Urinary excretion of ipecac alkaloids in human volunteers.

Limited data are available regarding urinary excretion of ipecac alkaloids in humans. In this study, ipecac syrup was administered po to 12 healthy human volunteers at a dose of either 20 mL or 30 mL, and urinary excretions of cephaeline and emetine as well as blood and vomit concentrations were detected by HPLC. All participants showed vomiting after the 30 mL dose within 1 h, whereas 2/6 did not show vomiting within 4 h after the 20 mL dose. Percentage recovery of alkaloids in vomit were 39 +/- 38 or 76 +/- 14% after the 20 mL or 30 mL doses, respectively. In most participants, plasma alkaloids reached their maximum levels within I h and became undetectable after 6 h. Total excretions of ipecac alkaloids into the urine within the first 48 h were less than 2%, but both alkaloids were detectable in the urine at 2w in all participants and could be detected up to 12w in 1/2 participants who did not vomit. These results show that ipecac alkaloids may be detectable in urine several weeks after ingestion and suggest that their detection in urine may be helpful to identify the Munchausen syndrome by proxy using ipecac syrup.

Absorption, distribution and excretion of 3H-labeled cephaeline- and emetine-spiked ipecac syrup in rats.

The maximum plasma radioactivity levels of tritium (3H)-labeled cephaeline, (24.3, 28.7 and 40.6 ng eq./mL) were reached at 2.00-3.33 hours following oral dosing of ipecac syrup. The maximum plasma radioactivity levels of 3H-emetine (2.71, 6.47 and 9.62 ng eq./mL) were reached at 1.08-2.33 hours following ipecac syrup administration. The Cmax values of 3H-cephaeline were followed by a biexponential decrease with half-lives t 1/2(lambda z) of 3.45-9.40 hours. On the other hand, the t 1/2 (lambda z)of 3H-emetine were 65.4-163 hours, which revealed a biexponential decrease. The radioactivity of both tritium-labeled compounds was distrbuted maximally in most tissues at 24 hours. For 3H-cephaeline, the maximum radioactivity levels in tissues were approximately 100-150 times greater than in plasma. For 3H-emetine, the radioactivity levels in tissues were approximately 1000-3000 times greater than in plasma. Tissue radioactivity levels decreased at a substantially slower rate than that observed in plasma. Tissue radioactivity of 3H-emetine decreased more slowly than that of 3H-cephaeline. For 3H-cephaeline, the cumulative biliary excretion of radioactivity was 57.5% at 48 hours. The cumulative urinary and fecal excretion of radioactivity in these rats was 16.5% and 29.1%, respectively, of the dose at 48 hours following dosing. For 3H-emetine, the cumulative biliary excretion of radioactivity was 12.5% at 48 hours. The cumulative urinary and fecal excretion of radioactivity was 9.4% and 34.1%, respectively, of the administered dose at 48 hours. The radioactivity level of 3H-emetine remaining in the carcasses at 48 hours was equivalent to approximately 50% of the dose. A portion of each tritium-labeled compound was subjected to entero-hepatic circulation. Thus, the absorption rate of 3H-cephaeline and 3H-emetine was estimated to be approximately 70% on the basis of the data obtained from excretion studies. There was no difference in the absorption process between these two compounds. However, the difference was admitted in the biliary clearance, which is the main excretion route of both compounds. Delayed excretion of 3H-emetine may be primarily due to its resorption as related to entero-hepatic circulation and tissue retention. This study has determined the absorption, distribution and excretion of 3H-cephaeline and 3H-emetine in rats.

Biotransformation of the ipecac alkaloids cephaeline and emetine from ipecac syrup in rats.

The metabolism of cephaeline and emetine, which are the primary active components of ipecac syrup, were investigated in rats. Cephaeline-6'-O-glucuronide was found to be a biliary metabolite of cephaeline. Cephaeline (6'-O-demethylemetine) and 9-O-demethylemetine were observed to be enzyme-hydrolyzed biliary metabolites of emetine. Cephaeline was conjugated to glucuronide, while emetine was demethylated to cephaeline and 9-0-demethylemetine, and may be conjugated to glucuronides afterwards. Urine, feces and bile were collected from rats within 48 hours following the administration of ipecac syrup containing tritium (3H)--labeled cephaeline or emetine. Metabolites were separated and quantified by thin layer chromatography (TLC) or high-performance liquid chromatography (HPLC). Biliary and urinary excretion rates of 3H-cephaeline were 57.5% and 16.5% of the dose, respectively. Cephaeline-6'-O-glucuronide was comprised 79.5% of biliary radioactivity and 84.3% of urinary radioactivity. Unchanged cephaeline was detected in 42.4% of the dose in feces. Biliary excretion rate of 3H-emetine was 6.9% of the dose. Emetine, cephaeline and 9-0-demethylemetine comprised 5.8%, 43.2% and 13.6% in hydrolyzed bile, respectively. There were no emetine-derived metabolites in urine or feces. The occurrence of unchanged emetine was 6.8% and 19.7% of the dose in urine and feces, respectively.

Ipecac toxicity in "Munchausen syndrome by proxy".

The authors report a case that offers insight into the diagnostic challenges of "Munchausen Syndrome by Proxy." Initial presentation with history of fever and later with intractable vomiting led to invasive and expensive diagnostic evaluation before confirming the diagnosis. Certain toxic effects of emetine were clinically noted. Biochemical and clinical improvement were clearly demonstrated after withdrawal of the toxic agent.

Recurrent infantile vomiting due to intentional ipecac poisoning.

Recurrent vomiting is a common symptom in infancy that, when severe, may prompt an extensive diagnostic evaluation. We report a 1-year-old infant whose recurrent vomiting eluded diagnosis until ipecac syrup was detected in vomitus and urine. Separation of the infant from the mother resulted in complete resolution of the symptoms. In Munchausen syndrome by proxy, a disorder in which a mother fabricates or induces illness in her child, most reported fatalities are due to intentional poisoning. In atypical cases of recurrent vomiting, early screening of body fluids for unexpected drugs, particularly ipecac, may prevent potentially fatal delays in diagnosis.

Absorption of ipecac alkaloids in emergency patients.

Syrup of ipecac contains the nauseant alkaloids emetine and cephaeline. Although thousands of doses are given yearly, no data exist on the absorption of these alkaloids in man. We gave 30 mL of USP Syrup to ten adult patients. Blood and urine samples were obtained at approximately one-half and two hours after administration, and the entire volume of vomitus was saved. The samples were then analyzed for cephaeline and emetine by a high-performance liquid chromatographic (HPLC) assay developed in our laboratory. All patients vomited within 30 minutes, but the amounts of alkaloid regurgitated varied from 22 +/- 14% in six patients to 80 +/- 16% in the remaining four. Only six patients had emetine or cephaeline in their blood by two hours (range, 5 to 73 ng/mL), although ten patients had detectable concentrations of the alkaloids in their urine. Measured over two hours, no patient eliminated more than 0.5% of the dose by the urinary route. In our study ipecac was absorbed by all who received it; the extent of absorption varied widely, and elimination by the renal route was small.