion, and industrial solvents. Unfortunately, these products are also used as agents of abuse and typically are inhaled for their euphoric effects. Inhalation is made possible by the volatility of these substances.[1]

Serious toxicity and death can be associated with hydrocarbon exposure through inhalation, ingestion, or aspiration. Pulmonary toxicity is most common, however cardiovascular, nervous, and gastrointestinal systems can all be affected.

Etiology

Hydrocarbons are a primary energy source in modern society. They are derived mainly from petroleum (kerosene, gas, naphtha) or wood (turpentine, pine oil). They can be found in liquid, gas, or solid form depending on their properties. All hydrocarbons can be toxic, but aromatic (ring-shaped) and halogenated hydrocarbons typically have more severe toxicity.

Toxicity occurs in various ways including through inhalation, ingestion, aspiration, and dermal exposure. Frequently, these exposures occur during attempted recreational use of the substances and sometimes for self-injurious behavior. Three inhalation methods for recreational uses are common. These include “huffing” or breathing through a rag soaked with the inhalant, “bagging,” which means repeatedly inhaling deeply from a bag filled with the hydrocarbon, and “sniffing” or directly inhaling the hydrocarbon through the nostrils. Most commonly abused hydrocarbons are paints, solvents, and gasoline.[2]

Epidemiology

Hydrocarbon toxicity affects more than 30,000 Americans per year.  Approximately 20 deaths per year are attributed to hydrocarbon toxicity. Children younger than five years old as well as adolescents are disproportionately affected. Abuse is becoming increasingly common with an estimated 20% of middle and high school students reported having tried these volatile substances. The most common complications are pneumonitis followed by central nervous system and cardiovascular effects.[3][2][4][5]

Pathophysiology

Multiple factors determine the toxicity of hydrocarbons. These include physical and chemical characteristics, dose and concentration, additives, and routes of exposure. Aspiration risk is directly related to the physical characteristics such as viscosity, surface tension, and volatility. Viscosity is a measurement of the resistance to flow, surface tension refers to the ability of particles to cohere together, and volatility is the tendency for a liquid to change to gas. Lower viscosity, lower surface tension, and higher volatility all increase the risk of aspiration and subsequently, increase the risk of toxicity. These specific properties allow for easy flow, diffuse spread on mucosa and lung surfaces, and ability to vaporize at body temperature, respectively. Inhalation or ingestion can both allow for easy absorption of the hydrocarbon which can lead to systemic toxicity.[6]

The pulmonary system is most commonly affected by inhalation or aspiration. Depending on the specific substance's characteristics or significant systemic absorption, multiple systems in the body may be affected by these same routes of exposure. Pulmonary toxicity from inhalation or aspiration occurs from direct toxicity. Hydrocarbon pneumonitis is caused by the destruction of alveolar and capillary membranes as well as alteration of surfactant function and production.  This eventually can lead to ARDS due to increased vascular permeability and edema. Progression to necrotizing pneumonitis and hemorrhagic pulmonary edema is ultimately possible. Rarer pulmonary complications include lung necrosis, pneumothorax, pneumatocele, or bronchopleural fistula. Ultimately, hypoxia develops secondary to ventilation/perfusion mismatch, shunt formation, and direct displacement of alveolar oxygen.[7][8]

Cardiac toxicity is also a possibility following hydrocarbon exposure. Life-threatening dysrhythmias may occur such as ventricular tachycardia or fibrillation. “Sudden sniffing death syndrome” has been described in hydrocarbon abusers which occurs shortly after exposure often without any preceding symptoms. This typically occurs after a patient is “excited” while they are huffing or bagging leading to a large surge of catecholamines. This large surge of catecholamines, although typically not an issue, causes risk of arrhythmias due to increased myocardium sensitization, a side effect of hydrocarbons.[9][10]

The primary CNS effect associated with hydrocarbon toxicity is a decreased level of consciousness. Multiple pathways ultimately lead to this decreased level of consciousness. Many hydrocarbons cross the blood-brain barrier causing direct toxicity. There are also indirect CNS effects as a result of severe hypoxia from lung injury or oxygen displacement or hypercarbia from the act of rebreathing into a bag.  Prolonged and recurrent exposure to hydrocarbons can lead to white matter degeneration as well as peripheral demyelination.[1]

