Zinc phosphide poisoning: Difference between revisions

(Created page with "Zinc phosphide (Zn₃P₂) poisoning is a potentially lethal toxicity caused by ingestion of a widely available rodenticide. Upon contact with gastric acid, zinc phosphide is hydrolyzed into '''phosphine gas (PH₃)''', which inhibits mitochondrial cytochrome C oxidase and causes multiorgan cellular hypoxia and death.<ref name="Diaz2023">Arroyo-Arcos CR, et al. Zinc Phosphide Poisoning: From A to Z. ''Toxics''. 2023;11(7):555. doi:10.3390/toxics11070555</ref> There is ''...")
 
(Moved intro into Background as bullets; removed excessive bold from bullet lead-ins; added Toxic gas exposure DDX template)
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Zinc phosphide (Zn₃P₂) poisoning is a potentially lethal toxicity caused by ingestion of a widely available rodenticide. Upon contact with gastric acid, zinc phosphide is hydrolyzed into '''phosphine gas (PH₃)''', which inhibits mitochondrial cytochrome C oxidase and causes multiorgan cellular hypoxia and death.<ref name="Diaz2023">Arroyo-Arcos CR, et al. Zinc Phosphide Poisoning: From A to Z. ''Toxics''. 2023;11(7):555. doi:10.3390/toxics11070555</ref> There is '''no specific antidote'''; mortality ranges from 37-100% in severe cases.<ref name="Dogan2014">Dogan E, Güzel A, Ciftçi T, et al. Zinc Phosphide Poisoning. ''Case Rep Crit Care''. 2014;2014:589712. doi:10.1155/2014/589712</ref>
==Background==
==Background==
*Zinc phosphide (Zn₃P₂) poisoning is a potentially lethal toxicity caused by ingestion of a widely available rodenticide.
*Upon contact with gastric acid, zinc phosphide is hydrolyzed into phosphine gas (PH₃), which inhibits mitochondrial cytochrome C oxidase and causes multiorgan cellular hypoxia and death.<ref name="Diaz2023">Arroyo-Arcos CR, et al. Zinc Phosphide Poisoning: From A to Z. ''Toxics''. 2023;11(7):555. doi:10.3390/toxics11070555</ref> There is no specific antidote; mortality ranges from 37-100% in severe cases.<ref name="Dogan2014">Dogan E, Güzel A, Ciftçi T, et al. Zinc Phosphide Poisoning. ''Case Rep Crit Care''. 2014;2014:589712. doi:10.1155/2014/589712</ref>
*Zinc phosphide is a dark gray/black crystalline powder used as a rodenticide against mice, rats, gophers, and squirrels
*Zinc phosphide is a dark gray/black crystalline powder used as a rodenticide against mice, rats, gophers, and squirrels
*Registered for pesticide use in the United States since 1947; widely available in developing countries<ref name="NPIC">Zinc Phosphide Technical Fact Sheet. National Pesticide Information Center (NPIC). Oregon State University.</ref>
*Registered for pesticide use in the United States since 1947; widely available in developing countries<ref name="NPIC">Zinc Phosphide Technical Fact Sheet. National Pesticide Information Center (NPIC). Oregon State University.</ref>
*Most cases of significant poisoning are '''intentional''' (self-harm) in adults, particularly in the Indian subcontinent, Iran, Thailand, and Mexico<ref name="Trakul2017">Trakulsrichai S, et al. Clinical characteristics of zinc phosphide poisoning in Thailand. ''Ther Clin Risk Manag''. 2017;13:335-340. doi:10.2147/TCRM.S129610</ref>
*Most cases of significant poisoning are '''intentional''' (self-harm) in adults, particularly in the Indian subcontinent, Iran, Thailand, and Mexico<ref name="Trakul2017">Trakulsrichai S, et al. Clinical characteristics of zinc phosphide poisoning in Thailand. ''Ther Clin Risk Manag''. 2017;13:335-340. doi:10.2147/TCRM.S129610</ref>
*Accidental ingestion occurs in children (attracted to bait formulations) and through contaminated food
*Accidental ingestion occurs in children (attracted to bait formulations) and through contaminated food
*'''Toxic dose:''' symptoms may occur with >40 mg/dose; lethal dose estimated at 4-5 g in adults (approximately 40-80 mg/kg)<ref name="Proudfoot2009">Proudfoot AT. Aluminium and zinc phosphide poisoning. ''Clin Toxicol (Phila)''. 2009;47(2):89-100. doi:10.1080/15563650802016425</ref>
* Toxic dose: symptoms may occur with >40 mg/dose; lethal dose estimated at 4-5 g in adults (approximately 40-80 mg/kg)<ref name="Proudfoot2009">Proudfoot AT. Aluminium and zinc phosphide poisoning. ''Clin Toxicol (Phila)''. 2009;47(2):89-100. doi:10.1080/15563650802016425</ref>


