Plasma arginine metabolites in health and chronic kidney disease.

BACKGROUND: Elevated plasma asymmetric and symmetric dimethylarginine (ADMA and SDMA) are risk factors for chronic kidney disease (CKD) and cardiovascular disease. Using plasma cystatin C (pCYSC)-based estimated glomerular filtration rate (eGFR) trajectories, we identified a cohort at high risk of poor kidney-related health outcomes amongst members of the Dunedin Multidisciplinary Health and Development Study (DMHDS). We therefore examined associations between methylarginine metabolites and kidney function in this cohort. METHODS: ADMA, SDMA, L-arginine and L-citrulline were measured in plasma samples from 45-year-olds in the DMHDS cohort by liquid chromatography-tandem mass spectrometry. RESULTS: In a healthy DMHDS subset (n = 376), mean concentrations were: ADMA (0.40 ± 0.06 µmol/L), SDMA (0.42 ± 0.06 µmol/L), L-arginine (93.5 ± 23.1 µmol/L) and L-citrulline (24.0 ± 5.4 µmol/L). In the total cohort (n = 857), SDMA correlated positively with serum creatinine (Pearson's r = 0.55) and pCYSC (r = 0.55), and negatively with eGFR (r = 0.52). A separate cohort of 38 patients with stage 3-4 CKD (eGFR 15-60 mL/min/1.73 m2) confirmed significantly higher mean ADMA (0.61 ± 0.11 µmol/L), SDMA (0.65 ± 0.25 µmol/L) and L-citrulline (42.7 ± 11.8 µmol/L) concentrations. DMHDS members classified as high-risk of poor kidney health outcomes had significantly higher mean concentrations of all four metabolites compared with individuals not at risk. ADMA and SDMA individually predicted high-risk of poor kidney health outcomes with areas under the ROC curves (AUCs) of 0.83 and 0.84, and together with an AUC of 0.90. CONCLUSIONS: Plasma methylarginine concentrations facilitate stratification for risk of CKD progression.

Acetaminophen Metabolites on Presentation Following an Acute Acetaminophen Overdose (ATOM-7).

Acetaminophen (APAP) is commonly taken in overdose and can cause acute liver injury via the toxic metabolite NAPQI formed by cytochrome (CYP) P450 pathway. We aimed to evaluate the concentrations of APAP metabolites on presentation following an acute APAP poisoning and whether these predicted the subsequent onset of hepatotoxicity (peak alanine aminotransferase > 1,000 U/L). The Australian Toxicology Monitoring (ATOM) study is a prospective observational study, recruiting via two poison information centers and four toxicology units. Patients following an acute APAP ingestion presenting < 24 hours post-ingestion were recruited. Initial samples were analyzed for APAP metabolites, those measured were the nontoxic glucuronide (APAP-Glu) and sulfate (APAP-Sul) conjugates and NAPQI (toxic metabolite) conjugates APAP-cysteine (APAP-Cys) and APAP-mercapturate (APAP-Mer). The primary outcome was hepatotoxicity. In this study, 200 patients were included, with a median ingested dose of 20 g, 191 received acetylcysteine at median time of 5.8 hours post-ingestion. Twenty-six patients developed hepatotoxicity, one had hepatotoxicity on arrival (excluded from analysis). Those who developed hepatotoxicity had significantly higher total CYP metabolite concentrations: (36.8 µmol/L interquartile range (IQR): 27.8-51.7 vs. 10.8 µmol/L IQR: 6.9-19.5) and these were a greater proportion of total metabolites (5.4%, IQR: 3.8-7.7) vs. 1.7%, IQR: 1.3-2.6, P < 0.001)]. Furthermore, those who developed hepatotoxicity had lower APAP-Sul concentrations (49.1 µmol/L, IQR: 24.7-72.2 vs. 78.7 µmol/L, IQR: 53.6-116.4) and lower percentage of APAP-Sul (6.3%, IQR: 4.6-10.9 vs. 13.1%, IQR, 9.1-20.8, P < 0.001)]. This study found that those who developed hepatotoxicity had higher APAP metabolites derived from CYP pathway and lower sulfation metabolite on presentation. APAP metabolites may be utilized in the future to identify patients who could benefit from increased acetylcysteine or newer adjunct or research therapies.

Delayed Acetaminophen Absorption Resulting in Acute Liver Failure.

