Clozapine metabolism and cardiotoxicity: A prospective longitudinal study.

BACKGROUND: Clozapine-induced myocarditis and cardiomyopathy are difficult to detect clinically and may be fatal if not detected early. The current/routine biomarkers for clozapine-induced myocarditis are non-specific indicators of inflammation (C-reactive protein) or cardiomyocyte damage (troponins I and T) that lack sensitivity, and for which changes often arise too late to be clinically useful. METHODS: The Clozapine Safety Study was a prospective, longitudinal, observational study to determine what, if any, the plasma concentrations of clozapine, N-desmethylclozapine, and clozapine-N-oxide in patients contribute to cardiotoxicity. Samples were collected and analysed using liquid chromatography mass spectrometry over a 41-month period from patients in the Auckland District Health Board. RESULTS: Sixty-seven patients were included. Six patients were diagnosed with myocarditis; none were diagnosed with cardiomyopathy in the study period. In patients not undergoing dose titration, clozapine biotransformation may shift to the N-oxide pathway rather than the N-desmethyl pathway with increasing dose. During dose titration, the timeframe in which myocarditis occurs, the rate of increase in the plasma concentration of clozapine-N-oxide, as well as the ratio of N-oxidation relative to N-desmethylation, were significantly higher in patients diagnosed with myocarditis. CONCLUSIONS: The assessment of clozapine-N-oxide formation, and N-oxidation relative to N-desmethylation ratios during treatment, may help identify a biomarker to aid the early detection of patients at risk of developing clozapine-induced cardiotoxicity.

CYP-catalysed cycling of clozapine and clozapine-N-oxide promotes the generation of reactive oxygen species in vitro.

Clozapine is an effective atypical antipsychotic indicated for treatment-resistant schizophrenia, but is under-prescribed due to the risk of severe adverse drug reactions such as myocarditis.A mechanistic understanding of clozapine cardiotoxicity remains elusive.This study aimed to investigate the contribution of selected CYP isoforms to cycling between clozapine and its major circulating metabolites, N-desmethylclozapine and clozapine-N-oxide, with the potential for reactive species production.CYP supersome™-based in vitro techniques were utilised to quantify specific enzyme activity associated with clozapine, clozapine-N-oxide and N-desmethylclozapine metabolism.The formation of reactive species within each incubation were quantified, and known intermediates detected.CYP3A4 predominately catalysed clozapine-N-oxide formation from clozapine and was associated with concentration-dependent reactive species production, whereas isoforms favouring the N-desmethylclozapine pathway (CYP2C19 and CYP1A2) did not produce reactive species.Extrahepatic isoforms CYP2J2 and CYP1B1 were also associated with the formation of clozapine-N-oxide and N-desmethylclozapine but did not favour one metabolic pathway over another.Unique to this investigation is that various CYP isoforms catalyse clozapine-N-oxide reduction to clozapine.This process was associated with the concentration-dependent formation of reactive species with CYP3A4, CYP1B1 and CYP1A1 that did not correlate with known reactive intermediates, implicating metabolite cycling and reactive oxygen species in the mechanism of clozapine-induced toxicity.

Ethnic disparity in clozapine dosing and cardiotoxicity in New Zealand.

AIMS: To investigate ethnic disparities in the treatment and incidence of cardiotoxicity for patients prescribed clozapine in New Zealand. METHODS: A post hoc analysis was undertaken using data from four studies investigating clozapine cardiotoxicities in New Zealand: two population studies (one prospective, one retrospective) conducted in the Auckland District Health Board (2011-2017), and two studies of coronial autopsy records (2001-2016). The relationship between ethnicity and cases (N=26) of myocarditis and/or cardiomyopathy was examined in comparison to non-cases in the rest of the study population (N=161). Patient demographics, comorbidities, and risk factors were investigated for any associations with ethnicity, where data was available. RESULTS: Maori and Pacific patients were over-represented in the population studies. Moreover, across the cohorts investigated 46% of myocarditis and cardiomyopathy cases were Maori. In contrast, only one case (4%) of cardiomyopathy was identified in a patient of Pacific descent. Where clozapine titration data was available, the rate of dose escalation was higher in Maori and Pacific peoples, as was the cumulative dose received before the first case of cardiotoxicity (day 13 of dose titration). Maori patients were more likely to be co-medicated with sodium valproate than others during clozapine titration, and sodium valproate was also significantly associated with myocarditis in these patients. CONCLUSIONS: The factors underpinning the more rapid titration of Maori and Pacific patients onto clozapine and the increased use of concomitant sodium valproate in Maori are unclear. While the latter may explain the heightened risk of clozapine-induced myocarditis in Maori, further work is required to mitigate the effects of this inequity on the safe use of clozapine in New Zealand.

