Severe ethanol intoxication in an adolescent

Ethanol Content of Medications and Its Effect on Blood Alcohol Concentration in Pediatric Patients

OBJECTIVE

Ethanol is a common excipient used in liquid medications to enhance solubility and inhibit -bacterial growth. While the US Food and Drug Administration (FDA) and European Medicines Agency (EMA) have released guidance for how much ethanol is acceptable in medicines, many medications contain more than the recommended amount. The objective of this study was to determine what effect these medications would have on blood alcohol concentration (BAC) for pediatric patients, defined as those medications that would increase the BAC by ≥2.5 mg/dL.

METHODS

A list of medications dispensed to pediatric patients from a single hospital over a period of 4 months was obtained. The package inserts of these medications were reviewed to determine ethanol content. Typical doses were used to determine the amount of ethanol pediatric patients weighing 10, 20, and 40 kg would receive. The theoretical BAC was then calculated for each medication containing ethanol.

RESULTS

Seven hundred ninety-six medications were dispensed for pediatric patients during the study period, of which 33 contained ethanol. Seven medications would be projected to increase the BAC above 2.5 mg/dL with a normal pediatric dose.

CONCLUSION

While most medications do not contain ethanol, we found 7 that contained enough ethanol to potentially raise the BAC above 2.5 mg/dL. Health care practitioners should consider the ethanol content of medications prior to recommending them in children and when assessing overdoses.

Severe Ethanol Poisoning Among United States College Fraternity Pledges

Hazing is a longstanding tradition in university and college fraternities. This practice often uses alcohol as a penalty during hazing rituals, resulting in severe ethanol poisoning and even death among pledges. Typically, the serum ethanol levels in these poisoned students are extremely high. Preventing severe ethanol poisoning is crucial, and can be achieved through education about the harms of these hazing activities. Hemodialysis is an effective treatment for severe ethanol poisoning as it removes the excess alcohol in a timely manner.

Extracorporeal treatment for ethylene glycol poisoning: systematic review and recommendations from the EXTRIP workgroup

Ethylene glycol (EG) is metabolized into glycolate and oxalate and may cause metabolic acidemia, neurotoxicity, acute kidney injury (AKI), and death. Historically, treatment of EG toxicity included supportive care, correction of acid-base disturbances and antidotes (ethanol or fomepizole), and extracorporeal treatments (ECTRs), such as hemodialysis. With the wider availability of fomepizole, the indications for ECTRs in EG poisoning are debated. We conducted systematic reviews of the literature following published EXTRIP methods to determine the utility of ECTRs in the management of EG toxicity. The quality of the evidence and the strength of recommendations, either strong ("we recommend") or weak/conditional ("we suggest"), were graded according to the GRADE approach. A total of 226 articles met inclusion criteria. EG was assessed as dialyzable by intermittent hemodialysis (level of evidence = B) as was glycolate (Level of evidence = C). Clinical data were available for analysis on 446 patients, in whom overall mortality was 18.7%. In the subgroup of patients with a glycolate concentration ≤ 12 mmol/L (or anion gap ≤ 28 mmol/L), mortality was 3.6%; in this subgroup, outcomes in patients receiving ECTR were not better than in those who did not receive ECTR. The EXTRIP workgroup made the following recommendations for the use of ECTR in addition to supportive care over supportive care alone in the management of EG poisoning (very low quality of evidence for all recommendations): i) Suggest ECTR if fomepizole is used and EG concentration > 50 mmol/L OR osmol gap > 50; or ii) Recommend ECTR if ethanol is used and EG concentration > 50 mmol/L OR osmol gap > 50; or iii) Recommend ECTR if glycolate concentration is > 12 mmol/L or anion gap > 27 mmol/L; or iv) Suggest ECTR if glycolate concentration 8-12 mmol/L or anion gap 23-27 mmol/L; or v) Recommend ECTR if there are severe clinical features (coma, seizures, or AKI). In most settings, the workgroup recommends using intermittent hemodialysis over other ECTRs. If intermittent hemodialysis is not available, CKRT is recommended over other types of ECTR. Cessation of ECTR is recommended once the anion gap is < 18 mmol/L or suggested if EG concentration is < 4 mmol/L. The dosage of antidotes (fomepizole or ethanol) needs to be adjusted during ECTR.

Acute Hemodialysis for Treatment of Severe Ethanol Intoxication

A male college student presented to the emergency department with altered mental status and a serum ethanol level higher than the hospital laboratory assay. His course was complicated by mechanical ventilation, vasopressors, and cardiotoxicity. Thirteen hours into admission and despite aggressive supportive measures, the patient remained obtunded off sedation with serum ethanol level elevated at 428 mg/dL. A decision was made to initiate hemodialysis to expedite ethanol clearance and prevent further end-organ damage. Two hours into hemodialysis, mental status improved and serum ethanol level had decreased to 264 mg/dL. A total of 4 hours of hemodialysis were completed and serum ethanol level continued to downtrend. Dialysis increased the rate of ethanol elimination by a factor of 4 and prevented further cardiotoxicity or electrolyte level abnormalities. This case supports the use of hemodialysis for adult patients who meet the criteria of severe ethanol toxicity requiring critical care resources and having evidence of organ toxicity to 1 or more organ.