===Mechanism of toxicity===
===Mechanism of toxicity===
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==Clinical features==
==Clinical features==
*Onset of systemic symptoms is typically '''delayed''' compared to aluminum phosphide (hours to >12 hours post-ingestion)<ref name="Trakul2017"/>
*Onset of systemic symptoms is typically '''delayed''' compared to aluminum phosphide (hours to >12 hours post-ingestion)<ref name="Trakul2017"/>
*'''Patients may be initially asymptomatic and then deteriorate suddenly''' — including '''sudden cardiac arrest in asymptomatic patients'''<ref name="Parhizgar2020">Parhizgar P, et al. Sudden Cardiac Arrest in an Asymptomatic Zinc Phosphide-Poisoned Patient: A Case Report. ''Cardiovasc Toxicol''. 2020;20(5):525-530. doi:10.1007/s12012-020-09578-2</ref>
* Patients may be initially asymptomatic and then deteriorate suddenly — including '''sudden cardiac arrest in asymptomatic patients'''<ref name="Parhizgar2020">Parhizgar P, et al. Sudden Cardiac Arrest in an Asymptomatic Zinc Phosphide-Poisoned Patient: A Case Report. ''Cardiovasc Toxicol''. 2020;20(5):525-530. doi:10.1007/s12012-020-09578-2</ref>


===Gastrointestinal (earliest)===
===Gastrointestinal (earliest)===
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===Metabolic===
===Metabolic===
*'''Severe metabolic acidosis''' (high anion gap; elevated lactate) — correlates with severity<ref name="Trakul2017"/>
* Severe metabolic acidosis (high anion gap; elevated lactate) — correlates with severity<ref name="Trakul2017"/>
*Hyperkalemia, hyponatremia, hypocalcemia, hypomagnesemia
*Hyperkalemia, hyponatremia, hypocalcemia, hypomagnesemia
*Hypoglycemia (poor prognostic indicator)
*Hypoglycemia (poor prognostic indicator)
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*[[Myocardial infarction]] or [[Myocarditis|myocarditis]] (other causes)
*[[Myocardial infarction]] or [[Myocarditis|myocarditis]] (other causes)
*[[Septic shock]]
*[[Septic shock]]
{{Toxic gas exposure DDX}}


