Hydrochloric acid: Difference between revisions

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==Clinical Features==
==Clinical Features==
*Can be systemically absorbed and → [[metabolic acidosis]], hemolysis, AKI
*Can be systemically absorbed and → [[metabolic acidosis]], hemolysis, [[AKI]]
*Dermal [[burns]]
*Dermal [[caustic burns]]
*Ingestion
*Ingestion
**All patients with serious esophageal injuries have ''some'' initial sign/symptom
**All patients with serious esophageal injuries have ''some'' initial sign/symptom
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***Occurs via aspiration of caustic or vomitus or inhalation of acidic fumes
***Occurs via aspiration of caustic or vomitus or inhalation of acidic fumes
*[[Smoke inhalation injury|inhalation injury]]
*[[Smoke inhalation injury|inhalation injury]]
**PVCs and other [[arrythmias]]
**PVCs and other [[arrhythmias]]
**Delayed onset (2-12 hours) [[pulmonary edema]]
**Delayed onset (2-12 hours) [[pulmonary edema]]
**[[Dyspnea]], [[chest pain]]
**[[Dyspnea]], [[chest pain]]
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==Differential Diagnosis==
==Differential Diagnosis==
{{Caustic burn types}}


==Evaluation==
==Evaluation==
*Clinical diagnosis
===Work-up===
*Only necessary in patients with significant injury or volume of ingestion
*CBC, metabolic panel, lactate, serum calcium (if concern for [[hydrofluoric acid]] exposure
*[[ECG]]
*Tylenol/ASA levels if concerned about coingestion (suicidal patients)
*Ingestion, consider:
**3-View [[CXR]]: look for free air under diaphragm or mediastinal free air
**CT: if suspect perforation but CXR negative


==Management==
==Management==
*'''Decontaminate''' first: use appropriate personal protective equipment, remove all patient's clothing, decontaminate patient
*Irrigate areas of dermal or ocular exposure, early and copiously!
*'''Airway management'''
**Monitor closely for [[stridor]], airway edema, hoarseness, or other signs of airway injury
**[[Intubate]] early if signs of airway injury exist, before airway becomes more difficult to manage.
**Consider awake fiberoptic or video laryngoscopy if concern for difficult airway
**Blind nasotracheal intubation is contraindicated in caustic ingestion due to the potential for perforations and false passages
**[[Bronchodilators]] for bronchospasm if concern for inhalational injury
===Systemic Exposure===
*[[Metabolic acidosis]]: consider [[bicarbonate]] for severe acidosis
*Severe hemolysis may require [[exchange transfusion]]
===[[Caustic ingestion|Ingestion]]===
*'''Airway management''' especially important!
*Endoscopy
**Indications:
***''All'' intentional ingestions (higher likelihood of high volume ingestion)
***Any ingestion with [[stridor]], drooling, significant oropharyngeal burns, [[vomiting]], food refusal
**Perform within 12-24 hours of ingestion (too early can underestimate extent of injury, too late increases risk of wound softening and perforation)
*Esophageal stricture mitigation<ref>High Doses of Methylprednisolone in the Management of Caustic Esophageal Burns. Pediatrics 2014;133:e1518–e1524</ref>
**Discuss with GI or toxicologist
**Grade IIb or higher esophageal burns: [[Methylprednisolone]] (1 g/1.73 m2 per day for 3 days), [[ranitidine]], [[ceftriaxone]], total parenteral nutrition
*Surgical intervention: indicated if perforation or peritoneal signs
*Contraindicated (or controversial):
**[[Antibiotics]] (unless giving steroids]]
**[[Activated charcoal]] (may consider when coingestants pose a risk for severe systemic toxicity)
*[[Gastric lavage]]: contraindicated due to potential to cause reflux of caustic agent into esophagus, creating more damage
*Dilution with water or milk: causes vomiting, elevating risk for perforation
*Neutralization (e.g. with milk or mag citrate): generates excess heat
===[[Caustic keratoconjunctivitis|Ocular exposure]]===
*Irrigate, immediately and copiously!
**NS, LR, or BSS (Buffered Saline Solution) preferred in the hospital setting<ref>Herr RD, White GL Jr, Bernhisel K, Mamalis N, Swanson E. Clinical comparison of ocular irrigation fluids following chemical injury. Am J Emerg Med. 1991 May;9(3):228-31.</ref>, but tap water is acceptable, especially in pre-hospital setting
**Use of morgan lens or eyelid speculum will assist with getting more fluid in contact with cornea
**Goal is to remove caustic agent and restore normal ocular pH (7.0-7.2)
**Do NOT attempt to neutralize pH by adding base to an acidic burn or acid to an alkali burn
*Remove particulate matter
**Evert both lids, remove any visible particulate matter with cotton-tipped applicator
*Anesthesia
**Topical anesthetic (e.g. [[tetracaine]]) to help with discomfort.
**Other options include cycloplegics (e.g. atropine, cyclopentolate), IV/IM/PO analgesics
*[[Antibiotics]]
**Erythromycin ophthalmic ointment QID for minor burns
**Topical fluoroquinolone for more severe burns
*Control inflammation
**Topical steroids - prednisolone 1% ophthalmic QID for 1 week<ref>Dohlman, C.H., F. Cade, and R. Pfister, Chemical burns to the eye: paradigm shifts in treatment. Cornea, 2011. 30(6): p. 613-4.</ref>
**Limit topical steroid use to 10 days to avoid corneal breakdown.<ref>Donshik, P.C., et al., Effect of topical corticosteroids on ulceration in alkali-burned corneas. Archives of ophthalmology, 1978. 96(11): p. 2117-20.</ref>
*Ophtho consultation for all but minor burns (Severe exposures may require debridement or other surgical intervention)


