Comparative efficacy and tolerability of antidopaminergic and muscarinic
Summary
Comparative efficacy and tolerability of antidopaminergic and muscarinic antipsychotics for acute schizophrenia: a network meta-analysis of randomised controlled trials indexed in international English and Chinese databases The Lancet 2026 Articles Comparative efficacy and tolerability of antidopaminergic and muscarinic antipsychotics for acute schizophrenia: a network meta-analysis of randomised controlled trials indexed in international English and Chinese databases Johannes Schneider-Thoma, Y
Content
# Comparative efficacy and tolerability of antidopaminergic and muscarinic antipsychotics for acute schizophrenia: a network meta-analysis of randomised controlled trials indexed in international English and Chinese databases
*The Lancet 2026*
Articles
Comparative efficacy and tolerability of antidopaminergic
and muscarinic antipsychotics for acute schizophrenia:
a network meta-analysis of randomised controlled trials
indexed in international English and Chinese databases
Johannes Schneider-Thoma*, Yikang Zhu*, Mengchang Qin, Yu Dong, Shiwei Guan, Jiaxi Wang, Jing Tian, Xiao Lin, Alessandro Rodolico,
Spyridon Siafis, Irene Bighelli, Melanie Wehner, Christina Veith, Felix Krayer, Elfriede Scheuring, John M Davis, Josef Priller, Adriani Nikolakopoulou,
Georgia Salanti, Chunbo Li†, Stefan Leucht†
Summary
Lancet 2026; 407: 876–91 Background Antipsychotic drugs are the established treatment for acute schizophrenia but dier in receptor-binding
See Comment page 829 profiles. In 2024, a new-in-class muscarinic receptor agonist (xanomeline–trospium) was licenced, acting upstream of
antidopaminergic agents, and providing hope to decrease the adverse eects burden of antipsychotics. We aimed to
*Joint first authors
compare the ecacy and tolerability of antipsychotics by performing network meta-analysis of randomised controlled
†Joint last authors
trials (RCTs).
Technical University of Munich,
TUM School of Medicine and
Health, TUM University Methods This systematic review (PROSPERO, CRD42022380708) included blinded and open RCTs investigating
Hospital Rechts der Isar, antipsychotic drugs in participants of any age with acute psychotic symptoms of schizophrenia over 3 weeks to
Department of Psychiatry and
3 months. Included antipsychotics comprised 23 primarily dopamine-receptor blocking medications and the
Psychotherapy, Munich,
Germany muscarinic receptor agonist xanomeline–trospium in dierent applications. We searched Cochrane Schizophrenia
(J Schneider-Thoma MD, M Qin, group’s register, previous reviews, and five Chinese databases for trials published from database inception until
J Tian, X Lin, A Rodolico PhD,
July 26, 2024 and contacted authors to assess trials’ methodological quality; only trials with appropriate randomisation
S Siafis MD, I Bighelli PhD,
indicated were included. The primary outcome was rating scale-measured overall symptoms of schizophrenia
M Wehner, C Veith, F Krayer MSc,
Prof J Priller MD, S Leucht MD); (ecacy) analysed with random-eects frequentist network meta-analysis. Secondary outcomes comprised 32 further
German Center for Mental ecacy and tolerability outcomes. The confidence in the estimates was assessed using the Confidence in Network
Health (DZPG), partner site
Meta-Analysis approach.
München/Augsburg, Munich,
Germany (J Schneider-Thoma,
A Rodolico, S Siafis, I Bighelli, Findings After screening 18 859 references and contacting authors of 5428 trials, we included 438 RCTs. Of those,
Prof J Priller, S Leucht, M Qin, 388 RCTs with 78 193 participants (28 448 women and 49 745 men) provided usable data for at least one outcome.
J Tian, X Lin); Shanghai Key
5117 Chinese trials were identified but most were excluded because authors did not reply or reported serious
Laboratory of Psychotic
methodological concerns. 256 double-blind studies with 58 948 participants provided usable data for the primary
Disorders, Shanghai Mental
Health Centre, Shanghai Jiao outcome. All antipsychotics reduced symptoms more than placebo with standardised mean dierences ranging
Tong University School of from –0·90 (95% CI –1·03 to –0·77) to –0·23 (–0·39 to –0·06). Particularly clozapine, as well as amisulpride,
Medicine, Shanghai, China
olanzapine, and risperidone were more ecacious than at least three other antipsychotics (confidence in estimates
(Y Zhu MD, Y Dong, S Guan,
were low-to-moderate). Adverse eects varied across medications.
J Wang, Prof C Li MD); BASTA -
Bündnis für psychisch
erkrankte Menschen, Munich, Interpretation This network meta-analysis provides evidence for small-to-medium clinically relevant dierences
Germany (E Scheuring M. Ed.);
between antipsychotics in ecacy; this finding warrants stronger and more specific emphasis in clinical guidelines.
Psychiatric Institute, University
of Illinois Chicago, Chicago, IL, Nonetheless, important dierences in tolerability need to be considered for individualised drug choice, with partial
USA (Prof J M Davis MD); dopamine agonists having overall better tolerability and xanomeline–trospium lacking adverse eects of dopamine-
Department of Psychiatry, John blocking agents but resulting in cholinergic and anticholinergic adverse events. Future research should directly
Hopkins University, Baltimore,
compare xanomeline–trospium with other antipsychotics to confirm its ecacy; modern trials using clozapine early
MD, USA (Prof J M Davis);
Neuropsychiatry and in schizophrenia are needed to establish whether it improves outcomes and prevents chronification.
Laboratory of Molecular
Psychiatry, Charité – Funding German Research Foundation, German Ministry of Research, Technology and Space, and National Natural
Universitätsmedizin Berlin and
Science Foundation of China.
DZNE, Berlin, Germany
(Prof J Priller); University of
Edinburgh and UK DRI, Copyright © 2026 The Author(s). Published by Elsevier Ltd. This is an Open Access article under the CC BY 4.0
Edinburgh, UK (Prof J Priller); license.
Department of Hygiene, Social-
Preventive Medicine and
Medical Statistics, School of Introduction eects on serotonin, acetylcholine, histamine, and
Medicine, Aristotle University Multiple antipsychotics are available for schizophrenia norepinephrine receptors. Additionally, in 2024, the
of Thessaloniki, Thessaloniki, which act by the common mechanism of blocking first non-dopamine-centric but muscarinic compound,
Greece (A Nikolakopoulou PhD);
dopamine D2 receptors. However, they dier in their xanomeline–trospium, was licensed. In contrast to
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Articles
Institute of Medical Biometry
Research in context
and Statistics, Faculty of
Medicine and Medical Center-
Evidence before this study xanomeline–trospium), sexual adverse events, heart rate
University of Freiburg, Freiburg
Multiple antipsychotic medications with different receptor- abnormalities, reductions in white blood cell counts, and im Breisgau, Germany
binding profiles are licensed worldwide. As a particular novelty, seizures. (A Nikolakopoulou); Institute of
xanomeline–trospium, the first antipsychotic acting primarily Social and Preventive
For evidence-based medicine, incorporation of data from Medicine, University of Bern,
as a muscarinic receptor agonist instead as a dopamine
improperly randomised studies and unreliable data can lead to Bern, Switzerland
antagonist has been licensed in 2024. The resulting differences misleading meta-analytic results. Building on previous surveys, (G Salanti PhD); School of
in pharmacodynamic properties can lead to different efficacy Psychology, Shanghai Jiao Tong
we therefore contacted the trial authors to request details on
and side effects. University, Shanghai, China
the randomisation procedure. Here, our Chinese–German (Prof C Li)
We searched PubMed with the search term co-funded research collaboration had a particular focus on Correspondence to:
“(((antipsychotic[Title/Abstract]) AND (schizophrenia[Title/ studies indexed in Chinese databases due to their high number Prof Stefan Leucht, Technical
Abstract])) AND (network meta-analysis[Title/Abstract])) AND and potential impact on the meta-analysis. Only a small University of Munich, TUM
School of Medicine and Health,
((“2019/06/11”[Date - Entry] : “2025/05/13”[Date - Entry]))” proportion of those authors that answered our request
TUM University Hospital Rechts
but found no comprehensive systematic review after a network confirmed appropriate randomisation and authenticity leading der Isar, Department of
meta-analysis from 2019 which only searched for RCTs up to to the inclusion of only very few studies from China. Conversely, Psychiatry and Psychotherapy,
Jan 8, 2019 and was restricted to adult participants with chronic this result indicates that caution should be exercised when Munich 81675, Germany
Stefan.leucht@tum.de
schizophrenia and oral drug formulations. Differences in side interpreting results of meta-analyses indiscriminately including
effects were indicated, whereas differences in efficacy were studies indexed in Chinese databases.
mostly gradual and did not allow for clear statements.
Implications of all the available evidence
Numerous Chinese studies could have substantially increased
There are efficacy differences between antipsychotics. In
the evidence base but were excluded in general for quality
particular clozapine (as also suggested by observational data),
concerns. Furthermore, the 2019 review had less strict inclusion
followed by amisulpride, olanzapine, and risperidone, are more
criteria regarding trials’ methodology and focused on statistical
efficacious than at least three other antipsychotics. In addition
significance rather than clinically meaningful effects. Other
to efficacy, diverse side effect profiles need to be considered for
reviews concentrated on specific subpopulations with limited
individualised drug choice. Aripiprazole might be preferred
statistical power, long-term studies (important for quality of
among partial dopamine-agonists, which have generally milder
life and functioning during maintenance treatment),
side effects, due to its medium-ranked efficacy. Blonanserin
or observational studies (with increased representativeness of
(moderate efficacy) and lumateperone are also among those
the population but potential confounding).
drugs with fewer side effects, but lumateperone ranked last in
Added value of this study efficacy; add-on of samidorphan has little effect on mitigating
We extended the previous 2019 review by including additional olanzapine-induced weight gain but the average treatment
antipsychotics (xanomeline–trospium, olanzapine– duration in our review is likely too short to observe benefits.
samidorphan, lumateperone, blonanserin, and perospirone),
Muscarinic agents appear as promising compounds as
non-oral formulations (long-acting intramuscular or
xanomeline–trospium ranked in the top third in efficacy and does
subcutaneous and transdermal delivery), and studies from
not cause the side effects associated with dopamine-blocking
Chinese databases with confirmed randomisation after
agents (weight gain, extrapyramidal motor disorders, and
contacting authors. This review also includes studies with
prolactin increase) but has cholinergic and anticholinergic
children and adolescents (younger than 18 years), and elderly
effects. However, only placebo-controlled trials of xanomeline–
participants (older than 65 years) as well as individuals in their
trospium are available; to confirm the ranking of xanomeline–
first episode, not responsive or intolerable to previous
trospium comparisons with other antipsychotics are needed.
antipsychotics and with comorbid drug abuse disorder.
Moreover, modern trials using clozapine first-line or second-line
Furthermore, this review provides evidence for 33 outcomes
(and not as currently third-line) are needed to find out whether
(instead of 17), including additional clinically relevant
its early use might improve outcomes and prevent persistence of
outcomes, such as cognitive functioning, cholinergic adverse symptoms.
events (especially important due to the new antipsychotic
D2-targeting antipsychotics acting downstream of striatal might not be properly randomised or blinded.2,3 In this
dopamine dysregulation in schizophrenia, xanomeline’s network meta-analysis (NMA) sponsored by the German
M1 and M4 agonism presumably modulates the Research Foundation and the National Natural Science
dopamine dysregulation. Foundation of China, we aimed to provide an up-to-date
China produces 25% of schizophrenia trials1 but they review on the ecacy and tolerability of antipsychotics.
are often not included in systematic reviews because they We expanded upon our latest review from 20194 by
are predominantly listed in Chinese databases, and including five additional antipsychotics (xanomeline–
because of previous observations that many of them trospium, olanzapine–samidorphan, lumateperone,
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blonanserin, and perospirone) as well as long-acting on antipsychotic dosing.17 Lower doses were considered
injectable administrations. We also increased the for people in their first episode, children and adolescents,
number of outcomes to 33 (evaluating cognition and and older adults, and higher doses for people with
multiple additional adverse eects), broadened the treatment-resistant symptoms. However, for tolerability
inclusion criteria beyond chronic adults with acute outcomes, studies with average doses above the
exacerbations to better reflect the real-world population,5 consensus’ maximum were excluded.
included Chinese studies after active confirmation of The NMA could be extended to subgroups of
appropriate randomisation, and evaluated clinically schizophrenia and long-acting injectable formulations as
relevant treatment eects, rather than simply focusing recent meta-analyses18,19 did not identify important eect
on statistical significance. modification (see the Discussion).