==Evaluation==
==Evaluation==
===Workup===
===Workup===
*'''Abdominal radiograph''' — zinc phosphide is '''radiopaque'''; positive X-ray is an indication for aggressive GI decontamination and portends worse prognosis<ref name="Hassanian2014"/>
* Abdominal radiograph — zinc phosphide is '''radiopaque'''; positive X-ray is an indication for aggressive GI decontamination and portends worse prognosis<ref name="Hassanian2014"/>
**Serial abdominal X-rays to confirm complete decontamination
**Serial abdominal X-rays to confirm complete decontamination
*'''ABG/VBG''' — metabolic acidosis with elevated lactate is the earliest and most sensitive marker of systemic toxicity; severity correlates with prognosis<ref name="Trakul2017"/>
* ABG/VBG — metabolic acidosis with elevated lactate is the earliest and most sensitive marker of systemic toxicity; severity correlates with prognosis<ref name="Trakul2017"/>
*'''CBC, BMP, hepatic function panel, coagulation studies (PT/INR), lipase'''
* CBC, BMP, hepatic function panel, coagulation studies (PT/INR), lipase
*'''Cardiac biomarkers''' (troponin, BNP) — myocardial injury monitoring
* Cardiac biomarkers (troponin, BNP) — myocardial injury monitoring
*'''ECG''' — continuous monitoring for dysrhythmias; sinus tachycardia is common; may progress to fatal rhythm
* ECG — continuous monitoring for dysrhythmias; sinus tachycardia is common; may progress to fatal rhythm
*'''Blood glucose''' — hypoglycemia is a poor prognostic indicator
* Blood glucose — hypoglycemia is a poor prognostic indicator
*'''Serum magnesium, calcium, phosphorus'''
* Serum magnesium, calcium, phosphorus
*'''Methemoglobin level''' (co-oximetry)
* Methemoglobin level (co-oximetry)
*'''CK''' — for rhabdomyolysis
* CK — for rhabdomyolysis
*'''Chest radiograph''' — for pulmonary edema, ARDS
* Chest radiograph — for pulmonary edema, ARDS
*'''Salicylate, acetaminophen, ethanol levels''' — if intentional ingestion
* Salicylate, acetaminophen, ethanol levels — if intentional ingestion
*Phosphine levels are not routinely available or clinically useful in acute management
*Phosphine levels are not routinely available or clinically useful in acute management
*'''Echocardiography''' — to assess myocardial function if hemodynamically unstable
* Echocardiography — to assess myocardial function if hemodynamically unstable


===Diagnosis===
===Diagnosis===
*Clinical: history of rodenticide ingestion + GI symptoms + metabolic acidosis + cardiovascular collapse
*Clinical: history of rodenticide ingestion + GI symptoms + metabolic acidosis + cardiovascular collapse
*'''Radiopaque material on abdominal X-ray''' in the setting of rodenticide ingestion is highly suggestive
* Radiopaque material on abdominal X-ray in the setting of rodenticide ingestion is highly suggestive
*Garlic or decaying fish odor to breath/vomitus is a classic but unreliable finding
*Garlic or decaying fish odor to breath/vomitus is a classic but unreliable finding
*Patients with positive abdominal X-ray are at higher risk for sudden deterioration even if asymptomatic<ref name="Hassanian2014"/>
*Patients with positive abdominal X-ray are at higher risk for sudden deterioration even if asymptomatic<ref name="Hassanian2014"/>
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===GI decontamination===
===GI decontamination===
*'''Gastric lavage with coconut oil''' (200 mL) '''+ sodium bicarbonate (NaHCO₃ 7.5%, 50 mL):'''<ref name="Diaz2023"/>
* Gastric lavage with coconut oil (200 mL) '''+ sodium bicarbonate (NaHCO₃ 7.5%, 50 mL):'''<ref name="Diaz2023"/>
**Coconut oil forms a protective mucosal layer and may reduce phosphine liberation
**Coconut oil forms a protective mucosal layer and may reduce phosphine liberation
**Bicarbonate decreases gastric acid–driven conversion of phosphide to phosphine
**Bicarbonate decreases gastric acid–driven conversion of phosphide to phosphine
**'''Do NOT use water for lavage''' — water promotes phosphine gas formation
**'''Do NOT use water for lavage''' — water promotes phosphine gas formation
**Alternative lavage solutions: potassium permanganate (1:10,000), liquid paraffin, or olive oil
**Alternative lavage solutions: potassium permanganate (1:10,000), liquid paraffin, or olive oil
*'''Activated charcoal''' (50 g) — may reduce absorption; administer after lavage<ref name="Trakul2017"/>
* Activated charcoal (50 g) — may reduce absorption; administer after lavage<ref name="Trakul2017"/>
*'''Whole-bowel irrigation''' with polyethylene glycol (PEG) — if radiopaque material visible beyond the stomach on X-ray
* Whole-bowel irrigation with polyethylene glycol (PEG) — if radiopaque material visible beyond the stomach on X-ray
**Some authors caution that PEG's water base could promote phosphine release; castor oil is an alternative for bowel evacuation<ref name="Marashi2016">Shakoori V, et al. Successful management of zinc phosphide poisoning. ''Indian J Crit Care Med''. 2016;20(6):368-370. doi:10.4103/0972-5229.183907</ref>
**Some authors caution that PEG's water base could promote phosphine release; castor oil is an alternative for bowel evacuation<ref name="Marashi2016">Shakoori V, et al. Successful management of zinc phosphide poisoning. ''Indian J Crit Care Med''. 2016;20(6):368-370. doi:10.4103/0972-5229.183907</ref>
*'''Repeat abdominal X-rays''' to confirm clearance of all radiopaque material
* Repeat abdominal X-rays to confirm clearance of all radiopaque material