Other systems are also commonly affected. Hydrocarbons are gastrointestinal (GI) irritants which lead to burning abdominal pain, vomiting or even gastric perforation; however, this is more common with ingestion as opposed to inhalation. Hepatic damage, especially from chlorinated hydrocarbons, is not uncommon and appears to have a similar course as that of acetaminophen hepatotoxicity. Toluene, an aromatic hydrocarbon, has a propensity to cause renal tubular acidosis or severe hypokalemia, similar to hypokalemic periodic paralysis. Some specific hydrocarbons also are associated with hematologic disorders, including benzene and naphthalene. Methemoglobinemia and delayed carboxyhemoglobinemia are specifically associated with exposure to hydrocarbons containing amines and methylene chloride, respectively. Rashes may be noted over the face or on the hands of habitual inhalation users secondary to irritation or sensitization. Dermatitis, cellulitis, and soft tissue necrosis are also possible depending on the method of exposure.[11][12][13]][14]

History and Physical

Patients with acute hydrocarbon-related illness most often present with respiratory complaints. Symptoms usually occur within 30 minutes of exposure but may be delayed for hours. Patients will typically present with coughing, choking, or vomiting with aspiration.  They may have findings of hypoxia and increased work of breathing. Initial neurologic symptoms may be agitation, hallucinations, tremors, but generally, hydrocarbons are neurologic depressants. Patients also may have GI complaints such as a burning sensation or nausea with frequent vomiting. In patients with prolonged exposure, patients may complain of rashes, chronic headaches, peripheral neuropathy, or cognitive impairment.

Evaluation

All patients presenting with suspicion or symptoms of hydrocarbon exposure should immediately be placed on a cardiac monitor as well pulse oximetry. There are no specific quantitative tests for hydrocarbons, but identification of the specific hydrocarbon substance may help guide management and anticipate adverse events. A chest radiograph is indicated in any patient suspected of inhalation or aspiration of hydrocarbons. However, initial imaging may be normal despite a patient displaying symptoms. Alternatively, initially asymptomatic patients may have abnormal radiographs later during their course. About 6 hours after exposure, patients will experience symptoms or have changes in pulse oximetry or chest radiography. ECG is indicated as well as a basic metabolic profile, hepatic function tests, and a complete blood count. Carboxyhemoglobin or methemoglobin levels may also be helpful if there is a concern for exposure to specific hydrocarbons mentioned previously.

Treatment / Management

Supportive care is the mainstay of treatment, beginning with control of airway, breathing, and circulation. Securing the airway or administering supplemental oxygen is often required in cases of significant exposure. Depending on the amount of pulmonary edema, positive pressure may be necessary to maintain oxygenation. The exogenous surfactant has been used with success; however, steroids and antibiotics are not proven to be beneficial. In the event of hypotension, aggressive fluid resuscitation is recommended as catecholamines such as epinephrine and norepinephrine may cause dysrhythmias. In the case of hydrocarbon ingestion, gastric lavage or charcoal is not used as these substances are quickly absorbed.  Charcoal is contraindicated due to the high risk of aspiration. Decontamination should be done before arriving in treatment areas to decrease the risk of secondary exposure to fumes. Consultation with a toxicologist is recommended, especially in higher-risk exposures such as aromatic or halogenated hydrocarbons.

Patients who are asymptomatic after 6 hours from inhalation or aspiration without any changes on pulse oximetry or chest radiography can be discharged with good return precautions. Hospitalization is required in patients with moderate to severe symptoms or patients with exposures to hydrocarbons that may produce delayed complications such as hepatotoxicity.[15]

Enhancing Healthcare Team Outcomes

The management of patients with hydrocarbon toxicity is with a multidisciplinary team that also includes ICU nurses. All patients presenting with suspicion or symptoms of hydrocarbon exposure should immediately be placed on a cardiac monitor as well as pulse oximetry. There are no specific quantitative tests for hydrocarbons, but identification of the specific hydrocarbon substance may help guide management and anticipate adverse events. A chest radiograph is indicated in any patient suspected of inhalation or aspiration of hydrocarbons.

There is no specific treatment for hydrocarbon toxicity, but close monitoring of the cardiovascular and pulmonary organs is highly recommended.


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Hydrocarbon Inhalation - Questions

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Which of the following is the treatment of choice for a patient with reported hydrocarbon poisoning?



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What is the most dangerous consequence of consuming a hydrocarbon such as gasoline?