Incidence and investigation of potential risk-factors for clozapine-associated myocarditis and cardiomyopathy in a New Zealand cohort.

Clozapine is a uniquely effective antipsychotic indicated for treatment-resistant schizophrenia. However, its use is underutilised and often delayed for years due to potential adverse reactions including myocarditis and cardiomyopathy. The purpose of this study was to conduct a retrospective review of the clinical records of patients initiating clozapine in the Auckland District Health Board (ADHB) region to determine the incidence of clozapine-associated myocarditis and cardiomyopathy and to identify potential risk factors associated with these cardiotoxicities. The incidence of clozapine-associated myocarditis and cardiomyopathy over a two-year period in the ADHB region was 3.8% and 1.3% respectively.

Circulating microRNA as biomarkers of clozapine-induced cardiotoxicity.

Purpose: This work investigated the utility of circulating microRNA (miRNA) as biomarkers of clozapine (CLZ)-induced cardiotoxicities: serious adverse events with an unusually high incidence in Australia and New Zealand.Methods: Global plasma miRNA expression was analysed by microarray in patients taking CLZ, to investigate differential expression between CLZ-induced cardiotoxicity cases (n = 6) and matched control patients (n = 12). The results were validated by RT-qPCR using a panel of 17 miRNA, and their expression was examined in both CLZ-naïve healthy volunteers (n = 12) and an expanded cohort of CLZ-taking patients (n = 21). Temporal changes were also examined in two healthy volunteers and two CLZ-induced cardiotoxicity patients.Results: No miRNA were differentially expressed between cases of CLZ-induced cardiotoxicity and control patients. Circulating levels of several miRNA were significantly altered in CLZ-taking patients compared to healthy volunteers, with miR-16-5p, miR-25-3p, miR-92a-3p, miR-320a-3p, and miR-486-3p upregulated and miR-22-3p, miR-126-3p, and miR-142-3p downregulated in the patients. Five of these (miR-16-5p, miR-22-3p, miR-92a-3p, miR-126-3p, miR-142-3p) were stably expressed over time in both CLZ-induced cardiotoxicity patients and CLZ-naïve healthy volunteers.Conclusions: Plasma miRNA are not useful biomarkers of CLZ-induced cardiotoxicity, however patients taking CLZ have significantly altered circulating miRNA compared to healthy volunteers.

A systematic review of clozapine-induced myocarditis.

BACKGROUND: Clozapine is an atypical antipsychotic that is beneficial to some patients who failed to have an adequate clinical response to other antipsychotic drugs. Its clinical use is limited due to several potentially fatal adverse reactions including myocarditis. Careful monitoring of patients on clozapine is required. METHODS: We conducted a systematic review of the literature on myocarditis associated with clozapine therapy. The search engines used to identify cases were MEDLINE, EMBASE, PsycINFO and Cochrane reviews. The references included in the manuscripts reviewed were searched to identify additional reports. RESULTS: We identified a total of 3347 articles that addressed the cardiac complications of clozapine. Of these, 82 articles detailed cases of clozapine-induced myocarditis. The median age of patients and dose of clozapine at presentation was 30years and 250mg/day respectively. Symptoms and signs of myocarditis developed in 87% of patients within the first month of treatment. Clinical presentation included: shortness of breath (67%), fever (67%) and tachycardia (58%). Cardiac markers were elevated in 87% of the 54 cases that reported these markers. Global ventricular dysfunction was the predominant echocardiogram finding (57%). CONCLUSIONS: Patients on clozapine require routine monitoring for symptoms and signs of myocarditis during the first three months of therapy. This adverse drug reaction is difficult to diagnose due the non-specific nature of the symptoms and signs. Alternate causes of myocarditis should be ruled out before attributing the myocarditis to clozapine.

Use of Coronial Post-mortem Tissue for Research in New Zealand.

Forensic pathology is remarkably under-represented in research: considering the obstacles a researcher must overcome to obtain post-mortem tissue for research, it is perhaps not surprising. We are investigating whether there is any role for altered drug metabolism in potentially fatal clozapine-associated myocarditis and/or cardiomyopathy. As part of this research, the use of post-mortem tissue taken during a coronial autopsy from individuals who have died from, or with, these clozapine-associated cardiotoxicities was considered fundamental. Currently, there is no clear pathway for using coronial post-mortem tissue for research in New Zealand. We have worked through the Coroners Act 2006 NZ, the Human Tissue Act 2008 NZ and the medico-legal death investigation process in New Zealand to use coronial post-mortem tissue for research. The process to obtaining tissue(s) in New Zealand is probably representative of pathways in other coronial systems.