Suboptimal randomisation is a concern for RCTs
Methods from China,2,3,20 but has also been raised for trials from
Search strategy and selection criteria other countries.21,22 We therefore contacted authors of
This systematic review and meta-analysis (registered all industry-independent trials and pharmaceutical
For PROSPERO see https://www. with PROSPERO, CRD42022380708; protocol is provided companies by telephone, email, and letters to seek
crd.york.ac.uk/prospero/ in the appendix pp 9–18) followed the PRISMA guideline confirmation of appropriate randomisation and blinding
See Online for appendix for NMA (appendix pp 19–22).6 Changes to the protocol (appendix p 35). To standardise the request, and to avoid
are documented in the appendix (pp 23–24); the most misunder standings, a specific online questionnaire was
relevant is the inclusion of subpopulations with designed (appendix pp 38–75). Industry-independent
schizophrenia. No ethics committee approval was needed trials from countries without long-standing tradition in
for this systematic review. conducting clinical research, as described by Panagiotou
We searched previous reviews,4,7–13 Cochrane and colleagues,23 were excluded if no confirmation of
Schizophrenia Group’s register, and five Chinese appropriate randomisation was received; industry-
databases (appendix pp 25–33) for articles published in independent trials from countries with long-standing
any language from database inception to July 26, 2024. tradition in conducting clinical research23 and industry-
We included blinded and open-label randomised funded trials were included in the primary analysis (as
controlled trials (RCTs) comparing antipsychotics with no specific concerns were indicated), but those without
each other or placebo in participants with acute psychotic active confirmation of appropriate randomisation were
symptoms of schizophrenia (or schizoaective or excluded in sensitivity analyses. Moreover, we consulted
schizophreniform disorder) with a duration of 3 weeks to Retraction Watch24 for retracted trials.
3 months. Study selection and data extraction was done in
In addition to studies in adults with exacerbation of duplicate by two independent reviewers (out of YZ, YD,
chronic schizophrenia,4 we included studies in children SG, JW, and MQ for Chinese studies, and out of JS-T,
and adolescents (younger than 18 years), older adults MQ, JT, XL, CV, MW, and the authors of previous reviews
(older than 65 years), and people experiencing their first for non-Chinese studies). Contacting of study authors
episode, with comorbid substance abuse or with was done by YZ, YD, SG, JW, and MQ for Chinese
resistance and/or intolerability to previous antipsychotics studies, and by JS-T, MQ, JT, XL, CV, MW, and authors of
to increase real-life representativeness5 and statistical previous reviews for non-Chinese studies.
power.
We included all 19 second generation antipsychotics Data analysis
(appendix p 34) licensed in Europe or the USA, We followed a pre-established hierarchy if the same
including the most recently licensed combinations of outcomes were reported in dierent publications
xanomeline–trospium (October, 2024) and olanzapine– (appendix p 76).
samidorphan (April, 2022), as well as lumateperone The primary outcome was overall ecacy (overall
(December, 2019). We also included the second- symptoms of schizophrenia; continuous outcome).
generation antipsychotics blonanserin and perospirone Secondary continuous outcomes were positive, negative,
licensed in Japan, and the first-generation antipsychotics and depressive symptoms, quality of life, functioning (as
haloperidol and chlorpromazine (as prototypical first- measured by rating scales), cognition (composite score
generation antipsychotics listed in WHO’s list of following Feber and colleagues25), weight, prolactin, and
essential medicines14), perphenazine (investigated in the QTc interval. Secondary dichotomous outcomes were the
US-based CATIE trial15), and sulpiride (frequently used number of participants with response, who discontinued
in China and the UK-based CUtLASS trial15). The latter for inecacy and any reason, anti cholinergic
were also reported as the four clinically most important (eg, constipation, hyposalivation, tachycardia, and
first-generation antipsychotics.16 blurred vision), cholinergic (eg, nausea, vomiting,
These drugs were included in any application (eg, oral, dyspepsia, and hypersalivation), extrap yramidal (as
long-acting injectable, or transdermal) if the allowed indicated by antiparkinsonian medication use), and
dose range overlapped with the international consensus sexual (eg, libido decrease, amenorrhea, ejaculation
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Search in international databases
661 studies in search of previous 2923 references from update search 3969 references from search in
reviews for the previous reviews in Cochrane Schizophrenia Group‘s
Cochrane Schizophrenia Group‘s register for Chinese trials
register from Oct 14, 2016 published in international
until July 26, 2024 journals from inception until
Oct 13, 2016
2541 references excluded with basic criteria 3924 references excluded due to being published in
74 no randomised controlled trial journals not indexed in PubMed
635 Chinese study
9 naturalistic design (switch of drugs)
180 participants not schizophrenia-like
21 participants not acutely ill
64 comparator any antipsychotic
50 comparator antipsychotic combination
136 comparator same antipsychotic
1112 comparator not an included antipsychotic*
18 duration <3 weeks
241 duration >3 months
1 duration unclear
Duplicate studies included in >1 review 382 references belonging to 27 studies with 45 references
removed 128 studies included with basic published in journals indexed in
criteria PubMed
15 studies (30 references) excluded with basic criteria
1 participant relative of persons with schizophrenia
3 comparator antipsychotic combination
3 comparator same antipsychotics
1 comparator not an included antipsychotic
3 duration <3 weeks
1 duplicate to study in specific search for studies
published in China
3 duration >3 months
12 studies with 15 references included
582 studies included Search in Chinese databases
11306 references from search in Chinese
electronic literature databases from
115 excluded because comparison not usable
inception until May 6, 2024
467 with usable comparison
31 duplicates excluded
53 excluded after contacting for methods
7 from country without research tradition 5237 references excluded in title or abstract screening
with confirmed inadequate methods
46 from country without research tradition
without confirmed methods (no answer or 6038 references screened on full text level
unclear)
921 references excluded with basic criteria
414 included 376 no randomised controlled trial
279 conducted or supported by pharmaceutical companies 21 wrong participant
20 from country with research tradition with confirmed adequate methods 37 intervention not an included antipsychotic
95 (54 published before 1994) from country with research tradition 473 comparator antipsychotic combination
without confirmation 14 comparator same antipsychotic
20 from country without research tradition with confirmed methods
5117 references included
(Figure 1 continues on next page)
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5089 studies excluded after contacting for methods
4769 no answer
83 disclosed that it was an observational study
125 confirmed suboptimal randomisation process
39 unclear randomisation process
15 disclosed that study results were not reliable
58 authors unsure or cannot remember if actually
conducted
27 studies (28 references) with confirmed
adequate methods included
3 studies excluded for this review
1 participant not acutely ill
1 participant with predominant negative symptoms
1 duration >3 months
24 studies included
438 studies included
388 studies with usable data
Figure 1: Study selection
*Among the references excluded because the comparator was not an included antipsychotic, there were no new studies evaluating first-generation antipsychotics. This number is relatively high
because for some update searches, all references added to the Cochrane Schizophrenia Group’s register were assessed, irrespective of whether they were on studies investigating antipsychotic drugs or
other interventions.
Continuous outcomes were analysed with standardised
Chlorpromazine (n=1288) Cariprazine (n=1293)
mean dierence (SMD) or mean dierences (MD) if
Clozapine (n=703) Brexpiprazole (n=1474) results were reported on dierent or the same scale,
Blonanserin (n=1166)
Haloperidol (n=5013) respectively. Dichotomous outcomes were analysed using
Asenapine (n=1582)
odds ratios (OR) but transformed to event rates for
Iloperidone (n=2157)
Aripiprazole (n=3753) interpretability (appendix p 79). Treatment eects on
Lumateperone (n=386) rating scales, study discontinuation, and specific self-
Amisulpride (n=797) reported adverse eects (appendix pp 76–78) were
Lurasidone (n=2572) estimated using only double-blind studies because
Zotepine (n=209)
knowledge of the intervention received might influence
Olanzapine−samidorphan
participants’ or outcome assessors’ perception and
(n=124) Ziprasidone (n=1585)
interpretation of symptoms. Study arms for the same
Olanzapine (n=6690)
Xanomeline–trospium drug at dierent eligible doses or applications were
Paliperidone (n=3090) (n=314) merged in the main analysis.
Sulpiride (n=71) Study-specific eects were combined using NMA with
Perospirone (n=87)
Sertindole (n=1366) a common heterogeneity variance (τ²).26 Transitivity was
Perphenazine (n=526)
Risperidone (n=6956) assessed visually by comparing potential eect modifiers
across comparisons, displayed by boxplots. Heterogeneity
Placebo (n=11841) Quetiapine (n=3905)
(ie, dierences in estimates between studies of the same
Figure 2: Network plot of overall symptoms comparison, eg, because of dierent participant
The lines link treatments with direct comparisons in trials with usable data for the primary outcome; the thickness characteristics) was assessed by comparing common-τ²27
of the lines corresponds to the number of trials evaluating the comparison; the size of the nodes corresponds to
to empirical distributions,28,29 and presented in prediction
the number of participants assigned to the treatment.
intervals.30 Particularly, common-τ² in the primary NMAs
dysfunction, and erectile dysfunction) adverse events, of each outcome were compared with those observed in
weight gain, hyperprolactinaemia, QTc prolongation, NMAs excluding subgroups. NMA consistency was
sedation, akathisia, heart rate abnormalities (and assessed using global and local methods.30 Heterogeneity
separately for tachycardia, bradycardia, and arrythmia), and inconsistency were explored by network meta-
reduction in white blood cells (and separately for regression for the primary outcome using the following
leukopenia, neutropenia, and agranulocytosis), seizures, potential eect modifiers: participants’ severity of illness
deep vein thrombosis, and death (appendix pp 76–78). at baseline, sponsorship by pharmaceutical companies,
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publication year, degree of placebo-response, sample size, implementation for computational ease as no major
percentage of male (gender) participants, and mean age. dierences can be expected with non-informative or
In sensitivity analyses for the primary outcome, we minimally-informative Bayesian priors.42 Network meta-
excluded trials for the following reasons: trials not using regression analyses were conducted with Bayesian
operationalised diagnostic criteria; trials using imputed random-eects models in R with the package
standard deviations; trials reporting complete-case “multinma”,43 due to lack of frequentist network meta-
analyses only; trials with overall high risk of bias; trials regression models implementation.
published before 1994; trials shorter than 4 weeks or In reporting of the results, we define k as the number
longer than 8 weeks; industry-independent trials from of studies with usable data and t as the number of
countries with research tradition and industry-funded investigated antipsychotics.
trials without active confirmation of appropriate People with lived experience provided constructive
randomisation; trials in subgroup populations; trials with feedback regarding the study design, interpretation of
potentially unfair dose comparisons (following Huhn and results, and writing of the report with a particular focus
colleagues4); and trials with placebo. We also re-analysed regarding relevance for patients.
the network without merging modes of administration
(ie, treating oral, transdermal, and long-acting injectable Role of the funding source
applications of the same drug as distinct interventions), The funders of the study had no role in study design,
and using post-hoc adjusted data for clozapine trials from data collection, data analysis, data interpretation, or
an individual patient data meta-analysis.31 Additionally, writing of the report.
we conducted post-hoc sensitivity analyses restricted to
single-blind and open-label trials, respectively, and Results
combining double-blind, single-blind, and open-label From previous reviews (661 studies) and their
trials. update-searches in international literature databases
Risk of bias was assessed using Cochrane’s Risk-of- (6892 ref erences), we identified 467 eligible inter-
Bias 2.32 Small-study eects and publication bias were nationally published RCTs. 414 were included after
explored with comparison-adjusted33 and contour- contacting authors for confirmation of randomisation
enhanced funnel plots;34 and overall reporting bias was (with 312 letters and emails sent); 53 studies from
evaluated following ROB-MEN.35 Confidence in estimates countries without research tradition were excluded
was assessed using the Confidence in Network Meta- because seven revealed suboptimal randomisation and
Analysis (CINEMA) approach.36 for 46 no answers were received (figure 1).