Introduction. Acetaminophen is a common medication involved in deliberate and accidental self-poisoning. The acetaminophen treatment nomogram is used to guide acetylcysteine treatment. It is rare to develop hepatotoxicity with an initial acetaminophen concentration below the nomogram line. We present a case of acetaminophen ingestion with an initial concentration below the nomogram line that developed hepatic failure, due to a delayed peak acetaminophen concentration secondary to coingesting medications that slow gastric emptying. Case Report. A 43-year-old (55 kg) female presented after ingesting an unknown quantity of acetaminophen, clonidine, and alcohol. Her acetaminophen level was 41 mg/L (256 µmol/L) at 4.5 h post-ingestion, well below the nomogram line, and ALT was 25 U/L. Hence, acetylcysteine was not commenced. She was intubated for decreased level of conscious. A repeat acetaminophen level 4 h later was 39 mg/L (242 µmol/L), still below the nomogram line. She was extubated 24 h later.At 38 h post-ingestion she developed abdominal pain, the repeat acetaminophen level was 85 mg/L (560 µmol/L), ALT was 489 U/L, and acetylcysteine was commenced. The patient developed hepatic failure with a peak ALT of 7009 U/L and INR of 7.5 but made a full recovery. It was discovered that she had ingested a combination acetaminophen product containing dextromethorphan and chlorphenamine. Acetaminophen metabolites were measured, including nontoxic glucuronide and sulfate conjugates and toxic cytochrome P450 (CYP) metabolites. The metabolite data demonstrated increasing CYP metabolites in occurrence with the delayed acetaminophen peak concentration. Discussion. Opioids and antimuscarinic agents are known to delay gastric emptying and clonidine may also have contributed. These coingested medications resulted in delayed acetaminophen absorption. This case highlights the issue of altered pharmacokinetics when patients coingest gut slowing agents.

Hepatotoxicity in a child following an accidental overdose of liquid paracetamol.

Introduction: Accidental pediatric liquid paracetamol exposure is common. Most children do not require treatment with acetylcysteine and acute liver injury is rare.Case report: An otherwise well 3-year-old (15.4 kg) girl with recent vomiting and low-grade fever presented 1 h post-accidental ingestion of up to 150 mL of 24 mg/mL (240 mg/kg) of liquid paracetamol. Paracetamol concentrations 2 and 4 h post-ingestion were 105 and 97 mg/L, respectively, both below the nomogram treatment threshold so acetylcysteine was not administered. The ALT was elevated to 52 U/L 4 h post-ingestion, and then 219 U/L at 17 h, so intravenous acetylcysteine was commenced at 25 h. ALT peaked at 1393 U/L 5d post-ingestion, and INR peaked at 1.5 at 44 h post-ingestion. Acetylcysteine continued for 64 h and she made an uneventful recovery. Paracetamol metabolites were measured including, nontoxic glucuronide and sulphate conjugates and toxic cytochrome P450 (CYP) metabolites (cysteine and mercapturate). The apparent paracetamol half-life was 6.3 h. Her CYP metabolites were higher than usual, 11% of total metabolites. Glucuronide and sulphate conjugates accounted for 71 and 18% of total metabolites, respectively.Conclusion: This uncommon case of hepatotoxicity in a child following accidental liquid paracetamol ingestion may have been due to increased susceptibility from a recent viral illness with decreased oral intake, as evidenced by the higher proportion of CYP metabolites.

A case of accidental neonatal paracetamol overdose with prolonged half-life and measured metabolites.

Introduction: Limited data exist regarding paracetamol metabolism after overdose in the neonate. We report a case of repeated supratherapeutic overdose in a neonate with paracetamol metabolite concentrations.Case report: A 10-day-old male neonate presented to hospital after repeated supratherapeutic dosing of paracetamol. Paracetamol concentration 19.5 h post-last dose was 381 µmol/L and 236 µmol/L, 9 h later. Initial alanine aminotransferase (ALT) was normal (18 IU/L) and total bilirubin was 262 µmol/L (N < 300). Acetylcysteine infusion was commenced and ceased 27 h later, when serum paracetamol was undetectable and alanine aminotransferase remained normal.Initial paracetamol elimination half-life was 14.5 h. Analysis of serum paracetamol metabolites showed paracetamol-glucuronide was the major metabolite on presentation (64%). After acetylcysteine was commenced, paracetamol concentration fell, serum bilirubin increased, and paracetamol-sulfate represented a larger proportion of total metabolites (72%). Notably, paracetamol cytochrome (CYP450), cysteine- and mercapturate-conjugates, represented 21% of total measured metabolites on presentation.Conclusion: Repeated supratherapeutic ingestion of paracetamol in the neonate was associated with prolonged elimination half-life. Of note, this was in the presence of unconjugated hyperbilirubinaemia. CYP450 metabolism of paracetamol did not appear to be reduced in this neonate when compared to paracetamol metabolite ratios in older age groups.