Discussion

To our knowledge, this is the largest and most comprehensive meta-analysis of RCTs evaluating clozapine’s safety profile in patients with schizophrenia. The clinical implications of our findings are discussed regarding mortality, haematological complications, seizure risk, cardiovascular adverse events (including myocarditis and related symptoms) and gastrointestinal issues, which represent clinically significant safety concerns.

Our meta-analysis found no difference in mortality risk between clozapine and other antipsychotics (risk ratio 1.01, 95% CI: 0.50, 2.01). Large-scale observational studies have consistently shown a protective effect of clozapine on all-cause mortality. ^{Reference Taipale, Tanskanen, Mehtälä, Vattulainen, Correll and Tiihonen98,Reference Vermeulen, VanRooijen, VanDeKerkhof, Sutterland, Correll and De Haan99} This apparent discrepancy should be interpreted in light of the methodological differences between RCTs and observational studies. Observational data typically reflect long-term, real-world treatment trajectories; in contrast, most RCTs included in our analysis had relatively short follow-up periods (median duration 12 weeks) and were not specifically designed to assess rare outcomes, such as mortality. Furthermore, RCTs often apply strict inclusion criteria that may exclude higher-risk populations where clozapine’s potential mortality benefit could be more evident. Therefore, rather than contradicting observational findings, our results highlight the limitations of the available RCT evidence in assessing such outcomes.

Clozapine revealed an increased risk of agranulocytosis (risk ratio 2.81, 95% CI: 0.97, 8.12) compared with other antipsychotics, although the wide confidence interval indicates uncertainty regarding the exact estimate. Our analysis of 23 RCTs (N = 3247 total; 1549 clozapine-treated patients versus 1698 controls) showed an absolute agranulocytosis risk of 0.7% with clozapine – consistent with observational estimates that range between 0.4 and 1.4%. ^{Reference Northwood, Myles, Clark, Every-Palmer, Myles and Kisely100–102} Thus, while the relative risk is elevated the absolute risk is low. The interpretation requires caution given both the rare-event nature of agranulocytosis and potential surveillance bias in clinical practice, although 67.7% of included trials used double-blind methodology with standardised monitoring, minimising differential assessment between treatment arms.

Our analysis also corroborates the fact that clozapine’s effects on neutrophils appear binary ^{Reference Fernandez-Egea and McCutcheon103} : while it may lead to agranulocytosis, it does not increase the incidence of milder forms of neutropenia (Supplementary Fig. 14). Current monitoring protocols often capture cases of transient or mild neutropenia that may not require treatment discontinuation. For instance, transient neutropenia lasting 2–5 days and benign weekly variations in neutrophil count typically do not necessitate stopping clozapine. ^{Reference Fernandez-Egea and McCutcheon103}

In light of these, the FDA has updated its guidelines, replacing white blood cell (WBC) monitoring with ANC monitoring and lowering the threshold for treatment discontinuation from 1500/mm³ to 1000/mm³. ^{Reference Fernandez-Egea and McCutcheon103} Emerging European data similarly suggest that current haematological monitoring protocols may overestimate clozapine’s agranulocytosis risk, ^{Reference Oloyede, Bachmann, Dzahini, Lopez Alcaraz, Singh and Vallianatu104} prompting calls to revise and relax monitoring requirements. ^{Reference Fernandez-Egea and McCutcheon103} These updates reflect an evolving understanding of clozapine’s risk–benefit profile and aim to enhance patient access and avoid unnecessary treatment discontinuations.

In the analysis of monotherapy trials, all RCTs involved patients initiating antipsychotic treatment – a period known to be associated with the highest risk of agranulocytosis for clozapine, and possibly for other antipsychotics as well. This risk for clozapine decreases substantially over time, becoming significantly lower after 2–3 years of continuous treatment. ^{Reference Fernandez-Egea and McCutcheon103} Thus, long-term clozapine use, when carefully managed, may carry a lower risk than is commonly perceived. Our review of clozapine combination RCTs, which involved participants on clozapine maintenance therapy (median clozapine treatment duration at study entry, 6 months), reported no cases of agranulocytosis in either group (clozapine monotherapy versus clozapine combined with another drug).

The risk of seizures was more than tripled compared with that for other antipsychotics, consistent with findings from prior studies. ^{Reference Wu, Wang, Yeh and Liu105,106} Monitoring plasma concentrations is crucial, especially because levels above 1000 ng/mL are associated with higher risk. ^{Reference Hatano, Yamada, Matsuzaki, Yokoi, Saito and Yamada107} Prophylactic anti-epileptic therapy and minimisation of polypharmacy could help mitigate seizures, particularly in high-risk patients. ^{Reference Hatano, Yamada, Matsuzaki, Yokoi, Saito and Yamada107} However, our review of clozapine combination RCTs revealed no incidence of seizure in either group, with a median clozapine dose of 397 mg/day (range 300–503) in the augmentation group and 362.2 mg/day (range 290.6–533.3) in the monotherapy group. Nevertheless, only 8 studies provided relevant data and the sample size was relatively small (N = 313), which may have affected the reliability of these findings.