For CINEMA and for interpreting results, we considered From screening 11 306 references found in Chinese
treatment dierences to be very small (and likely clinically databases, we identified 5117 Chinese RCTs. After calling
insignificant) when SMDs were between –0·1 and 0·1. the authors of the 176 double-blind studies (ie, relevant
This choice was informed by the fact that SMD 0·2 is for the primary outcome) by telephone (at least 3 times)
typically considered a small eect according to Cohen’s and sending 698 emails and 7126 letters to the first and
rule27,37 and thus SMD 0·1 might be considered a very second authors of all studies (facilitating answering by an
small eect. Moreover, SMD 0·1 reflects a dierence in especially developed online questionnaire), answers for
event rates of 30% (the lowest drug response rate observed 347 (7%) of 5117 studies were received. Of those,
in our analysis) versus 35%,27 which we believe is an 27 (8%) of 347 had confirmed appropriate methods and
appropriate threshold with larger or smaller dierences 24 investigating antipsychotics for acute psychosis were
being likely clinically relevant or irrelevant, respectively. included. Other Chinese trials were not included because
The same approach was used for other eect size they used suboptimal methods (125 [36%] of 347 with
measures: ORs between 0·8 and 1·25 were deemed very answers), methods remained unclear (39 [11%] of 347), or
small as these values can be transformed to SMD were observational studies although reported as
–0·1 and 0·1,27 respectively. For MDs, margins of randomised (83 [24%] of 347). For another 73 (21%) of the
equivalence approximately corresponding to SMD 347 studies, the authors did not explicitly confirm
–0·1 and 0·1 were calculated using the outcome’s median authenticity.
standard deviation—those were –0·5 kg to 0·5 kg for In total, 438 RCTs with 80 567 participants were
weight, –5 ng/ml to 5 ng/ml for prolactin, and –5 ms included. Of those, 388 RCTs with 78 193 participants
to 5 ms for QTc (appendix p 81). investigating 24 antipsychotics provided usable data for
Network and pairwise meta-analyses were performed at least one outcome. 315 (81%) of these 388 were double-
with frequentist random-eects models using R blind and 93 (24%) of 388 were conducted in
(packages “meta”38 and “netmeta”39); outcomes with rare schizophrenia subgroups. Median study duration was
events were (network) meta-analysed with Mantel– 6 weeks (IQR 6–8), participants’ median age was
Haenszel models;40 and surface under the cumulative 37·28 years (IQR 33·58–40·50), 28 448 (36·4% of all
ranking scores41 were calculated for ranking interventions. 78 193 participants) were women, and 49 745 (63·6%) of
Frequentist were chosen over Bayesian NMA model 78 193 participants were men (appendix p 82).
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A Overall symptoms B Positive symptoms
C T SMD S|I C T SMD S|I
(95% CI) (of 24) (95% CI) (of 23 )
Clozapine (n=703) 6 22 –0·90 (–1·03 to –0·77) 19| Clozapine (n=450) 4 12 –0·90 (–1·06 to –0·73) 20|
Amisulpride (n=797) 4 12 –0·68 (–0·81 to –0·55) 11| Amisulpride (n=745) 4 9 –0·65 (–0·79 to –0·52) 8|
Sulpiride (n=71) 1 2 –0·73 (–1·11 to –0·35) | Risperidone (n=6092) 18 59 –0·57 (–0·62 to –0·52) 5|1
Olanzapine (n=6690) 16 63 –0·57 (–0·62 to –0·52) 5|1 Xanomeline–trospium (n=314) 1 3 –0·59 (–0·78 to –0·40) 1|
Zotepine (n=209) 4 6 –0·59 (–0·80 to –0·38) | Olanzapine (n=5258) 16 49 –0·53 (–0·59 to –0·47) 2|1
Xanomeline–trospium (n=314) 1 3 –0·57 (–0·76 to –0·37) | Paliperidone (n=2868) 4 16 –0·52 (–0·60 to –0·45) 1|1
Risperidone (n=6956) 18 72 –0·53 (–0·57 to –0·48) 3|1 Haloperidol (n=3846) 15 46 –0·45 (–0·51 to –0·39) 1|1
Perphenazine (n=526) 6 5 –0·51 (–0·65 to –0·36) |1 Olanzapine–samidorphan (n=132) 2 1 –0·46 (–0·73 to –0·20) |1
Paliperidone (n=3090) 4 19 –0·49 (–0·56 to –0·42) |1 Blonanserin (n=1169) 3 8 –0·45 (–0·56 to –0·33) |1
Blonanserin (n=1166) 3 8 –0·47 (–0·59 to –0·36) |1 Aripiprazole (n=3176) 11 22 –0·44 (–0·50 to –0·37) 1|1
Olanzapine–samidorphan (n=124)2 1 –0·49 (–0·77 to –0·22) |1 Asenapine (n=1217) 4 6 –0·43 (–0·55 to –0·32) |1
Aripiprazole (n=3753) 11 26 –0·45 (–0·52 to –0·39) |1 Lumateperone (n=222) 2 2 –0·43 (–0·65 to –0·22) |1
Haloperidol (n=5013) 16 72 –0·44 (–0·50 to –0·38) |2 Perphenazine (n=455) 5 3 –0·42 (–0·58 to –0·26) |1
Perospirone (n=87) 4 2 –0·42 (–0·73 to –0·10) |1 Chlorpromazine (n=772) 5 8 –0·39 (–0·53 to –0·25) |1
Quetiapine (n=3905) 11 26 –0·40 (–0·47 to –0·33) |2 Ziprasidone (n=1459) 9 13 –0·38 (–0·47 to –0·28) |2
Sertindole (n=1366) 4 8 –0·39 (–0·50 to –0·27) |2 Sertindole (n=1395) 4 8 –0·36 (–0·47 to –0·25) |2
Asenapine (n=1582) 4 8 –0·38 (–0·48 to –0·28) |2 Quetiapine (n=3568) 11 20 –0·35 (–0·42 to –0·28) |3
Ziprasidone (n=1585) 9 15 –0·38 (–0·47 to –0·29) |2 Lurasidone (n=2374) 5 11 –0·34 (–0·42 to –0·25) |3
Chlorpromazine (n=1288) 9 24 –0·36 (–0·47 to –0·26) |2 Cariprazine (n=1135) 3 4 –0·33 (–0·46 to –0·21) |3
Lurasidone (n=2572) 5 12 –0·34 (–0·42 to –0·26) |3 Zotepine (n=35) 1 1 –0·16 (–0·67 to 0·34) |1
Cariprazine (n=1293) 3 5 –0·32 (–0·44 to –0·21) |3 Iloperidone (n=918) 4 4 –0·28 (–0·41 to –0·16) |4
Iloperidone (n=2157) 4 7 –0·31 (–0·41 to –0·21) |4 Perospirone (n=87) 4 2 –0·17 (–0·49 to 0·15) |2
Brexpiprazole (n=1474) 3 7 –0·29 (–0·39 to –0·18) |4 Brexpiprazole (n=1474) 3 7 –0·21 (–0·32 to –0·11) |8
Lumateperone (n=386) 2 3 –0·23 (–0·39 to –0·06) |4 Placebo (n=10305) 18 101 Reference
Placebo (n=11841) 22 129 Reference
–1 –0·5 0 0·5 1
–1 –0·5 0 0·5 1
Favours comparator Favours reference
Favours comparator Favours reference
C Negative symptoms D Discontinuation for any reason
C T SMD S|I C T OR S|I Events
(95% CI) (of 23) (95% CI) (of 24) (95% CI)
Perospirone (n=87) 4 2 –0·65 (–0·95 to –0·34) 2| Paliperidone (n=3106) 3 17 0·49 (0·42 to 0·56) 6| 28% (25% to 30%)
Clozapine (n=525) 6 19 –0·55 (–0·69 to –0·41) 6| Olanzapine–samidorphan (n=345) 2 2 0·44 (0·29 to 0·69) 2| 26% (19% to 35%)
Zotepine (n=174) 4 4 –0·51 (–0·73 to –0·29) 1| Olanzapine (n=6675) 14 56 0·50 (0·45 to 0·56) 6| 28% (26% to 30%)
Amisulpride (n=735) 3 11 –0·47 (–0·59 to –0·34) 1| Clozapine (n=559) 6 19 0·50 (0·35 to 0·71) 1| 28% (22% to 36%)
Blonanserin (n=1169) 3 8 –0·44 (–0·55 to –0·33) 1| Amisulpride (n=781) 4 10 0·51 (0·39 to 0·68) 3| 29% (23% to 35%)
Olanzapine (n=5264) 16 50 –0·41 (–0·47 to –0·36) 1| Perphenazine (n=596) 9 7 0·58 (0·43 to 0·77) 1| 31% (25% to 38%)
Perphenazine (n=455) 5 3 –0·40 (–0·54 to –0·25) | Risperidone (n=7276) 17 68 0·59 (0·53 to 0·65) 3| 32% (29% to 34%)
Aripiprazole (n=2978) 10 21 –0·37 (–0·44 to –0·30) | Lumateperone (n=408) 2 3 0·59 (0·42 to 0·83) 1| 32% (25% to 39%)
Paliperidone (n=2868) 4 16 –0·36 (–0·43 to –0·29) | Aripiprazole (n=3484) 10 24 0·63 (0·55 to 0·72) 1| 33% (30% to 36%)
Sertindole (n=1395) 4 8 –0·35 (–0·45 to –0·24) | Quetiapine (n=3671) 10 21 0·64 (0·55 to 0·74) 1| 33% (30% to 37%)
Risperidone (n=6174) 18 61 –0·35 (–0·39 to –0·30) | Zotepine (n=222) 5 5 0·63 (0·41 to 0·97) | 33% (24% to 43%)
Asenapine (n=1216) 4 6 –0·34 (–0·45 to –0·23) | Perospirone (n=70) 1 1 0·66 (0·31 to 1·41) | 34% (20% to 52%)
Olanzapine–samidorphan (n=132)2 1 –0·34 (–0·58 to –0·09) | Iloperidone (n=2209) 4 7 0·72 (0·59 to 0·88) | 36% (32% to 41%)
Xanomeline–trospium (n=314) 1 3 –0·33 (–0·51 to –0·16) | Asenapine (n=1665) 4 8 0·73 (0·60 to 0·88) | 36% (32% to 41%)
Cariprazine (n=1135) 3 4 –0·32 (–0·43 to –0·20) | Brexpiprazole (n=1495) 3 7 0·75 (0·59 to 0·94) | 37% (32% to 42%)
Ziprasidone (n=1316) 8 11 –0·31 (–0·40 to –0·22) | Sulpiride (n=129) 3 4 0·77 (0·36 to 1·64) | 38% (22% to 56%)
Lumateperone (n=222) 2 2 –0·27 (–0·47 to –0·07) | Lurasidone (n=2607) 5 12 0·77 (0·66 to 0·90) |2 38% (34% to 41%)
Haloperidol (n=4078) 15 53 –0·29 (–0·34 to –0·23) |1 Chlorpromazine (n=1222) 9 23 0·78 (0·60 to 1·01) | 38% (32% to 44%)
Quetiapine (n=3625) 11 21 –0·28 (–0·35 to –0·21) |1 Blonanserin (n=1206) 3 8 0·79 (0·63 to 1·00) | 38% (33% to 44%)
Brexpiprazole (n=1474) 3 7 –0·26 (–0·35 to –0·16) |1 Ziprasidone (n=1789) 9 15 0·79 (0·67 to 0·94) |2 38% (34% to 42%)
Lurasidone (n=2374) 5 11 –0·25 (–0·32 to –0·17) |1 Cariprazine (n=1143) 3 5 0·83 (0·67 to 1·03) |2 39% (34% to 45%)
Iloperidone (n=918) 4 4 –0·21 (–0·32 to –0·10) |2 Haloperidol (n=4845) 17 66 0·85 (0·76 to 0·96) |4 40% (37% to 43%)
Chlorpromazine (n=926) 7 14 –0·16 (–0·27 to –0·05) |6 Sertindole (n=1127) 4 6 0·95 (0·75 to 1·21) |5 43% (37% to 49%)
Placebo (n=10398) 20 105 Reference Placebo (n=12410) 22 128 Reference 43·916%
Xanomeline–trospium (n=341) 1 3 1·26 (0·85 to 1·85) |10 50% (40% to 59%)
–1 –0·5 0 0·5 1
0·1 0·2 0·5 1 2 5 10
Favours comparator Favours reference
Favours comparator Favours reference
882
Articles
Figure 3: Panel of efficacy and acceptability outcomes 256 double-blind studies with 58 948 participants,
The order of treatments is according to the SUCRA-ranking. The direction of the investigating 24 antipsychotics and placebo, provided
effect is indicated below the x-axis. The column C indicates, for the treatment in
usable data for overall symptoms of schizophrenia
the line, how many other interventions it has been directly compared with in a
study; the column T indicates the number of studies with data for this (figures 2–4 and appendix p 152). All 24 antipsychotics
intervention. The column S|I indicates, for the treatment in the line, how many reduced symptoms compared with placebo with, on
other antipsychotics the intervention is superior (before the |-symbol) or inferior average, more than very small eects (ie, SMDs less
(after the |-symbol) to, defined as a point estimate above or below very small
than –0·1) and all with 95% CIs excluding no dierence
effects, respectively, and 95% CIs excluding very small differences (appendix
p 80); in the parenthesis after S|I in the column headings is the total number of and all, except perospirone and lumateperone, with
antipsychotics in this NMA. The colour of the lines of the CIs indicates the 95% CIs excluding very small eects. SMDs ranged
CINEMA-confidence in estimates: green=high, blue=moderate, orange=low, and from –0·90 (95% CI –1·03 to –0·77) for clozapine to –0·23
red=very low. C=connectivity. CINEMA=Confidence in Network Meta-Analysis.