===Cardiovascular support===
===Cardiovascular support===
*Aggressive IV fluid resuscitation
*Aggressive IV fluid resuscitation
*'''Vasopressors''' (norepinephrine, dopamine) for refractory hypotension
* Vasopressors (norepinephrine, dopamine) for refractory hypotension
*Continuous cardiac monitoring ('''sudden cardiac arrest may occur in asymptomatic patients''')<ref name="Parhizgar2020"/>
*Continuous cardiac monitoring ('''sudden cardiac arrest may occur in asymptomatic patients''')<ref name="Parhizgar2020"/>
*'''Hyperinsulinemia-euglycemia therapy (HIE):''' case reports suggest benefit in refractory cardiogenic shock<ref name="Diaz2023"/>
* Hyperinsulinemia-euglycemia therapy (HIE): case reports suggest benefit in refractory cardiogenic shock<ref name="Diaz2023"/>
**Insulin loading dose 1 IU/kg/h, maintenance 1-7 IU/kg/h; dextrose infusion to maintain euglycemia
**Insulin loading dose 1 IU/kg/h, maintenance 1-7 IU/kg/h; dextrose infusion to maintain euglycemia
*'''Intravenous lipid emulsion (ILE)''' — case reports of use for refractory shock; mechanism unclear<ref name="Diaz2023"/>
* Intravenous lipid emulsion (ILE) — case reports of use for refractory shock; mechanism unclear<ref name="Diaz2023"/>


===Magnesium sulfate===
===Magnesium sulfate===
*'''IV magnesium sulfate''' — membrane stabilizer and antioxidant; case-control studies suggest mortality reduction >50%<ref name="Diaz2023"/>
* IV magnesium sulfate — membrane stabilizer and antioxidant; case-control studies suggest mortality reduction >50%<ref name="Diaz2023"/>
*Multiple regimens described; one common protocol: 1 g/hour for 24 hours, then 1 g every 6 hours for 5-7 days
*Multiple regimens described; one common protocol: 1 g/hour for 24 hours, then 1 g every 6 hours for 5-7 days
*Monitor serum magnesium; avoid toxicity (loss of deep tendon reflexes, respiratory depression)
*Monitor serum magnesium; avoid toxicity (loss of deep tendon reflexes, respiratory depression)