Acute obtundation in a 9-month-old patient: ethanol ingestion

Alcohol ingestion in the pediatric patient can be life threatening. Younger patients consume larger volumes per body weight with accidental ingestions, and children have more serious adverse effects at lower blood alcohol levels. Complications of alcohol poisoning can include hypothermia, hypoglycemia, seizures, coma, and death. We present the course of a 9-month-old female infant who became unresponsive at home and presented to the emergency department comatose. When her blood alcohol level registered 489 mg/dL, it was revealed that she had accidentally been given a bottle of formula mixed with vodka rather than water. The infant required intubation for severely depressed level of consciousness and aggressive fluid resuscitation for hemodynamic instability. She had a peak lactate level of 24 mmol/L and a peak blood alcohol level of 524 mg/dL. Based on the severity of her initial presentation, preparations were made for hemodialysis. The infant responded to supportive measures including mechanical ventilation, fluids, and dextrose, and hemodialysis was not necessary. Her alcohol clearance followed zero-order kinetics at an average rate of 28.6 mg/dL per hour over 15.5 hours from her peak level of 524 mg/dL to the lowest measured value of 80 mg/dL. The kinetics of ethanol clearance at this level of toxicity, which is the highest reported in an infant to date, enhance our knowledge of ethanol metabolism and will assist in management decisions in cases of severe intoxication.

The rising incidence of intentional ingestion of ethanol-containing hand sanitizers

OBJECTIVE

To describe a case of intentional ingestion of hand sanitizer in our hospital and to review published cases and those reported to the American Association of Poison Control Centers' National Poison Data System.

DESIGN

A case report, a literature review of published cases, and a query of the National Poison Data System.

SETTING

Medical intensive care unit.

PATIENT

Seventeen-yr-old male 37-kg with an intentional ingestion of a hand sanitizer product into his gastrostomy tube.

INTERVENTIONS

Intubation, ventilation, and hemodialysis.

MEASUREMENTS AND MAIN RESULTS

Incidence and outcome of reported cases of unintentional and intentional ethanol containing-hand sanitizer ingestion in the United States from 2005 through 2009. A literature search found 14 detailed case reports of intentional alcohol-based hand sanitizer ingestions with one death. From 2005 to 2009, the National Poison Data System received reports of 68,712 exposures to 96 ethanol-based hand sanitizers. The number of new cases increased by an average of 1,894 (95% confidence interval [CI] 1266-2521) cases per year (p =.002). In 2005, the rate of exposures, per year, per million U.S. residents was 33.7 (95% CI 28.4-39.1); from 2005 to 2009, this rate increased on average by 5.87 per year (95% CI 3.70-8.04; p = .003). In 2005, the rate of intentional exposures, per year, per million U.S. residents, was 0.68 (95% CI 0.17-1.20); from 2005 to 2009, this rate increased on average by 0.32 per year (95% CI 0.11-0.53; p = .02).

CONCLUSIONS

The number of new cases per year of intentional hand sanitizer ingestion significantly increased during this 5-yr period. Although the majority of cases of hand sanitizer ingestion have a favorable outcome, 288 moderate and 12 major medical outcomes were reported in this National Poison Data System cohort. Increased awareness of the risks associated with intentional ingestion is warranted, particularly among healthcare providers caring for persons with a history of substance abuse, risk-taking behavior, or suicidal ideation.

Estimated blood alcohol concentrations for child and adolescent drinking and their implications for screening instruments

OBJECTIVE

Blood alcohol concentrations (BACs) in children after consumption of different numbers of standard drinks of alcohol have not been estimated previously. The goal was to determine the number of drinks at each age that led to a BAC of > or =80 mg/dL, the National Institute on Alcohol Abuse and Alcoholism criterion for binge drinking.

METHODS

The updated Widmark equation to estimate BAC was modified to take account of the differing body composition (total body water) and accelerated rates of ethanol elimination of children. The modified formula was used with 1999-2002 National Health and Nutrition Examination Survey data to estimate BACs for >4700 children and adolescents from 9 through 17 years of age, for intake levels of 1 to 5 standard drinks.

RESULTS

The estimated BACs for children after consumption of just 3 standard drinks within a 2-hour period were between 80 and 139 mg/dL for boys 9 to 13 years of age and for girls 9 to 17 years of age, indicating substantial potential alcohol impairment. With 5 drinks within 2 hours (the level used to define binge drinking among college students), children 9 to 13 years of age were estimated to have BACs 2 to 3 times the adult legal limit for intoxication of 80 mg/dL.

CONCLUSION

Binge drinking should be defined as > or =3 drinks for 9- to 13-year-old children, as > or =4 drinks for boys and > or =3 drinks for girls 14 or 15 years of age, and as > or =5 drinks for boys and > or =3 drinks for girls 16 or 17 years of age.

First-order alcohol elimination in severe alcohol intoxication in an adolescent: a case report

We report a case of severe ethanol intoxications in a 14-year-old boy whose starting blood alcohol concentration was 490 mg/dL. The intoxication led to coma with hypoventilation, hypoxemia, hypothermia, and a life-threatening situation. Elimination of ethanol followed nonlinear first-order concentration-dependent pharmacokinetics. Fluid balance was disturbed because of marked diuresis, and respirator treatment was needed. The treatment of fluid balance and the risk of hypoxemia in severe alcohol poisoning are emphasized.

Effects of ethanol on calcium homeostasis in the nervous system: implications for astrocytes

Ethanol is a major health concern, with neurotoxicity occurring after both in utero exposure and adult alcohol abuse. Despite a large amount of research, the mechanism(s) underlying the neurotoxicity of ethanol remain unknown. One of the cellular aspects that has been investigated in relationship to the neuroteratogenicity and neurotoxicity of ethanol is the maintenance of calcium homeostasis. Studies in neuronal cells and other cells have shown that ethanol can alter intracellular calcium levels and affect voltage and receptor-operated calcium channels, as well as G protein-mediated calcium responses. Despite increasing evidence of the important roles of glial cells in the nervous systems, few studies exist on the potential effects of ethanol on calcium homeostasis in these cells. This brief review discusses a number of reported effects of alcohol on calcium responses that may be relevant to astrocytes' functions.