(–0·39 to –0·06) for lumateperone. Clozapine, amisulpride,
I=inferior. n=number of participants. OR=odds ratio. SMD=standardised mean
difference. S=superior. SUCRA= surface under the cumulative ranking. olanzapine, and risperidone reduced symptoms more than
NMA=network meta-analysis. T=trials. at least three other antipsychotics with 95% CIs excluding
very small eects. Clozapine was also more ecacious
than olanzapine and risperidone. Lumateperone,
brexpiprazole, iloperidone, cariprazine, and lurasidone
We first report, per outcome, the percentage of reduced symptoms less than at least three other
antipsychotics with average eects versus placebo that antipsychotics with 95% CIs excluding very small eects.
are not very small (see Methods for each outcome’s 23 (100%) of 23 antipsychotics reduced positive
definition of very small): irrespective of the 95% CI, with symptoms, on average, more than placebo irrespective of
95% CIs excluding no dierence (SMD or MD 0, or the 95% CI (21 [91%] of 23 with 95% CIs excluding no
OR 1), and with 95% CIs excluding very small eects. dierence; 21 [91%] of 23 with 95% CIs excluding very
Then, to support drug choice, we report the specific small eects), with SMDs ranging from –0·90 (95% CI
antipsychotics superior or inferior to at least three other –1·06 to –0·73) to –0·16 (–0·67 to 0·34; NMA based on
antipsychotics with 95% CIs excluding very small eects 189 studies with usable data; with 49 466 participants;
(ie, with a high probability of more than very small and investigating 23 antipsychotics; these numbers are
thus likely clinically relevant dierences). denoted as k, n, and t, respectively, hereafter). Particularly
Clozapine NA NA (–0·6 – 9 0 · t 3 o 1 0·06)(–0·6 – 6 0 · t 0 o 8 0·51) NA (–0·4 – 2 0 t · o 1 9 0·03) NA NA NA NA NA (–0·6 – 5 0 t · o 4 1 –0·18) NA NA NA NA NA (–0·9 – 7 0 t · o 7 6 –0·54) NA NA NA NA NA (–2·69 – 1 t · o 7 1 –0·73)
(–0·4 – 0 0 · t 2 o 2 – 0·05)Amisulpride NA (–0·2 – 8 0 t ·0 o 8 0·13) NA NA (–0·35 –0 t · o 0 8 0·19) NA NA NA NA NA (–0·4 – 9 0 t · o 2 8 –0·07) NA NA NA NA NA NA NA NA NA NA NA (–1·37 – 0 to ·8 – 8 0·39)
(–0·5 – 6 0 t ·1 o 7 0·22)(–0·35 0 t ·0 o 5 0·45) Sulpiride NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA (–0·73 –0 t · o 3 7 0·00) NA NA NA NA NA NA
(–0·4 – 6 0 · t 3 o 3 –0·20)(–0·24 – 0 to ·1 0 1 ·02)(–0·5 – 4 0 t ·1 o 6 0·22) Olanzapine NA NA (–0·25 –0 t · o 1 3 –0·01)(–0·3 – 6 0 t ·1 o 1 0·14) (–0·1 – 8 0 · t 0 o 6 0·07) NA (–0·22 0 t ·1 o 0 0·41)(–0·31 –0 t · o 1 6 –0·01)(–0·25 –0 t · o 1 4 –0·02)(–1·2 – 9 0 t ·6 o 2 0·05)(–0·3 – 7 0 t ·1 o 6 0·04)(–0·5 – 1 0 t ·2 o 3 0·05)(–0·34 0 · t 1 o 4 0·06)(–0·38 –0 t · o 2 0 –0·02)(–0·6 – 9 0 t · o 22 0·26)(–0·4 – 7 0 t ·1 o 8 0·11) NA NA NA NA (–0·61 – 0 to ·5 – 3 0·45)
(–0·5 – 4 0 t ·3 o 1 –0·08)(–0·33 – 0 to ·0 0 9 ·16)(–0·5 – 6 0 t ·1 o 4 0·29)(–0·1 0 9 · 0 to 2 0·24) Zotepine NA NA NA NA NA NA NA (–0·19 0 · t 0 o 8 0·35) NA NA NA NA NA (–1·17 – 0 to ·7 – 4 0·31) NA NA NA NA NA (–1·26 – 0 to ·8 – 2 0·39)
(–0·5 – 7 0 t ·3 o 3 – 0·10)(–0·34 – 0 to ·1 0 1 ·12)(–0·5 – 9 0 t ·1 o 6 0·27)(–0·2 – 0 0 t ·0 o 0 0·20)(–0·3 – 1 0 t ·0 o 3 0·26) Xa t n ro o s m pi e u l m ine– NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA (–0·76 – 0 to ·5 – 7 0·37)
(–0·5 – 0 0 t ·3 o 7 –0·25)(–0·28 – 0 to ·1 – 5 0·02)(–0·5 – 8 0 t ·2 o 0 0·18)(–0·1 – 0 0 t ·0 o 4 0·02)(–0·2 – 8 0 t ·0 o 7 0·15) (–0·2 – 4 0 · t 0 o 4 0·16) Risperidone (–0·1 0 6 · 0 to 6 0·27) (–0·1 0 6 ·0 t 6 o 0·27)(–0·30 –0 t · o 1 1 0·07) NA (–0·21 –0 t · o 0 3 0·14)(–0·16 –0 t · o 0 4 0·07) (–1·1 – 3 0 t · o 4 5 0·22) (–0·2 – 1 0 t ·0 o 4 0·12) (–0·3 – 5 0 t ·1 o 2 0·11) (–0·27 0 · t 1 o 4 0·56)(–0·2 – 3 0 t ·0 o 6 0·11) NA (–0·4 – 1 0 t ·2 o 0 0·01)(–0·59 –0 t · o 3 6 –0·13)(–0·46 –0 t · o 2 6 –0·06) NA (–0·4 – 7 0 t ·2 o 4 –0·01)(–0·62 – 0 to ·5 – 5 0·48)
(–0·5 – 9 0 t ·4 o 0 –0·21)(–0·37 – 0 to ·1 0 7 ·02)(–0·6 – 3 0 t ·2 o 2 0 ·18)(–0·2 – 1 0 t ·0 o 6 0·08)(–0·3 – 4 0 t ·0 o 9 0·17) (–0·3 – 0 0 · t 0 o 6 0·18)(–0·17 –0 t · o 0 0 2 ·13) Perphenazine NA NA NA (–0·33 –0 t · o 0 3 0·26) NA NA (–0·2 – 7 0 t ·0 o 5 0·16) NA NA (–0·4 – 2 0 t ·1 o 6 0·11) NA NA NA NA NA NA (–1·51 – t 0 o ·8 – 9 0·27)
(–0·5 – 5 0 t ·4 o 1 –0·27)(–0·33 – 0 to ·1 – 9 0·04)(–0·6 – 2 0 t ·2 o 4 0·15)(–0·1 – 6 0 t ·0 o 8 0·00)(–0·3 – 2 0 t ·1 o 0 0·12) (–0·2 – 8 0 · t 0 o 8 0·13)(–0·12 –0 t · o 0 3 0·05)(–0·1 – 7 0 t · o 0 1 0·15) Paliperidone NA NA (–0·29 0 · t 0 o 4 0·36) NA NA NA NA NA NA NA NA NA NA NA NA (–0·57 – 0 to ·4 – 9 0·40)
(–0·5 – 9 0 t ·4 o 3 – 0·26)(–0·37 – 0 to ·2 – 0 0·03)(–0·6 – 5 0 t ·2 o 5 0 ·14)(–0·2 – 2 0 t ·1 o 0 0·03)(–0·3 – 5 0 t ·1 o 2 0·12) (–0·3 – 2 0 · t 0 o 9 0·13)(–0·17 –0 t · o 0 0 5 ·06)(–0·2 – 1 0 t ·0 o 3 0·15) (–0·1 – 5 0 · t 0 o 2 0·12) Blonanserin NA NA (–0·33 –0 t · o 1 3 0·06) NA NA NA NA NA NA NA NA NA NA NA (–0·66 –0 t · o 4 – 7 0·28)
(–0·7 – 1 0 t · o 4 1 –0·11)(–0·48 –0 t · o 1 8 0·12)(–0·7 – 0 0 t ·2 o 3 0·23)(–0·3 – 5 0 t ·0 o 8 0·20)(–0·4 – 4 0 · t 1 o 0 0·25) (–0·4 – 1 0 · t 0 o 7 0·26)(–0·31 –0 t · o 0 3 0·25)(–0·3 – 2 0 t ·0 o 1 0·30)(–0·2 0 8 · 0 to 0 0·29)(–0·28 0 · t 0 o 2 0·32) O sa l m an i z d a o p r i p n h e a – n NA NA NA NA NA NA NA NA NA NA NA NA NA (–0·63 – 0 to ·3 0 1 ·00)
(–0·5 – 9 0 t ·4 o 5 –0·31)(–0·37 – 0 to ·2 – 2 0·08)(–0·6 – 6 0 · t 2 o 7 0·11)(–0·1 – 9 0 t ·1 o 2 –0·04)(–0·3 – 6 0 t ·1 o 4 0·08)(–0·3 – 2 0 · t 1 o 1 0·09)(–0·15 –0 t · o 0 7 0·00)(–0·2 – 0 0 t ·0 o 5 0·10)(–0·1 – 3 0 t ·0 o 4 0·05)(–0·15 –0 t · o 0 2 0·11) (–0·3 – 2 0 · t 0 o 4 0·24) Aripiprazole(–0·28 –0 t · o 0 5 0·18) NA (–0·4 – 8 0 · t 0 o 7 0·35) NA NA (–0·4 – 7 0 t · o 1 6 0·16)(–0·6 – 4 0 t · o 2 9 0·05) NA (–0·25 0 t ·0 o 2 0·30) NA (–0·2 – 7 0 t ·0 o 8 0·10) NA (–0·54 – 0 to ·4 – 5 0·36)
(–0·5 – 9 0 t ·4 o 6 –0·33)(–0·37 – 0 to ·2 – 4 0·11)(–0·6 – 7 0 t ·2 o 9 0·09)(–0·1 – 9 0 t ·1 o 3 –0·07)(–0·3 – 6 0 t ·1 o 5 0·05) (–0·3 – 3 0 · t 1 o 3 0·07)(–0·15 –0 t · o 0 9 –0·03)(–0·2 – 2 0 t ·0 o 6 0·09)(–0·1 – 4 0 t ·0 o 5 0·04)(–0·15 –0 t · o 0 3 0·08) (–0·3 – 3 0 · t 0 o 5 0·22)(–0·0 – 9 0 t · o 0 1 0·06) Haloperidol (–0·2 0 2 · 1 to 6 0·54)(–0·1 0 4 · 0 to 1 0·15)(–0·2 – 5 0 t ·0 o 9 0·08)(–0·28 0 · t 0 o 2 0·32)(–0·24 0 · t 0 o 2 0·27) (–0·5 0 2 · 2 to 9 1·11) (–0·6 – 2 0 t ·2 o 8 0·06) NA (–0·22 –0 t · o 0 8 0·06) NA NA (–0·59 – 0 to ·4 – 9 0·40)
(–0·8 – 2 0 t ·4 o 8 –0·15)(–0·60 – 0 t · o 2 0 6 ·08)(–0·8 – 0 0 · t 3 o 1 0·18)(–0·4 – 7 0 t ·1 o 5 0·16)(–0·5 – 5 0 t ·1 o 8 0·20) (–0·5 – 2 0 · t 1 o 5 0·22)(–0·4 – 3 0 t · o 1 1 0·21)(–0·4 – 3 0 t ·0 o 9 0·26)(–0·4 – 0 0 · t 0 o 8 0·25)(–0·39 –0 t · o 0 6 0·27) (–0·5 – 0 0 · t 0 o 8 0·34)(–0·36 –0 t · o 0 4 0·28)(–0·3 – 4 0 t ·0 o 2 0·29) Perospirone (–0·3 0 3 · 3 to 4 1·01) NA NA NA NA NA NA NA NA NA NA
(–0·6 – 4 0 · t 5 o 0 –0·37)(–0·42 – 0 to ·2 – 8 0·14)(–0·7 – 1 0 t · o 33 0·05)(–0·2 – 5 0 t ·1 o 7 –0·09)(–0·4 – 1 0 t ·2 o 0 0·02)(–0·3 – 8 0 t ·1 o 7 0·04)(–0·21 – 0 to ·1 – 3 0·05)(–0·2 – 6 0 t ·1 o 1 0·05)(–0·1 – 9 0 t ·0 o 9 0·00)(–0·21 –0 t · o 0 8 0·05) (–0·3 – 8 0 · t 1 o 0 0·19)(–0·15 –0 t · o 0 6 0·03)(–0·1 – 2 0 t ·0 o 4 0·04)(–0·3 – 4 0 t ·0 o 2 0·30) Quetiapine NA NA (–0·34 –0 t · o 0 8 0·19)(–0·0 0 4 · t 1 o 0 0·25)(–0·4 – 7 0 t ·1 o 8 0·12) NA NA (–0·5 – 1 0 t ·2 o 2 0·08) NA (–0·52 – 0 to ·4 – 1 0·31)