===Antioxidant therapy===
===Antioxidant therapy===
*'''N-acetylcysteine (NAC):''' loading dose 140 mg/kg, maintenance 70 mg/kg for 17 doses — hepatoprotective, replenishes glutathione<ref name="Diaz2023"/>
* N-acetylcysteine (NAC): loading dose 140 mg/kg, maintenance 70 mg/kg for 17 doses — hepatoprotective, replenishes glutathione<ref name="Diaz2023"/>
*'''Vitamin C:''' 1 g IV q8h for the first 24 hours (antioxidant; limited evidence)
* Vitamin C: 1 g IV q8h for the first 24 hours (antioxidant; limited evidence)
*'''Vitamin E:''' 100 IU q12h for 72 hours (antioxidant; limited evidence)
* Vitamin E: 100 IU q12h for 72 hours (antioxidant; limited evidence)
*'''Alpha-lipoic acid:''' iron chelation and antioxidant properties; case report of use in combination therapy<ref name="Hungary2020">Takacs A, et al. Successful management of zinc phosphide poisoning — a Hungarian case. ''Int J Emerg Med''. 2020;13:51. doi:10.1186/s12245-020-00307-8</ref>
* Alpha-lipoic acid: iron chelation and antioxidant properties; case report of use in combination therapy<ref name="Hungary2020">Takacs A, et al. Successful management of zinc phosphide poisoning — a Hungarian case. ''Int J Emerg Med''. 2020;13:51. doi:10.1186/s12245-020-00307-8</ref>


===Metabolic acidosis===
===Metabolic acidosis===
*Correct with IV sodium bicarbonate as needed
*Correct with IV sodium bicarbonate as needed
*'''Refractory acidosis is a poor prognostic sign'''
* Refractory acidosis is a poor prognostic sign
*Treat underlying cause (tissue hypoperfusion)
*Treat underlying cause (tissue hypoperfusion)


===Organ failure management===
===Organ failure management===
*'''Hepatic failure:''' supportive; vitamin K, FFP for coagulopathy; liver transplant if fulminant<ref name="Saraf2015"/>
* Hepatic failure: supportive; vitamin K, FFP for coagulopathy; liver transplant if fulminant<ref name="Saraf2015"/>
*'''Acute kidney injury:''' hemodialysis for standard indications (uremia, hyperkalemia, volume overload, refractory acidosis)
* Acute kidney injury: hemodialysis for standard indications (uremia, hyperkalemia, volume overload, refractory acidosis)
**Hemodialysis does not effectively remove phosphine
**Hemodialysis does not effectively remove phosphine
*'''Methemoglobinemia:''' [[Methylene blue]] 1-2 mg/kg IV if symptomatic
* Methemoglobinemia: [[Methylene blue]] 1-2 mg/kg IV if symptomatic
*'''Intubation and mechanical ventilation''' for respiratory failure/pulmonary edema
* Intubation and mechanical ventilation for respiratory failure/pulmonary edema


==Disposition==
==Disposition==
*'''All patients with confirmed or suspected zinc phosphide ingestion must be admitted''' — even if initially asymptomatic<ref name="Parhizgar2020"/>
*'''All patients with confirmed or suspected zinc phosphide ingestion must be admitted''' — even if initially asymptomatic<ref name="Parhizgar2020"/>
*'''ICU admission''' for all significant ingestions — continuous cardiac monitoring is mandatory
* ICU admission for all significant ingestions — continuous cardiac monitoring is mandatory
*'''Monitoring period:''' minimum 72 hours; risk of cardiovascular collapse greatest in first 24-48 hours but delayed hepatic failure may occur through the first week<ref name="Saraf2015"/>
* Monitoring period: minimum 72 hours; risk of cardiovascular collapse greatest in first 24-48 hours but delayed hepatic failure may occur through the first week<ref name="Saraf2015"/>
*Serial ABGs, LFTs, coagulation studies, renal function, and ECGs every 6-12 hours
*Serial ABGs, LFTs, coagulation studies, renal function, and ECGs every 6-12 hours
*Serial abdominal X-rays until all radiopaque material has cleared
*Serial abdominal X-rays until all radiopaque material has cleared
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**Hyperkalemia, hypoglycemia
**Hyperkalemia, hypoglycemia
**Acute kidney injury, need for vasopressors or intubation
**Acute kidney injury, need for vasopressors or intubation
*'''All intentional ingestions:''' psychiatric evaluation mandatory prior to discharge
* All intentional ingestions: psychiatric evaluation mandatory prior to discharge
*Contact [[Poison control]] (1-800-222-1222 in the US) for all cases
*Contact [[Poison control]] (1-800-222-1222 in the US) for all cases