Myocarditis represents a rare but clinically important adverse effect of clozapine, ^{Reference Siskind, Sidhu, Cross, Chua, Myles and Cohen108} although its diagnosis remains challenging due to substantial overlap with common clozapine-related side-effects including tachycardia, fever and flu-like symptoms – manifestations that may also reflect the drug’s haematological complications or immunoinflammatory effects. ^{Reference Martins, Moura, Mendes, Ribeiro, Arnaud and Gama109,Reference Verdoux, Quiles and De Leon110} While biomarkers (troponin, C-reactive protein [CRP]) and clinical assessment can support early detection, definitive diagnosis often requires cardiac imaging ^{Reference Ronaldson, Taylor, Fitzgerald, Topliss, Elsik and McNeil111,Reference Ronaldson, Fitzgerald and McNeil112} because the gold-standard endomyocardial biopsy is rarely feasible in clinical practice. ^{Reference Bellissima and Tingle113} Our meta-analysis found no significant difference in myocarditis risk between clozapine and other antipsychotics, although this finding requires cautious interpretation given limited data and the increased clozapine risk of fever (Mantel–Haenszel risk ratio 2.39, 95% CI: 1.50, 3.83) and tachycardia (Mantel–Haenszel risk ratio 2.10, 95% CI: 1.62, 2.74) that may mimic or obscure cardiac pathology. Diagnostic uncertainty leads to frequent misattribution ^{Reference Knoph, Morgan, Palmer, Schak, Owen and Leloux114} – one case series found that two-thirds of suspected clozapine-induced myocarditis cases were probably misdiagnosed when reviewed retrospectively, often due to concurrent viral illnesses or insufficient diagnostic evidence. ^{Reference Richardson, Greenway and Bousman115} Most true cases emerge within the first treatment month, ^{Reference De Las Cuevas, Sanz, Ruan and De Leon116} highlighting a critical monitoring window where heightened clinical vigilance is warranted despite these diagnostic challenges. In light of these diagnostic complexities, a recent Delphi study ¹¹⁷ incorporating multidisciplinary expert input proposed refined monitoring protocols that emphasise slow clozapine titration, and systematic use of hs-troponin and CRP testing, during the high-risk initial weeks. The consensus underscored the value of cardiac imaging – preferably echocardiography or cardiac magnetic resonance imaging – for confirmation of suspected cases, aiming to reduce both under- and overdiagnosis. ¹¹⁷ These developments reflect a shift from reliance on case reports and expert opinion towards a more standardised, evidence-informed framework for early identification and safer rechallenge in selected patients. ¹¹⁷

The findings regarding gastrointestinal adverse effects revealed an increased risk of constipation (Mantel–Haenszel risk ratio 1.50, 95% CI: 1.09, 2.06), confirming findings from the existing literature. ^{Reference Shirazi, Stubbs, Gomez, Moore, Gaughran and Flanagan118,Reference Wagner, Siafis, Fernando, Falkai, Honer and Röh119} Clozapine-induced constipation may lead to ileus, bowel obstruction, ischaemic colitis, gastrointestinal necrosis or toxic megacolon, ^{Reference Shirazi, Stubbs, Gomez, Moore, Gaughran and Flanagan118} and the likelihood of these gastrointestinal adverse effects causing death is approximately tenfold more than that for severe neutropenia. ^{Reference Lam and Ip120} Ileus occurs after an average of 4 years of clozapine use and is more closely linked to the maintenance phase than to the initial period of treatment. ^{Reference Tomulescu, Uittenhove and Boukakiou121} In the present meta-analysis, only 1 case of ileus was reported after a mean exposure of 7.5 years. ^{Reference Nielsen, Emborg, Gydesen, Dybbro, Aagaard and Haderup97}

Several limitations should be considered when interpreting our findings. First, the predominance of short-duration trials (median duration 12 weeks) with a high risk of bias (particularly in selective reporting) yielded limited data for rare but critical adverse events. For example, myocarditis and ileus were reported in only a few RCTs, which limits the generalisability of these safety outcomes. Second, while differences in diagnostic characteristics (e.g. illness chronicity or treatment resistance status) could theoretically influence results, such clinical variables primarily affect efficacy outcomes and are unlikely to substantially modify clozapine’s adverse effect profile. Third, we observed substantial heterogeneity in outcome definitions and monitoring protocols across studies, which may have influenced the pooled effect estimates. Fourth, our post hoc comparison of combination therapy versus monotherapy, while clearly labelled as exploratory and analysed separately from protocol-defined outcomes, requires prospective validation. Finally, our selection of multiple primary outcomes based on regulatory safety priorities – although clinically justified – deviates from standard recommendations to limit primary outcomes in systematic reviews, and may have increased interpretive complexity.

In summary, our meta-analysis confirms clozapine’s elevated but rare risk of early-onset agranulocytosis and increased risk of seizures, constipation and other adverse effects. While these risks warrant vigilance, they must be balanced against clozapine’s unique benefits for treatment-resistant schizophrenia. Future research should clarify dose- and time-dependent risks in real-world settings to optimise clozapine’s risk–benefit profile.