(–0·6 – 8 0 · t 5 o 2 –0·35)(–0·46 –0 t · o 2 9 –0·13)(–0·7 – 4 0 t ·3 o 4 0·05)(–0·3 – 0 0 t ·1 o 8 –0·07)(–0·4 – 4 0 · t 2 o 1 0·03)(–0·4 – 1 0 t ·1 o 8 0·04)(–0·26 – 0 to ·1 – 4 0·03)(–0·3 – 0 0 t ·1 o 2 0·06)(–0·2 – 4 0 t ·1 o 1 0·03)(–0·25 –0 t · o 0 9 0·07) (–0·4 – 1 0 · t 1 o 1 0·19)(–0·20 –0 t · o 0 7 0·06)(–0·1 – 7 0 t · o 0 5 0·06)(–0·3 – 6 0 t ·0 o 3 0·30)(–0·1 – 4 0 t ·0 o 1 0·12) Sertindole NA NA NA NA NA NA NA NA (–0·63 – 0 to ·4 – 3 0·23)
(–0·6 – 8 0 · t 5 o 2 –0·36)(–0·46 –0 t · o 3 0 –0·13)(–0·7 – 4 0 t ·3 o 5 0·05)(–0·3 – 0 0 t ·1 o 9 –0·08)(–0·4 – 4 0 · t 2 o 1 0·02)(–0·4 – 0 0 · t 1 o 9 0·03)(–0·25 – 0 to ·1 – 5 0·04)(–0·3 – 0 0 t ·1 o 2 0·05)(–0·2 – 3 0 t ·1 o 1 0·01)(–0·25 –0 t · o 0 9 0·06) (–0·4 – 1 0 · t 1 o 1 0·18)(–0·19 –0 t · o 0 7 0·05)(–0·1 – 7 0 t · o 0 6 0·05)(–0·3 – 7 0 t ·0 o 4 0·30)(–0·1 – 4 0 t ·0 o 2 0·10)(–0·1 – 5 0 t ·0 o 0 0·15) Asenapine NA NA NA NA NA NA NA (–0·43 – 0 to ·3 – 2 0·21)
(–0·6 – 7 0 t ·5 o 2 –0·37)(–0·45 – 0 to ·3 – 0 0·14)(–0·7 – 3 0 t ·3 o 5 0·04)(–0·2 – 8 0 t ·1 o 9 –0·09)(–0·4 – 4 0 · t 2 o 1 0·01)(–0·4 – 0 0 · t 1 o 9 0·03)(–0·24 – 0 to ·1 – 5 0·05)(–0·2 – 9 0 t ·1 o 2 0·04)(–0·2 – 2 0 t ·1 o 1 0·00)(–0·24 –0 t · o 0 9 0·05) (–0·4 – 0 0 · t 1 o 1 0·17)(–0·18 –0 t · o 0 7 0·03)(–0·1 – 6 0 t ·0 o 6 0·04)(–0·3 – 6 0 t ·0 o 4 0·29)(–0·1 – 2 0 t ·0 o 2 0·09)(–0·1 – 5 0 t ·0 o 0 0·14)(–0·1 – 3 0 t ·0 o 0 0·13) Ziprasidone (–0·3 – 7 0 t ·0 o 8 0·22) NA NA (–0·29 – 0 to ·0 0 2 ·26) NA NA (–0·46 –0 t · o 3 0 –0·15)
(–0·6 – 8 0 t · o 54 –0·40)(–0·48 –0 t · o 3 2 –0·15)(–0·7 – 3 0 t ·3 o 7 0·00)(–0·3 – 2 0 t ·2 o 1 –0·10)(–0·4 – 5 0 t ·2 o 3 –0·01)(–0·4 – 2 0 t ·2 o 0 0·02)(–0·27 – 0 to ·1 – 6 0·05)(–0·3 – 2 0 t ·1 o 4 0·03)(–0·2 – 5 0 t ·1 o 3 0·00)(–0·26 –0 t · o 1 1 0·04)(–0·4 – 2 0 · t 1 o 3 0·16)(–0·21 –0 t · o 0 9 0·03)(–0·1 – 9 0 t ·0 o 8 0·03)(–0·3 – 8 0 t ·0 o 5 0·28)(–0·1 – 4 0 t ·0 o 3 0·07)(–0·1 – 7 0 t · o 0 2 0·13) (–0·1 – 6 0 t ·0 o 2 0·13)(–0·14 –0 t · o 0 2 0·11) Chl a o z r i p n r e om- NA NA NA NA NA (–0·73 – 0 to ·5 – 0 0·26)
(–0·71 –0 t · o 5 6 –0·41)(–0·49 –0 t · o 3 4 –0·18)(–0·7 – 8 0 t ·3 o 9 0·00)(–0·3 – 2 0 t ·2 o 3 –0·14)(–0·4 – 7 0 t ·2 o 5 –0·03)(–0·4 – 4 0 · t 2 o 3 –0·02)(–0·28 – 0 to ·1 – 8 0·09)(–0·3 – 3 0 t ·1 o 6 0·00)(–0·2 – 6 0 t ·1 o 5 –0·04)(–0·27 –0 t · o 1 3 0·01) (–0·4 – 4 0· t 1 o 5 0·13)(–0·22 –0 t · o 1 1 –0·01)(–0·1 – 9 0 t ·1 o 0 0·00)(–0·4 – 0 0 · t 0 o 7 0·25)(–0·1 – 6 0 t ·0 o 6 0·05)(–0·1 – 8 0 t ·0 o 4 0·09)(–0·1 – 7 0 t · o 0 4 0·09)(–0·16 –0 t · o 0 4 0·08) (–0·1 – 5 0 t ·0 o 2 0·11) Lurasidone NA NA NA NA (–0·45 – 0 to ·3 – 6 0·27)
(–0·75 –0 t · o 5 8 –0·41)(–0·53 – 0 to ·3 – 5 0·18)(–0·8 – 0 0 · t 4 o 1 –0·01)(–0·3 – 7 0 t ·2 o 5 –0·12)(–0·5 – 1 0 t ·2 o 7 –0·03)(–0·4 – 7 0 t ·2 o 4 –0·02)(–0·33 – 0 to ·2 – 0 0·08)(–0·3 – 7 0 t ·1 o 8 0·00)(–0·3 – 0 0 t ·1 o 7 –0·03)(–0·31 –0 t · o 1 5 0·01) (–0·4 – 7 0 · t 1 o 7 0·13)(–0·26 –0 t · o 1 3 0·00)(–0·2 – 4 0 t ·1 o 2 0·01)(–0·4 – 3 0 t ·0 o 9 0·24)(–0·2 – 1 0 t ·0 o 7 0·06)(–0·2 – 2 0 t ·0 o 6 0·10)(–0·2 – 1 0 t ·0 o 6 0·10)(–0·20 –0 t · o 0 6 0·09)(–0·20 –0 t · o 0 4 0·12) (–0·1 – 6 0 · t 0 o 2 0·12) Cariprazine NA NA NA (–0·47 – 0 to ·3 – 4 0·21)
(–0·75 –0 t · o 5 9 –0·43)(–0·53 – 0 to ·3 – 7 0·21)(–0·8 – 1 0 t ·4 o 2 –0·02)(–0·3 – 7 0 t ·2 o 6 –0·15)(–0·5 – 1 0 t ·2 o 8 –0·05)(–0·4 – 7 0 t ·2 o 6 –0·04)(–0·32 – 0 to ·2 – 1 0·11)(–0·3 – 7 0 t ·1 o 9 –0·02)(–0·3 – 0 0 t ·1 o 8 –0·06)(–0·31 –0 t · o 1 6 –0·01)(–0·4 – 7 0 · t 1 o 8 0·11)(–0·26 –0 t · o 1 4 –0·03)(–0·23 –0 t · o 1 3 –0·03)(–0·4 – 3 0 t ·1 o 0 0·22)(–0·2 – 0 0 t ·0 o 9 0·03)(–0·2 – 2 0 t ·0 o 7 0·07)(–0·2 – 1 0 t ·0 o 7 0·07)(–0·19 –0 t · o 0 7 0·06)(–0·19 –0 t · o 0 5 0·09)(–0·16 –0 t · o 0 3 0·10) (–0·1 – 6 0 · t 0 o 1 0·14) Iloperidone NA NA (–0·39 – 0 to ·2 – 4 0·10)
(–0·78 –0 t · o 6 1 –0·45)(–0·56 – 0 to ·3 – 9 0·22)(–0·8 – 3 0 t ·4 o 4 –0·05)(–0·4 – 0 0 · t 2 o 8 –0·17)(–0·5 – 4 0 t ·3 o 0 –0·07)(–0·5 – 0 0 t ·2 o 8 –0·06)(–0·35 – 0 to ·2 – 4 0·12)(–0·40 – 0 to ·2 – 2 0·04)(–0·3 – 3 0 t ·2 o 0 –0·08)(–0·34 –0 t · o 1 9 –0·03)(–0·5 – 0 0 · t 2 o 1 0·09)(–0·28 –0 t · o 1 7 –0·05)(–0·27 –0 t · o 1 5 –0·03)(–0·4 – 6 0 · t 1 o 3 0·20)(–0·2 – 3 0 t ·1 o 1 0·01)(–0·2 – 5 0 t ·1 o 0 0·06)(–0·2 – 4 0 t ·0 o 9 0·05)(–0·23 –0 t · o 0 9 0·04)(–0·22 –0 t · o 0 7 0·07)(–0·1 – 9 0 t ·0 o 5 0·08) (–0·1 – 9 0 · t 0 o 4 0·12)(–0·17 –0 t · o 0 0 2 ·12) Brexpiprazole NA (–0·39 – 0 to ·2 – 7 0·15)
(–0·8 – 8 0 t · o 6 8 –0·47)(–0·66 – 0 to ·4 – 5 0·24)(–0·9 – 2 0 t · o 5 0 –0·09)(–0·5 – 2 0 t ·3 o 5 –0·17)(–0·6 – 3 0 t ·3 o 7 –0·10)(–0·6 – 0 0 · t 3 o 4 –0·09)(–0·47 – 0 to ·3 – 0 0·13)(–0·50 – 0 to ·2 – 8 0·06)(–0·4 – 5 0 t ·2 o 7 –0·09)(–0·4 – 5 0 t · o 2 5 –0·05)(–0·5 – 9 0 · t 2 o 7 0·05)(–0·4 – 1 0 t · o 2 3 –0·05)(–0·39 –0 t · o 2 2 –0·04)(–0·5 – 5 0 t ·1 o 9 0·16)(–0·3 – 5 0 t ·1 o 7 0·01)(–0·3 – 6 0 t ·1 o 6 0·04)(–0·3 – 5 0 t ·1 o 6 0·04)(–0·34 –0 t · o 1 6 0·03)(–0·33 –0 t · o 1 4 0·06)(–0·30 –0 t · o 1 2 0·07) (–0·3 – 0 0 · t 1 o 0 0·10)(–0·28 –0 t · o 0 9 0·11) (–0·2 – 6 0 t ·0 o 6 0·13)Lumateperone(–0·36 – 0 to ·1 0 8 ·00)
(–1·03 –0 t · o 9 – 0 0·77)(–0·81 – t 0 o ·6 – 8 0·55)(–1·11 – 0 to ·7 – 3 0·35)(–0·6 – 2 0 t ·5 o 7 –0·52)(–0·8 – 0 0 · t 5 o 9 –0·38)(–0·7 – 6 0 t ·5 o 7 –0·37)(–0·57 – 0 to ·5 – 3 0·48)(–0·65 – 0 to ·5 – 1 0·36)(–0·5 – 6 0 t ·4 o 9 –0·42)(–0·59 –0 t · o 4 7 –0·36)(–0·7 – 7 0 · t 4 o 9 –0·22)(–0·52 –0 t · o 4 5 –0·39)(–0·50 –0 t · o 4 4 –0·38)(–0·7 – 3 0 t ·4 o 2 –0·10)(–0·4 – 7 0 t ·4 o 0 –0·33)(–0·5 – 0 0 t ·3 o 9 –0·27)(–0·48 –0 t · o 3 8 –0·28)(–0·4 – 7 0 t · o 3 8 –0·29)(–0·4 – 7 0 t · o 3 6 –0·26)(–0·4 – 2 0 t ·3 o 4 –0·26)(–0·4 – 4 0 t · o 3 2 –0·21)(–0·4 – 1 0 t · o 3 1 –0·21)(–0·39 –0 t · o 2 9 –0·18)(–0·3 – 9 0 t ·2 o 3 –0·06) Placebo
Figure 4: League table of overall symptoms
Order of treatments is according to SUCRA. Results of the network-meta-analysis are presented in the left lower half and results of pairwise meta-analyses in the right upper half. Each cell provides the
effect estimate and the corresponding 95% CI of a comparison (lower left half: treatment in column versus treatment in row; right upper half: treatment in row versus treatment in column). The type
of effect size measure is SMD. Light yellow indicates that the point estimate is outside the range of very small differences but the 95% CI includes the value of no difference (SMD=0). Yellow indicates
that the point estimate is outside the range of very small effects and the 95% CI does not include the value of no difference but very small differences. Orange indicates that the point estimate and the
95% CI exclude very small effects. Blue indicates that the point estimate and the 95% confidence interval are within the range of very small effects. NA=not applicable. SMD=standardised mean
difference. SUCRA=surface under the cumulative ranking.