Revision as of 15:20, 19 March 2026

Background

  • Zinc phosphide (Zn₃P₂) poisoning is a potentially lethal toxicity caused by ingestion of a widely available rodenticide.
  • Upon contact with gastric acid, zinc phosphide is hydrolyzed into phosphine gas (PH₃), which inhibits mitochondrial cytochrome C oxidase and causes multiorgan cellular hypoxia and death.[1] There is no specific antidote; mortality ranges from 37-100% in severe cases.[2]
  • Zinc phosphide is a dark gray/black crystalline powder used as a rodenticide against mice, rats, gophers, and squirrels
  • Registered for pesticide use in the United States since 1947; widely available in developing countries[3]
  • Most cases of significant poisoning are intentional (self-harm) in adults, particularly in the Indian subcontinent, Iran, Thailand, and Mexico[4]
  • Accidental ingestion occurs in children (attracted to bait formulations) and through contaminated food
  • Toxic dose: symptoms may occur with >40 mg/dose; lethal dose estimated at 4-5 g in adults (approximately 40-80 mg/kg)[5]

Mechanism of toxicity

  • Zinc phosphide reacts with gastric HCl → liberates phosphine gas (PH₃)
    • Gastric acid and recent food intake accelerate phosphine release
    • An empty stomach may delay symptom onset up to 12 hours[3]
  • Phosphine is absorbed through the GI tract and lungs → distributed to liver, kidneys, heart, brain, and adrenals
  • Phosphine inhibits cytochrome C oxidase (complex IV of mitochondrial electron transport chain) → disrupts oxidative phosphorylation → cellular anoxia[1]
  • Additionally causes direct oxidative stress with lipid peroxidation, glutathione depletion, and free radical formation
  • Primary target organs: heart (most common cause of early death), lungs, liver, kidneys
  • Zinc phosphide is radiopaque on abdominal radiography due to its zinc component[6]

Healthcare worker safety

  • Phosphine gas may be released from the patient's vomitus and gastric contents — this is hazardous to healthcare workers[3]
  • Treat in a well-ventilated area or negative-pressure room
  • Use appropriate personal protective equipment
  • Gastric lavage effluent should be handled as hazardous material

Clinical features

  • Onset of systemic symptoms is typically delayed compared to aluminum phosphide (hours to >12 hours post-ingestion)[4]
  • Patients may be initially asymptomatic and then deteriorate suddenly — including sudden cardiac arrest in asymptomatic patients[7]

Gastrointestinal (earliest)

  • Nausea, vomiting (may have garlic/fishy odor), retching
  • Epigastric and abdominal pain
  • Diarrhea (may be bloody)
  • Hematemesis

Cardiovascular (most common cause of death)

Respiratory

  • Dyspnea, tachypnea, cyanosis
  • Acute pulmonary edema (cardiogenic and non-cardiogenic)
  • ARDS
  • Respiratory failure

Metabolic

  • Severe metabolic acidosis (high anion gap; elevated lactate) — correlates with severity[4]
  • Hyperkalemia, hyponatremia, hypocalcemia, hypomagnesemia
  • Hypoglycemia (poor prognostic indicator)

Hepatic

  • Hepatocellular injury (elevated AST, ALT)
  • Acute hepatic failure — may progress over the first week[8]
  • Coagulopathy

Renal

Neurologic

  • Headache, dizziness, agitation, restlessness
  • Altered mental status, delirium
  • Seizures, coma

Hematologic

  • Methemoglobinemia (less common than in aluminum phosphide poisoning)
  • Intravascular hemolysis (rare)
  • DIC

