BACKGROUND: Diethylene glycol (DEG) is a well-known metabolic and renal toxin usually ingested accidentally as an ethanol substitute or as a contaminant in various medicinals. To date, most poisonings have occurred in third-world countries where early death from renal failure is very common. We report a series of seven patients presenting with epidemic DEG poisoning from a correctional facility with varying degrees of metabolic acidemia and acute renal impairment responding to emergent hemodialysis (HD). Significantly, three patients developed delayed neurologic toxicity which has not been well characterized in the past. CASE SERIES: Seven male patients (age range 19-55) presented over a 36 h period following ingestion of varying quantities of DEG. Initially three patients, ingesting the largest quantities of DEG, presented more than 24 h postingestion with severe metabolic acidemia (pH range 6.8-7.1) and anuric acute renal failure requiring HD. All three remained dialysis-dependent and developed significant cranial neuropathies with bulbar palsy in the second week postingestion. One patient died with cerebral oedema and a progressive encephalopathy. Two further patients presented within 24 h of ingestion with normal renal function and a moderate metabolic acidemia (pH range 7.2-7.28) requiring HD. They remained well. Finally, two further patients presented with a history of trivial DEG ingestion and did not require any therapy. Neurologic signs in the two surviving initial presenters improved over 4-6 months although they remained dialysis-dependent. CONCLUSION: Unrecognized DEG poisoning may present with metabolic acidemia and anuric acute renal failure. Established renal impairment may predict subsequent delayed neurologic toxicity.
BACKGROUND:Diethylene glycol (DEG) is a well-known metabolic and renal toxin usually ingested accidentally as an ethanol substitute or as a contaminant in various medicinals. To date, most poisonings have occurred in third-world countries where early death from renal failure is very common. We report a series of seven patients presenting with epidemic DEGpoisoning from a correctional facility with varying degrees of metabolic acidemia and acute renal impairment responding to emergent hemodialysis (HD). Significantly, three patients developed delayed neurologic toxicity which has not been well characterized in the past. CASE SERIES: Seven male patients (age range 19-55) presented over a 36 h period following ingestion of varying quantities of DEG. Initially three patients, ingesting the largest quantities of DEG, presented more than 24 h postingestion with severe metabolic acidemia (pH range 6.8-7.1) and anuric acute renal failure requiring HD. All three remained dialysis-dependent and developed significant cranial neuropathies with bulbar palsy in the second week postingestion. One patientdied with cerebral oedema and a progressive encephalopathy. Two further patients presented within 24 h of ingestion with normal renal function and a moderate metabolic acidemia (pH range 7.2-7.28) requiring HD. They remained well. Finally, two further patients presented with a history of trivial DEG ingestion and did not require any therapy. Neurologic signs in the two surviving initial presenters improved over 4-6 months although they remained dialysis-dependent. CONCLUSION: Unrecognized DEGpoisoning may present with metabolic acidemia and anuric acute renal failure. Established renal impairment may predict subsequent delayed neurologic toxicity.
Authors: Laura Conklin; James J Sejvar; Stephanie Kieszak; Raquel Sabogal; Carlos Sanchez; Dana Flanders; Felicia Tulloch; Gerardo Victoria; Giselle Rodriguez; Nestor Sosa; Michael A McGeehin; Joshua G Schier Journal: JAMA Intern Med Date: 2014-06 Impact factor: 21.873
Authors: E Danielle Rentz; Lauren Lewis; Oscar J Mujica; Dana B Barr; Joshua G Schier; Gayanga Weerasekera; Peter Kuklenyik; Michael McGeehin; John Osterloh; Jacob Wamsley; Washington Lum; Camilo Alleyne; Nestor Sosa; Jorge Motta; Carol Rubin Journal: Bull World Health Organ Date: 2008-10 Impact factor: 9.408
Authors: Courtney N Jamison; Robert D Dayton; Brian Latimer; Mary P McKinney; Hannah G Mitchell; Kenneth E McMartin Journal: Clin Toxicol (Phila) Date: 2021-01-21 Impact factor: 3.738