Articles
clozapine, along with amisulpride and risperidone,
reduced symptoms more than at least three other
A Cholinergic events
antipsychotics, where clozapine was more ecacious
C T OR S|I Events
than risperidone. Brexpiprazole, iloperidone, cariprazine,
(95% CI) (of 22) (95% CI)
and lurasidone reduced symptoms less than at least
Perphenazine (n=543) 8 6 0·62 (0·37 to 1·04) 6| 4% (2% to 6%)
three other antipsychotics (figure 3, appendix p 168).
Quetiapine (n=3315) 9 17 0·75 (0·59 to 0·95) 6| 4% (4% to 6%)
100% of antipsychotics reduced negative symptoms
Olanzapine (n=3973) 11 33 0·78 (0·62 to 0·97) 6| 5% (4% to 6%)
Perospirone (n=70) 1 1 0·76 (0·24 to 2·40) 2| 5% (1% to 13%) (100% excluding no dierence; 21 [83%] of 23 excluding
Placebo (n=10550) 19 110 Reference 5·848% very small eects) with SMDs ranging from –0·65
Paliperidone (n=2356) 2 14 1·02 (0·77 to 1·36) 2| 6% (5% to 8%) (95% CI –0·95 to –0·34) to –0·16 (–0·27 to –0·05; k=203;
Sertindole (n=649) 3 4 1·02 (0·61 to 1·70) 2| 6% (4% to 10%) n=49 952; t=23). Clozapine reduced symptoms more, and
Ziprasidone (n=1513) 8 14 1·08 (0·82 to 1·43) 2| 6% (5% to 8%)
chlorpromazine less, than at least three other
Risperidone (n=5110) 15 47 1·14 (0·96 to 1·35) 2| 7% (6% to 8%)
antipsychotics (figure 3, appendix p 181).
Blonanserin (n=1206) 3 8 1·18 (0·86 to 1·63) 2| 7% (5% to 9%)
Asenapine (n=1366) 4 6 1·19 (0·75 to 1·89) 2| 7% (4% to 11%) 100% of antipsychotics reduced depressive symptoms
Sulpiride (n=129) 3 4 1·27 (0·40 to 4·02) | 7% (2% to 20%) (19 [79%] of 19 excluding no dierence; 11 [58%] of 19
Zotepine (n=197) 4 4 1·29 (0·57 to 2·91) | 7% (3% to 15%) excluding very small eects) with SMDs ranging from
Brexpiprazole (n=1160) 2 5 1·32 (0·84 to 2·05) 2| 8% (5% to 11%) –0·91 (95% CI –1·37 to –0·44) to –0·11 (–0·29 to 0·06;
Cariprazine (n=1143) 3 5 1·34 (0·93 to 1·93) 2| 8% (5% to 11%)
k=111; n=28 536; t=19). Sulpiride reduced symptoms more,
Aripiprazole (n=2697) 10 20 1·33 (1·09 to 1·64) 2|3 8% (6% to 9%)
and haloperidol less, than at least three other
Amisulpride (n=430) 3 5 1·43 (0·77 to 2·66) | 8% (5% to 14%)
antipsychotics, but the evidence for sulpiride is based on
Lumateperone (n=408) 2 3 1·46 (0·91 to 2·32) 2| 8% (5% to 13%)
Haloperidol (n=3461) 16 38 1·53 (1·25 to 1·86) 2|3 9% (7% to 10%) only two studies versus chlorpromazine with
Chlorpromazine (n=977) 8 18 1·59 (1·09 to 2·33) 2|3 9% (6% to 13%) 52 participants on sulpiride, and thus without indirect
Lurasidone (n=2360) 5 11 1·72 (1·33 to 2·24) |3 10% (8% to 12%) evidence (appendix p 193).
Clozapine (n=422) 4 13 3·46 (2·23 to 5·35) |16 18% (12% to 25%) Patterns for dichotomous treatment response and
Xanomeline–trospium (n=341) 1 3 4·11 (2·27 to 7·43) |16 20% (12% to 32%)
discontinuation due to inecacy were similar to the
0·1 0·2 0·5 1 2 5 10 primary outcome (see appendix pp 201–236).
For cognition, SMDs versus placebo ranged from –1·04
Favours comparator Favours reference
(95% CI –2·06 to –0·03) to 0·29 (–0·25 to 0·83) but
B Anticholinergic events 95% CIs included no dierence for all drugs, except
C T OR S|I Events sertindole (k=25; n=3397; t=12). Sertindole improved
(95% CI) (of 24) (95% CI)
cognition more than at least three other antipsychotics
Brexpiprazole (n=653) 3 4 0·61 (0·31 to 1·22) 5| 3% (2% to 6%) but this was based on one study with 16 participants
Lurasidone (n=2235) 5 11 0·92 (0·63 to 1·34) 5| 5% (3% to 7%) taking sertindole only (appendix p 237).
Placebo (n=9620) 21 97 Reference 5·177%
12 (55%) of 22 antipsychotics had higher odds of
Asenapine (n=942) 3 4 1·00 (0·54 to 1·84) 4| 5% (3% to 9%)
cholinergic adverse events than placebo (six [27%] of
Blonanserin (n=1038) 3 6 1·14 (0·71 to 1·82) 3| 6% (4% to 9%)
Aripiprazole (n=2624) 9 20 1·26 (0·91 to 1·72) 3| 6% (5% to 9%) 22 excluding no dierence; three [14%] of 22 excluding
Risperidone (n=6197) 15 53 1·28 (1·03 to 1·59) 3| 7% (5% to 8%) very small eects) with ORs above very small eects
Amisulpride (n=453) 3 6 1·24 (0·58 to 2·67) | 6% (3% to 13%) ranging from 4·11 (95% CI 2·27 to 7·43) to 1·27
Ziprasidone (n=1404) 7 14 1·37 (0·93 to 2·03) 2| 7% (5% to 10%) (0·40 to 4·02; event rates 20–7% versus 6%; k=178;
Cariprazine (n=1143) 3 5 1·40 (0·84 to 2·32) 1| 7% (4% to 11%)
n=44 376; t=22). Perphenazine, olanzapine, and
Paliperidone (n=2781) 3 15 1·38 (0·98 to 1·95) 2| 7% (5% to 10%)
quetiapine had lower odds than at least three other
Sertindole (n=631) 4 4 1·40 (0·80 to 2·47) 1| 7% (4% to 12%)
Lumateperone (n=408) 2 3 1·41 (0·68 to 2·96) | 7% (4% to 14%) antispychotics, whereas lurasidone, chlorpromazine,
Perospirone (n=70) 1 1 1·39 (0·34 to 5·65) | 7% (2% to 24%) haloperidol, aripiprazole, and in particular xanomeline–
Haloperidol (n=2867) 15 32 1·53 (1·14 to 2·05) 2| 8% (6% to 10%) trospium and clozapine, had higher odds than at least
Sulpiride (n=129) 3 4 1·65 (0·66 to 4·10) | 8% (3% to 18%) three other antipsychotics (figure 5, appendix p 242).
Olanzapine (n=3952) 12 32 1·60 (1·22 to 2·09) 1| 8% (6% to 10%) 18 (75%) of 24 antipsychotics had higher odds of
Perphenazine (n=135) 4 4 1·96 (0·83 to 4·62) | 10% (4% to 20%)
anticholinergic adverse events than placebo (eight [33%]
Iloperidone (n=303) 2 1 2·39 (0·83 to 6·89) | 12% (4% to 27%)
of 24 excluding no dierence; five [21%] of 24 excluding
Olanzapine–samidorphan (n=134) 2 1 3·01 (0·90 to 10·10) | 14% (5% to 36%)
Quetiapine (n=3211) 9 19 2·67 (1·94 to 3·68) |6 13% (10% to 17%) very small eects), with ORs ranging from 3·55 (95% CI
Xanomeline–trospium (n=341) 1 3 3·35 (1·65 to 6·80) |3 15% (8% to 27%) 1·31 to 9·66) to 1·28 (1·03 to 1·59) (event rates
Zotepine (n=151) 3 3 3·55 (1·31 to 9·66) |2 16% (7% to 35%) 16–7% versus 5%; k=170; n=42 841; t=24). Brexpiprazole,
Clozapine (n=344) 3 9 3·41 (1·94 to 5·99) |9 16% (10% to 25%) lurasidone, asenapine, blonanserin, aripiprazole, and
Chlorpromazine (n=1075) 8 18 3·51 (2·31 to 5·33) |12 16% (11% to 23%)
risperidone had lower odds than at least three other
0·1 0·2 0·5 1 2 5 10 antispychotics, whereas chlorpromazine, clozapine,
xanomeline–trospium, and quetiapine had higher odds
Favours comparator Favours reference
than at least three other antipsychotics (figure 5, appendix
(Figure 5 continues on next page) p 260).