Differential diagnosis


Toxic gas exposure

Evaluation

Workup

  • Abdominal radiograph — zinc phosphide is radiopaque; positive X-ray is an indication for aggressive GI decontamination and portends worse prognosis[6]
    • Serial abdominal X-rays to confirm complete decontamination
  • ABG/VBG — metabolic acidosis with elevated lactate is the earliest and most sensitive marker of systemic toxicity; severity correlates with prognosis[4]
  • CBC, BMP, hepatic function panel, coagulation studies (PT/INR), lipase
  • Cardiac biomarkers (troponin, BNP) — myocardial injury monitoring
  • ECG — continuous monitoring for dysrhythmias; sinus tachycardia is common; may progress to fatal rhythm
  • Blood glucose — hypoglycemia is a poor prognostic indicator
  • Serum magnesium, calcium, phosphorus
  • Methemoglobin level (co-oximetry)
  • CK — for rhabdomyolysis
  • Chest radiograph — for pulmonary edema, ARDS
  • Salicylate, acetaminophen, ethanol levels — if intentional ingestion
  • Phosphine levels are not routinely available or clinically useful in acute management
  • Echocardiography — to assess myocardial function if hemodynamically unstable

Diagnosis

  • Clinical: history of rodenticide ingestion + GI symptoms + metabolic acidosis + cardiovascular collapse
  • Radiopaque material on abdominal X-ray in the setting of rodenticide ingestion is highly suggestive
  • Garlic or decaying fish odor to breath/vomitus is a classic but unreliable finding
  • Patients with positive abdominal X-ray are at higher risk for sudden deterioration even if asymptomatic[6]

Management

No specific antidote exists. Treatment is supportive with GI decontamination and organ support.[1]

GI decontamination

  • Gastric lavage with coconut oil (200 mL) + sodium bicarbonate (NaHCO₃ 7.5%, 50 mL):[1]
    • Coconut oil forms a protective mucosal layer and may reduce phosphine liberation
    • Bicarbonate decreases gastric acid–driven conversion of phosphide to phosphine
    • Do NOT use water for lavage — water promotes phosphine gas formation
    • Alternative lavage solutions: potassium permanganate (1:10,000), liquid paraffin, or olive oil
  • Activated charcoal (50 g) — may reduce absorption; administer after lavage[4]
  • Whole-bowel irrigation with polyethylene glycol (PEG) — if radiopaque material visible beyond the stomach on X-ray
    • Some authors caution that PEG's water base could promote phosphine release; castor oil is an alternative for bowel evacuation[9]
  • Repeat abdominal X-rays to confirm clearance of all radiopaque material

Cardiovascular support

  • Aggressive IV fluid resuscitation
  • Vasopressors (norepinephrine, dopamine) for refractory hypotension
  • Continuous cardiac monitoring (sudden cardiac arrest may occur in asymptomatic patients)[7]
  • Hyperinsulinemia-euglycemia therapy (HIE): case reports suggest benefit in refractory cardiogenic shock[1]
    • Insulin loading dose 1 IU/kg/h, maintenance 1-7 IU/kg/h; dextrose infusion to maintain euglycemia
  • Intravenous lipid emulsion (ILE) — case reports of use for refractory shock; mechanism unclear[1]

Magnesium sulfate

  • IV magnesium sulfate — membrane stabilizer and antioxidant; case-control studies suggest mortality reduction >50%[1]
  • Multiple regimens described; one common protocol: 1 g/hour for 24 hours, then 1 g every 6 hours for 5-7 days
  • Monitor serum magnesium; avoid toxicity (loss of deep tendon reflexes, respiratory depression)

Antioxidant therapy

  • N-acetylcysteine (NAC): loading dose 140 mg/kg, maintenance 70 mg/kg for 17 doses — hepatoprotective, replenishes glutathione[1]
  • Vitamin C: 1 g IV q8h for the first 24 hours (antioxidant; limited evidence)
  • Vitamin E: 100 IU q12h for 72 hours (antioxidant; limited evidence)
  • Alpha-lipoic acid: iron chelation and antioxidant properties; case report of use in combination therapy[10]