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A 17-year-old man presents to the emergency department after accidentally ingesting a mouthful of gasoline while siphoning gas from his lawn mower. He does not report any vomiting at the time. He is currently asymptomatic. Vital signs are blood pressure 125/86 mmHg, heart rate 75 beats per minute, respiratory rate 14 breaths per minute, and temperature 98.8F. How should this patient be managed?



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What is the most common complication associated with hydrocarbon ingestion?



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A 17-year-old man presents to the emergency department following accidental lacquer thinner ingestion when he mistook it for water in the dark. He is vomiting, has a headache, weakness, and dizziness. He has a dusky appearance to his lips and fingers. Vital signs are blood pressure 112/73 mmHg, heart rate of 110 beats per minute, respiratory rate of 24 per minute, and SpO2 of 94%. His chest x-ray was normal and arterial blood gas revealed a mild hypoxemia with metabolic acidosis. Blood drawn appeared dark brown in appearance. What is the definitive treatment?



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A 2-year-old girl is found by her parents alone in the garage next to spilled lamp oil and brought to the emergency department. The parents report occasional dry cough when they first found her, however upon arrival patient is well appearing without cough or gagging, clear lung sounds, and normal SpO2. What is the best course of action?



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Which of the following is associated with toxic inhalant huffing? Select all that apply.



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Hydrocarbon Inhalation - References

References

Lung diseases associated with hydrocarbon exposure., Connellan SJ,, Respiratory medicine, 2017 May     [PubMed]
Combined analysis of job and task benzene air exposures among workers at four US refinery operations., Burns A,Shin JM,Unice KM,Gaffney SH,Kreider ML,Gelatt RH,Panko JM,, Toxicology and industrial health, 2017 Mar     [PubMed]
Benzene Exposures and Risk Potential for Vehicle Mechanics from Gasoline and Petroleum-Derived Products., Williams PR,Mani A,, Journal of toxicology and environmental health. Part B, Critical reviews, 2015     [PubMed]
Expanding the differential: toluene-induced toxicity., Dharmarajan L,Ammar H,, BMJ case reports, 2017 Aug 1     [PubMed]
Volatile substance misuse: an updated review of toxicity and treatment., Ford JB,Sutter ME,Owen KP,Albertson TE,, Clinical reviews in allergy & immunology, 2014 Feb     [PubMed]
Hydrocarbon toxicity: A review., Tormoehlen LM,Tekulve KJ,Nañagas KA,, Clinical toxicology (Philadelphia, Pa.), 2014 Jun     [PubMed]
Toluene-induced renal tubular acidosis: an easily missed cause of hypokalemic paralysis., Ungprasert P,Kue-A-Pai P,Permpalung N,Kittanamongkolchai W,Cheungpasitporn W,, The American journal of emergency medicine, 2012 Sep     [PubMed]
Volatile substance misuse in the United States., Garland EL,Howard MO,Vaughn MG,Perron BE,, Substance use & misuse, 2011     [PubMed]
Trends in volatile substance abuse., Spiller H,Lorenz DJ,, Journal of addictive diseases, 2009     [PubMed]
Ventricular fibrillation following inhalation of Glade Air Freshener., LoVecchio F,Fulton SE,, European journal of emergency medicine : official journal of the European Society for Emergency Medicine, 2001 Jun     [PubMed]
Pediatric hydrocarbon-related injuries in the United States: 2000-2009., Jolliff HA,Fletcher E,Roberts KJ,Baker SD,McKenzie LB,, Pediatrics, 2013 Jun     [PubMed]
Volatile lipophilic substances management in case of fatal sniffing., Romolo FS,di Luca NM,Ciallella C,Bottoni E,Fiore PA,Cappelletti S,Giuliani N,Augsburger M,Varlet V,, Journal of forensic and legal medicine, 2017 Aug 24     [PubMed]
Leukemia risk associated with low-level benzene exposure., Glass DC,Gray CN,Jolley DJ,Gibbons C,Sim MR,Fritschi L,Adams GG,Bisby JA,Manuell R,, Epidemiology (Cambridge, Mass.), 2003 Sep     [PubMed]
Assessment and management of acute poisoning by petroleum products., Seymour FK,Henry JA,, Human & experimental toxicology, 2001 Nov     [PubMed]
Pneumatocele complicating acute hydrocarbon pneumonitis., Mallavarapu RK,Katner HP,, Clinical toxicology (Philadelphia, Pa.), 2008 Nov     [PubMed]

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