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Articles
21 (88%) of 24 antipsychotics had higher odds of
C Sedation
sedation than placebo (17 [71%] of 24 excluding no
C T OR S|I Events
dierence; 15 [62%] of 24 excluding very small eects), (95% CI) (of 24) (95% CI)
with ORs ranging from 6·37 (95% CI 4·18 to 9·69)
Placebo (n=10255) 21 108 Reference 4·087%
to 1·38 (0·74 to 2·58; event rates 21–6% versus 4%;
Brexpiprazole (n=1082) 3 5 1·05 (0·59 to 1·89) 10| 4% (2% to 7%)
k=180; n=44 846; t=24). Brexpiprazole, cariprazine, Cariprazine (n=680) 2 3 1·14 (0·66 to 1·98) 10| 5% (3% to 8%)
iloperidone, sertindole, paliperidone, blonanserin, Iloperidone (n=303) 2 1 1·38 (0·74 to 2·58) 5| 6% (3% to 10%)
aripiprazole, and lurasidone had lower odds than at least Xanomeline–trospium (n=90) 1 1 1·02 (0·13 to 7·78) | 4% (1% to 25%)
three other antipsychotics, whereas particularly Sertindole (n=989) 4 5 1·48 (0·95 to 2·31) 7| 6% (4% to 9%)
clozapine, along with zotepine, sulpiride, chlorpro- Paliperidone (n=2730) 3 15 1·59 (1·17 to 2·17) 7| 6% (5% to 8%)
Blonanserin (n=1103) 3 7 1·72 (1·09 to 2·73) 4| 7% (4% to 10%)
mazine, quetiapine, ziprasidone, and olanzapine had
Aripiprazole (n=2496) 9 18 1·87 (1·44 to 2·44) 5| 7% (6% to 9%)
higher odds of sedation than at least three other
Perospirone (n=70) 1 1 1·81 (0·45 to 7·31) | 7% (2% to 24%)
antipsychotics (figure 5, appendix p 279). Amisulpride (n=315) 3 4 1·90 (0·94 to 3·87) 1| 7% (4% to 14%)
17 (74%) of 23 antipsychotics were associated with Lurasidone (n=2413) 5 11 2·14 (1·52 to 3·00) 3| 8% (6% to 11%)
higher odds of using antiparkinsonian drugs for Lumateperone (n=408) 2 3 2·33 (1·51 to 3·60) 1| 9% (6% to 13%)
extrapyramidal symptoms than placebo (12 [52%] of 23 Risperidone (n=5351) 15 45 2·41 (1·99 to 2·91) 2| 9% (8% to 11%)
Haloperidol (n=3428) 15 40 2·60 (2·10 to 3·20) 1|2 10% (8% to 12%)
excluding no dierence; four [17%] of 23 excluding very
Olanzapine–samidorphan (n=345) 2 2 2·92 (1·50 to 5·68) | 11% (6% to 19%)
small eects), with ORs ranging from 4·38 (95% CI
Olanzapine (n=4461) 12 37 3·15 (2·57 to 3·86) 1|4 12% (10% to 14%)
3·54 to 5·43) to 1·28 (0·71 to 2·28; event rates 31–12% Asenapine (n=1366) 4 6 3·21 (1·99 to 5·17) |2 12% (8% to 18%)
versus 10%; k=132; n=34 221; t=23). Clozapine, Ziprasidone (n=1597) 7 15 3·25 (2·47 to 4·28) |5 12% (10% to 15%)
quetiapine, sertindole, and olanzapine were associated Quetiapine (n=3217) 9 19 3·35 (2·65 to 4·24) |5 12% (10% to 15%)
with lower odds than at least three other antipsy- Perphenazine (n=218) 3 3 4·82 (1·91 to 12·16) |2 17% (8% to 34%)
Chlorpromazine (n=1215) 7 21 4·61 (3·26 to 6·52) |9 16% (12% to 22%)
chotics, whereas particularly haloperidol, along with
Sulpiride (n=97) 2 3 5·84 (2·44 to 13·98) |7 20% (9% to 37%)
chlorpromazine, zotepine, lurasidone, and risperidone
Zotepine (n=165) 3 4 5·84 (2·87 to 11·86) |8 20% (11% to 34%)
were associated with higher odds than at least three other Clozapine (n=452) 4 14 6·37 (4·18 to 9·69) |13 21% (15% to 29%)
antipsychotics (figure 5, appendix p 296). For
0·1 0·2 0·5 1 2 5 10
xanomeline–trospium see the appendix (p 567).
17 (71%) of 24 antipsychotics had higher odds of Favours comparator Favours reference
akathisia than placebo (13 [54%] of 24 excluding no
D Use of antiparkinsonian drugs
dierence; 12 [50%] of 24 excluding very small eects),
C T OR S|I Events
with ORs ranging from 4·32 (95% CI 3·52 to 5·30) (95% CI) (of 23) (95% CI)
to 1·32 (0·92 to 1·88; event rates of 15–5% versus 4%;
k=152; n=41 649; t=24). Iloperidone, sertindole, Clozapine (n=175) 3 7 0·68 (0·31 to 1·50) 6| 7% (3% to 14%)
Lumateperone (n=234) 2 2 0·69 (0·21 to 2·29) 1| 7% (2% to 19%)
olanzapine–samidorphan, olanzapine, quetiapine,
Quetiapine (n=2742) 7 15 0·94 (0·67 to 1·31) 4| 9% (7% to 12%)
brexpiprazole, and paliperidone had lower odds than at
Xanomeline–trospium (n=126) 1 1 0·33 (0·01 to 8·90) | 3% (0% to 48%)
least three other antipsychotics, whereas particularly Placebo (n=7214) 18 76 Reference 3| 9·489%
haloperidol along with perphenazine, chlorpromazine, Sertindole (n=1121) 3 5 0·99 (0·65 to 1·53) 3| 9% (6% to 14%)
blonanserin, sulpiride, cariprazine, perospirone, Olanzapine (n=3176) 10 23 1·06 (0·81 to 1·39) 4| 10% (8% to 13%)
lurasidone, risperidone, aripiprazole, and ziprasidone Asenapine (n=484) 3 3 1·28 (0·71 to 2·28) 1| 12% (7% to 19%)
Amisulpride (n=391) 2 6 1·45 (0·86 to 2·45) 1| 13% (8% to 20%)
had higher odds than at least three other antipsychotics
Iloperidone (n=427) 3 2 1·48 (0·67 to 3·28) 1| 13% (7% to 26%)
(appendix p 311).
Paliperidone (n=2962) 3 15 1·56 (1·20 to 2·04) 1| 14% (11% to 18%)
Nine (41%) of 22 antipsychotics led to higher prolactin Brexpiprazole (n=598) 1 2 1·58 (0·73 to 3·40) | 14% (7% to 26%)
than placebo (nine [41%] of 22 excluding no dierence; Aripiprazole (n=1566) 6 12 1·64 (1·16 to 2·31) 1| 15% (11% to 19%)
six [27%] of 22 excluding very small eects), with MDs Ziprasidone (n=948) 5 9 1·65 (1·14 to 2·38) 1| 15% (11% to 20%)
ranging from 58·23 ng/ml (95% CI 39·00 to 77·45) to Sulpiride (n=97) 2 3 1·99 (0·81 to 4·86) | 17% (8% to 34%)
7·42 ng/ml (4·36 to 10·48; k=114; n=28 642; t=22). Blonanserin (n=389) 3 3 1·92 (1·05 to 3·52) 1| 17% (10% to 27%)
Risperidone (n=4369) 13 36 1·89 (1·52 to 2·35) 1|3 17% (14% to 20%)
Particularly amisulpride, paliperidone, and risperidone,
Lurasidone (n=2413) 5 11 2·20 (1·60 to 3·03) 1|4 19% (14% to 24%)
along with zotepine, perphenazine, and haloperidol,
Zotepine (n=176) 3 3 2·40 (1·22 to 4·72) |1 20% (11% to 33%)
increased prolactin more than at least three other Cariprazine (n=279) 1 2 2·60 (1·19 to 5·65) |1 21% (11% to 37%)
antipsychotics, whereas aripiprazole, cariprazine, Chlorpromazine (n=358) 5 8 2·63 (1·41 to 4·88) |4 22% (13% to 34%)
quetiapine, lumateperone, clozapine, and some other Perospirone (n=70) 1 1 2·91 (1·07 to 7·94) | 23% (10% to 45%)
antipsychotics increased prolactin less than at least Perphenazine (n=146) 1 1 2·91 (1·09 to 7·73) | 23% (10% to 45%)
Haloperidol (n=3760) 17 42 4·38 (3·54 to 5·43) |14 31% (27% to 36%)
three other antipsychotics. Aripiprazole resulted in
lower prolactin levels than placebo with a 95% CI 0·1 0·2 0·5 1 2 5 10
excluding no dierence (figure 5, appendix p 326).
Favours comparator Favours reference
Five (26%) of 19 antipsychotics increased QTc
(five [26%] of 19 excluding no dierence; three [16%] of (Figure 5 continues on next page)
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19 excluding very small eects) with MDs ranging sertindole, along with amisulpride and ziprasidone
from 22·15 (95% CI 18·06 to 26·24) to 6·29 ms increased QTc more than at least three other
(3·96 to 8·62; k=66; n=21 022; t=19). Particularly antipsychotics, whereas brexpiprazole, aripiprazole, and
lurasidone increased QTc less than at least three other
antipsychotics (figure 5, appendix p 356).
19 (83%) of 23 antipsychotics increased weight
E Change in prolactin (ng/mL)
(16 [70%] of 23 excluding no dierence; 11 [48%] of
C T MD S|I
(95% CI) (of 22) 23 excluding very small eects), with MDs ranging from
3·21 kg (95% CI 2·21 to 4·22) to 0·51 kg (–1·36 to 2·39;
Aripiprazole (n=1834) 11 18 –6·52 (–10·53 to –2·50) 10|
k=171; n=46 720; t=23). Xanomeline–trospium,
Cariprazine (n=714) 3 3 –2·73 (–9·95 to 4·49) 6|
ziprasidone, lurasidone, lumateperone, aripiprazole,
Quetiapine (n=2608) 10 18 –1·85 (–5·68 to 1·97) 6|
Placebo (n=6374) 14 66 Reference haloperidol, blonanserin, cariprazine, amisulpride,
Lumateperone (n=344) 2 3 –0·18 (–6·95 to 6·58) 6| brexpiprazole, and asenapine resulted in less weight gain
Clozapine (n=37) 2 2 –1·41 (–21·13 to 18·30) 5| than at least three other antipsychotics, whereas
Xanomeline–trospium (n=126) 1 1 0·20 (–12·19 to 12·59) 5| particularly zotepine, olanzapine, and sertindole, along
Brexpiprazole (n=1070) 2 5 1·29 (–4·43 to 7·01) 5|
with olanzapine–samidorphan, clozapine, iloperidone,
Perospirone (n=51) 1 1 0·58 (–17·91 to 19·08) 3|
chlorpromazine, quetiapine, risperidone, and
Ziprasidone (n=1303) 9 10 1·18 (–4·01 to 6·37) 5|
Blonanserin (n=357) 3 4 1·97 (–7·14 to 11·08) 5| paliperidone showed more weight gain than at least
Iloperidone (n=451) 4 3 4·18 (–2·90 to 11·26) 5| three other antipsychotics (figure 5, appendix p 385).
Lurasidone (n=2130) 5 11 4·42 (0·41 to 8·44) 5|1 The analyses using SMD and on participants with
Asenapine (n=910) 4 5 4·87 (–1·17 to 10·91) 5| hyperprolactinaemia, QTc prolongation, and weight gain
Olanzapine (n=3105) 12 27 7·42 (4·36 to 10·48) 5|1
yielded results similar to the MD results for prolactin,
Chlorpromazine (n=244) 2 2 13·40 (1·48 to 25·32) 3|1
QTc, and weight (appendix pp 366–419).
Sertindole (n=129) 1 1 15·58 (1·47 to 29·69) 3|1
Six (43%) of 14 antipsychotics had higher odds of sexual
Haloperidol (n=1960) 12 24 18·40 (14·89 to 21·91) 3|12
Perphenazine (n=243) 6 2 26·63 (15·69 to 37·57) 2|13 adverse events than placebo (one [7%] of 14 excluding no
Zotepine (n=28) 1 1 34·03 (6·53 to 61·52) |5 dierence; one [7%] of 14 excluding very small eects),
Risperidone (n=3299) 14 36 37·09 (33·99 to 40·18) |17 with ORs ranging from 8·35 (95% CI 4·07 to 17·14)
Paliperidone (n=1227) 4 10 44·52 (38·94 to 50·11) |18 to 1·26 (0·62 to 2·57; event rates 6–1% versus 1%; k=48;
Amisulpride (n=98) 3 3 58·23 (39·00 to 77·45) |18
n=18 281; t=14). Sertindole had higher odds than most
–50 –30–10010 30 50 other antipsychotics; however, low event rates per study
make estimates uncertain (appendix p 420).
Favours comparator Favours reference
14 (82%) of 17 antipsychotics had higher odds of heart
F Change in QTc (ms) rate abnormalities than placebo (seven [41%] of
C T MD S|I 17 excluding no dierence; six [35%] of 17 excluding very
(95% CI) (of 19) small eects), with ORs ranging from 13·56 (95% CI
Cariprazine (n=293) 2 1 –2·35 (–7·15 to 2·46) 2| 4·23 to 43·44) to 1·34 (0·78 to 2·29; event rates 22–3%
Brexpiprazole (n=695) 1 2 –1·48 (–4·57 to 1·62) 3| versus 2%; k=81; n=23 198; t=17). Iloperidone, clozapine,
Lurasidone (n=1585) 4 8 –1·18 (–3·08 to 0·71) 3| and chlorpromazine had higher odds than at least
Aripiprazole (n=1127) 8 7 –1·21 (–3·96 to 1·54) 3|
three other antipsychotics. The increased odds were
Placebo (n=3556) 14 38 Reference
mainly due to tachycardia and arrythmias and less due to
Paliperidone (n=222) 2 1 0·93 (–2·94 to 4·81) 1|
Haloperidol (n=1904) 10 19 0·98 (–0·87 to 2·82) 2| bradycardia (appendix pp 434–472).