Metabolic acidosis

  • Correct with IV sodium bicarbonate as needed
  • Refractory acidosis is a poor prognostic sign
  • Treat underlying cause (tissue hypoperfusion)

Organ failure management

  • Hepatic failure: supportive; vitamin K, FFP for coagulopathy; liver transplant if fulminant[8]
  • Acute kidney injury: hemodialysis for standard indications (uremia, hyperkalemia, volume overload, refractory acidosis)
    • Hemodialysis does not effectively remove phosphine
  • Methemoglobinemia: Methylene blue 1-2 mg/kg IV if symptomatic
  • Intubation and mechanical ventilation for respiratory failure/pulmonary edema

Disposition

  • All patients with confirmed or suspected zinc phosphide ingestion must be admitted — even if initially asymptomatic[7]
  • ICU admission for all significant ingestions — continuous cardiac monitoring is mandatory
  • Monitoring period: minimum 72 hours; risk of cardiovascular collapse greatest in first 24-48 hours but delayed hepatic failure may occur through the first week[8]
  • Serial ABGs, LFTs, coagulation studies, renal function, and ECGs every 6-12 hours
  • Serial abdominal X-rays until all radiopaque material has cleared
  • Prognosis is worse with:[4]
    • Large ingested volume
    • Delayed presentation to hospital
    • Metabolic acidosis or elevated lactate at presentation
    • Hypotension, tachycardia, or tachypnea on arrival
    • Hyperkalemia, hypoglycemia
    • Acute kidney injury, need for vasopressors or intubation
  • All intentional ingestions: psychiatric evaluation mandatory prior to discharge
  • Contact Poison control (1-800-222-1222 in the US) for all cases

See Also

External Links

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 Arroyo-Arcos CR, et al. Zinc Phosphide Poisoning: From A to Z. Toxics. 2023;11(7):555. doi:10.3390/toxics11070555
  2. Dogan E, Güzel A, Ciftçi T, et al. Zinc Phosphide Poisoning. Case Rep Crit Care. 2014;2014:589712. doi:10.1155/2014/589712
  3. 3.0 3.1 3.2 Zinc Phosphide Technical Fact Sheet. National Pesticide Information Center (NPIC). Oregon State University.
  4. 4.0 4.1 4.2 4.3 4.4 4.5 Trakulsrichai S, et al. Clinical characteristics of zinc phosphide poisoning in Thailand. Ther Clin Risk Manag. 2017;13:335-340. doi:10.2147/TCRM.S129610
  5. Proudfoot AT. Aluminium and zinc phosphide poisoning. Clin Toxicol (Phila). 2009;47(2):89-100. doi:10.1080/15563650802016425
  6. 6.0 6.1 6.2 Hassanian-Moghaddam H, Shahnazi M, Zamani N, Bahrami-Motlagh H. Abdominal imaging in zinc phosphide poisoning. Emerg Radiol. 2014;21(3):329-331. doi:10.1007/s10140-014-1195-3
  7. 7.0 7.1 7.2 Parhizgar P, et al. Sudden Cardiac Arrest in an Asymptomatic Zinc Phosphide-Poisoned Patient: A Case Report. Cardiovasc Toxicol. 2020;20(5):525-530. doi:10.1007/s12012-020-09578-2
  8. 8.0 8.1 8.2 Saraf V, et al. Acute liver failure due to zinc phosphide containing rodenticide poisoning: clinical features and prognostic indicators of need for liver transplantation. Indian J Gastroenterol. 2015;34(4):325-329. doi:10.1007/s12664-015-0583-2
  9. Shakoori V, et al. Successful management of zinc phosphide poisoning. Indian J Crit Care Med. 2016;20(6):368-370. doi:10.4103/0972-5229.183907
  10. Takacs A, et al. Successful management of zinc phosphide poisoning — a Hungarian case. Int J Emerg Med. 2020;13:51. doi:10.1186/s12245-020-00307-8
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