==Disposition==
==Disposition==
*Dependant on severity of exposure and complications


==See Also==
==See Also==
*[[Caustic burns]], [[Caustic injection]], [[Caustic keratoconjunctivitis]], [[Inhalation exposure]]


==External Links==
==External Links==

Revision as of 22:04, 15 January 2017

Background

  • Strong acid, causes coagulation necrosis due to denaturation of proteins
  • Most household bleaches are only 3-6% hydrochlorite solutions, but patients may have occupational exposures if working in steel picking, chemical manufacturing, oil/gas-well acidizing, and food processing
  • HCl is combustion product of polyvinyl chloride (PVC), can cause chemical inhalation injury, can persist in air for up to an hour after fire extinguished

Clinical Features

Differential Diagnosis

Caustic Burns

Evaluation

  • Clinical diagnosis

Work-up

  • Only necessary in patients with significant injury or volume of ingestion
  • CBC, metabolic panel, lactate, serum calcium (if concern for hydrofluoric acid exposure
  • ECG
  • Tylenol/ASA levels if concerned about coingestion (suicidal patients)
  • Ingestion, consider:
    • 3-View CXR: look for free air under diaphragm or mediastinal free air
    • CT: if suspect perforation but CXR negative

Management

  • Decontaminate first: use appropriate personal protective equipment, remove all patient's clothing, decontaminate patient
  • Irrigate areas of dermal or ocular exposure, early and copiously!
  • Airway management
    • Monitor closely for stridor, airway edema, hoarseness, or other signs of airway injury
    • Intubate early if signs of airway injury exist, before airway becomes more difficult to manage.
    • Consider awake fiberoptic or video laryngoscopy if concern for difficult airway
    • Blind nasotracheal intubation is contraindicated in caustic ingestion due to the potential for perforations and false passages
    • Bronchodilators for bronchospasm if concern for inhalational injury

Systemic Exposure

Ingestion

  • Airway management especially important!
  • Endoscopy
    • Indications:
      • All intentional ingestions (higher likelihood of high volume ingestion)
      • Any ingestion with stridor, drooling, significant oropharyngeal burns, vomiting, food refusal
    • Perform within 12-24 hours of ingestion (too early can underestimate extent of injury, too late increases risk of wound softening and perforation)
  • Esophageal stricture mitigation[1]
  • Surgical intervention: indicated if perforation or peritoneal signs
  • Contraindicated (or controversial):
  • Gastric lavage: contraindicated due to potential to cause reflux of caustic agent into esophagus, creating more damage
  • Dilution with water or milk: causes vomiting, elevating risk for perforation
  • Neutralization (e.g. with milk or mag citrate): generates excess heat

Ocular exposure

  • Irrigate, immediately and copiously!
    • NS, LR, or BSS (Buffered Saline Solution) preferred in the hospital setting[2], but tap water is acceptable, especially in pre-hospital setting
    • Use of morgan lens or eyelid speculum will assist with getting more fluid in contact with cornea
    • Goal is to remove caustic agent and restore normal ocular pH (7.0-7.2)
    • Do NOT attempt to neutralize pH by adding base to an acidic burn or acid to an alkali burn
  • Remove particulate matter
    • Evert both lids, remove any visible particulate matter with cotton-tipped applicator
  • Anesthesia
    • Topical anesthetic (e.g. tetracaine) to help with discomfort.
    • Other options include cycloplegics (e.g. atropine, cyclopentolate), IV/IM/PO analgesics
  • Antibiotics
    • Erythromycin ophthalmic ointment QID for minor burns
    • Topical fluoroquinolone for more severe burns
  • Control inflammation
    • Topical steroids - prednisolone 1% ophthalmic QID for 1 week[3]
    • Limit topical steroid use to 10 days to avoid corneal breakdown.[4]
  • Ophtho consultation for all but minor burns (Severe exposures may require debridement or other surgical intervention)

Disposition

  • Dependant on severity of exposure and complications

See Also

External Links

References

  1. High Doses of Methylprednisolone in the Management of Caustic Esophageal Burns. Pediatrics 2014;133:e1518–e1524
  2. Herr RD, White GL Jr, Bernhisel K, Mamalis N, Swanson E. Clinical comparison of ocular irrigation fluids following chemical injury. Am J Emerg Med. 1991 May;9(3):228-31.
  3. Dohlman, C.H., F. Cade, and R. Pfister, Chemical burns to the eye: paradigm shifts in treatment. Cornea, 2011. 30(6): p. 613-4.
  4. Donshik, P.C., et al., Effect of topical corticosteroids on ulceration in alkali-burned corneas. Archives of ophthalmology, 1978. 96(11): p. 2117-20.
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