Xanomeline–trospium (n=89) 1 1 1·10 (–5·42 to 7·62) 1| Due to the low number of events per study, estimates
Perospirone (n=51) 1 1 1·49 (–4·51 to 7·48) 1| were very uncertain for reductions in white blood cell
Perphenazine (n=238) 6 1 1·65 (–3·06 to 6·37) 1| counts, seizures, deep vein thrombosis, and death
Blonanserin (n=154) 1 1 2·41 (–5·06 to 9·89) 1|
(appendix pp 473–533).
Risperidone (n=2482) 12 19 3·61 (1·87 to 5·36) 1|
All antipsychotics except haloperidol were associated
Olanzapine (n=2631) 11 18 3·70 (1·69 to 5·70) 1|
Asenapine (n=57) 2 1 4·95 (–1·41 to 11·30) 1| with higher quality of life (four [36%] of 11 excluding no
Quetiapine (n=1670) 8 8 4·58 (2·42 to 6·75) 1| dierence; two [18%] of 11 excluding very small eects)
Iloperidone (n=869) 4 4 6·29 (3·96 to 8·62) 1| with SMDs from –0·42 (95% CI –1·02 to 0·18) to –0·16
Ziprasidone (n=2374) 9 17 7·73 (5·76 to 9·70) 1|3 (–0·63 to 0·31; k=17; n=5336; t=11). There were no clear
Chlorpromazine (n=142) 1 1 11·83 (1·27 to 22·40) |
dierences between antipsychotics (appendix p 534).
Amisulpride (n=178) 1 2 11·91 (6·53 to 17·30) |5
All antipsychotics improved social functioning
Sertindole (n=705) 4 4 22·15 (18·06 to 26·24) |16
(13 [93%] of 14 excluding no dierence; 12 [86%] of
–20 –10 0 10 20 14 excluding very small eects), with SMDs ranging
from –1·05 (95% CI –1·63 to –0·48) to –0·15
Favours comparator Favours reference
(–0·45 to 0·15; k=37; n=10 675; t=14). Clozapine improved
(Figure 5 continues on next page) functioning more than at least three other antipsychotics
886
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(but based on 28 participants in two studies only;
G Change in weight (kg)
appendix p 541).
C T MD S|I
20 (83%) of 24 antipsychotics had lower odds of discon- (95% CI) (of 23)
tinuation for any reason than placebo (16 [67%] of 24
Xanomeline–trospium (n=340) 1 3 –0·37 (–1·27 to 0·53) 11|
excluding no dierence; nine [38%] of 24 excluding very
Ziprasidone (n=2299) 9 16 –0·12 (–0·53 to 0·29) 11|
small eects), with ORs ranging from 0·44 (95% CI Placebo (n=9477) 20 94 Reference
0·29 to 0·69) to 0·79 (0·67 to 0·94; event rates of 38–26% Lurasidone (n=2160) 4 11 0·40 (–0·01 to 0·81) 10|
versus 44%; k=241; n=59 381; t=24). Paliperidone, Lumateperone (n=372) 2 3 0·45 (–0·33 to 1·23) 6|
olanzapine, amisulpride, and risperidone had lower odds Aripiprazole (n=3429) 11 25 0·55 (0·24 to 0·87) 9|
Haloperidol (n=3330) 15 31 0·56 (0·24 to 0·89) 9|
whereas xanomeline–trospium, sertindole, and
Blonanserin (n=1028) 5 8 0·58 (–0·09 to 1·26) 6|
haloperidol had higher odds than at least three other
Cariprazine (n=877) 3 4 0·61 (–0·02 to 1·24) 6|
antipsychotics (figure 3, appendix p 548). Perospirone (n=75) 2 2 0·51 (–1·36 to 2·39) 2|
We did not find clear evidence against the transitivity Amisulpride (n=539) 4 6 0·97 (0·26 to 1·69) 3|
assumption (appendix p 568). Heterogeneity was low Brexpiprazole (n=1216) 2 6 1·02 (0·44 to 1·60) 3|
or low-moderate compared with empirical distributions Perphenazine (n=431) 7 3 1·16 (0·36 to 1·95) 2|
Asenapine (n=1343) 4 7 1·24 (0·73 to 1·74) 3|2
in the primary outcome (common-τ=0·097) and all
Paliperidone (n=2658) 5 19 1·45 (1·11 to 1·79) 2|3
secondary outcomes, except prolactin, use of
Risperidone (n=5027) 17 46 1·55 (1·27 to 1·82) 2|5
antiparkinsonian medication, and anticholinergic Quetiapine (n=3123) 9 18 1·94 (1·53 to 2·34) 1|8
adverse event (all moderate-high). Uncertainty due to Chlorpromazine (n=384) 6 6 1·98 (1·21 to 2·74) |5
heterogeneity, as represented by prediction intervals, Iloperidone (n=939) 4 4 2·12 (1·50 to 2·73) |8
challenged the interpretation only for very few Clozapine (n=152) 5 8 2·22 (1·14 to 3·29) |5
Olanzapine–samidorphan (n=336) 2 2 2·44 (1·48 to 3·39) |8
comparisons in most outcomes (1·33% for the primary
Sertindole (n=1019) 4 5 2·59 (1·94 to 3·24) |11
outcome). Heterogeneity in network meta-analyses
Olanzapine (n=5980) 15 54 2·91 (2·64 to 3·17) |16
excluding subgroup populations was similar to the
Zotepine (n=186) 4 4 3·21 (2·21 to 4·22) |15
primary analyses (appendix p 571). Statistical indications
of inconsistency were observed for the primary outcome –5 –4 –3–2–10 1 2 3 4 5
and several secondary outcomes. However, our detailed Favours comparator Favours reference
exploration revealed no critical concerns regarding the
Figure 5: Panel of tolerability outcomes
validity of NMA results (appendix p 578).
The order of treatments is according to the SUCRA-ranking (or the mean effect for rare binary outcomes because
Sensitivity and network meta-regression analyses
SUCRA-ranking technically not possible). The direction of the effect is indicated below the x-axis. The column C
yielded no materially dierent results (appendix indicates, for the treatment in the line, how many other interventions it has been directly compared with in a
pp 626–709) and there were no indications for clinically study; the column T indicates the number of studies with data for this intervention. The column S|I indicates,
for the treatment in the line, how many other antipsychotics the intervention is superior (before the |-symbol)
relevant dierences in ecacy between oral, transdermal,
or inferior (after the |-symbol) to, defined as a point estimates above or below very small effects, respectively, and
and long-acting-injectable applications (appendix p 670).
95% CIs excluding very small differences (an information only available in the league tables in the appendix
For the primary outcome, 1% of studies were rated as otherwise); in parenthesis the total number of antipsychotics in this NMA. The colour of the lines of the CIs
low risk of bias, 63% as some concerns of bias, and indicates the CINEMA-confidence in estimates: green=high, blue=moderate, orange=low, and red=very low.
C=connectivity. CINEMA=Confidence in Network Meta-Analysis. I=inferior. MD=mean difference. n=number of
36% as high risk of bias (details, other outcomes, and
participants. OR=odds ratio. S=superior. SUCRA=surface under the cumulative ranking. NMA=network meta-
subgroup analysis by bias risk are provided in the analysis. T=trials.
appendix p 710). There were some indications for
potential small study publication bias in placebo- olanzapine–samidorphan, lumateperone, blonanserin, and
controlled trials in funnel plots (appendix p 781). perospirone—absent in 2019—alongside other
CINEMA-ratings were mostly moderate-low and low-very antipsychotics, and includes 16 additional outcomes
low for antipsychotics versus placebo (figures 3 and 5) (eg, cognition, cholinergic and sexual adverse eects, and
and antipsychotics versus antipsychotics (appendix seizures). The relative ecacy and safety of xanomeline–
pp 152–567, 797–817), respectively. trospium is particularly important given its muscarinic
mechanism, as it is the first antipsychotic not acting
Discussion primarily on dopamine receptors.44
To our knowledge, this is the most up to date comprehensive Clozapine, along with amisulpride, olanzapine, and
NMA on antipsychotic treatment for acute schizophrenia, risperidone, was more ecacious than at least three other
which provides evidence for potentially guideline-changing antipsychotics with small to medium eect sizes.
clinically relevant dierences between antipsychotics in Currently, no major guidelines state specific ecacy
ecacy. Compared with our 2019 review,4 this study dierences between antipsychotics (except for treatment
includes a 1·5-times larger dataset (26 802 participants resistance). Our findings support guideline updates in
more; 170 newly included studies), focuses on studies this regard, reinforced by the largest antipsychotics RCT
with appropriate randomisation indicated, and it to date to our knowledge (3067 participants),45 in which
emphasises clinical relevance rather than statistical olanzapine and risperidone were superior to aripiprazole,
significance alone. It also includes xanomeline–trospium, ziprasidone, and quetiapine.
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Xanomeline–trospium ranked in the top third for online questionnaire. Of these, only 27 described
ecacy in the current review, avoids dopamine-blocking appropriate methods, whereas the majority indicated
adverse events, but causes cholinergic and anticholinergic suboptimal methods, use of observational instead of
adverse events. Its comparison with other antipsychotics randomised data (as clinicians chose the antipsychotics),
was indirect, based only on three placebo-controlled or unreliable data. Given related concerns for other
trials, so uncertainty remains despite no clear bias or countries without long-standing research tradition
transitivity issues, and head-to-head studies are needed. (eg, India and Iran),23,22,53 we approached those countries
Patients’ acceptance might also be problematic, as it had alike and only included trials with actively confirmed
the highest discontinuation risk across antipsychotics, appropriate methods.
although only one participant discontinued for inecacy. It could be considered a limitation of this study that
Clozapine had high odds of cholinergic adverse we included trials conducted under the auspices of
events similar to xanomeline–trospium, supporting a pharmaceutical companies and industry-independent
speculative idea that muscarinic modulation might trials from countries categorised as countries with long-
underlie its ecacy.46 Although its high ecacy aligns standing research tradition according to Panagiotou and
with observational data,47 uncertainty remains in RCT colleagues (see Methods)23 without explicit confirmation
data because estimates stem mainly from small, relatively of methods. However, our experience from contacting
old (often published before 1990) trials. Moreover, authors, in which none of them revealed inappropriate
individual patient data meta-analysis in treatment- methods and many confirmed appropriate methods, as
resistant patients did not confirm superiority over well as our sensitivity analyses, support this decision.
olanzapine and risperidone.31 Although we included far Another potential limitation of this study is the broad
more participants taking clozapine than in 20194 inclusion criteria, but these were based on a large meta-
(eg, 450 compared with 31 for positive symptoms), data analysis18 (537 RCTs with 76 382 participants) that found
on QTc and prolactin remain insucient. no major ecacy and tolerability dierences across
Partial dopamine-agonists (aripiprazole, brexpiprazole, patient populations; thus, no key eect modifiers
and cariprazine) were not among the top drugs regarding emerged, and transitivity was unlikely to have been
ecacy but overall showed better tolerability than compromised. Reported higher response rates in first-
dopamine-antagonists.48 Specifically, aripiprazole might episode patients52 are likely confounded, as they come
be considered when tolerability is a primary concern, as solely from head-to-head trials, which systematically
it also ranked in the middle of all antipsychotics in show higher response than placebo-controlled trials.54
ecacy (rank 12 of 24). Our sensitivity analyses excluding subgroups yielded
Lumateperone ranked low in ecacy even after similar results and heterogeneity, indicating that average
adjustment for placebo-response,49 similar to cariprazine relative eects are applicable across patient groups. Still,
and brexpiprazole, which is relevant for cost-eectiveness research in subgroups remains needed because their
calculations. Samidorphan reduced olanzapine-related trial networks are sparse.
weight gain only slightly (0·47 kg less), this was possibly Another limitation is that for sexual adverse eects,
because the included trials were short as longer studies, low and probably under-reported event rates impeded
which were ineligible for our review,50,51 indicate greater the analysis (eg, for the strongly prolactin-inducing
but not neutralising eects (1·9 kg less51). amisulpride) and we refer to an ongoing larger review.55
Blonanserin, which is only licensed in some Asian Only 25 included trials investigated cognition; however,
countries, showed moderate ecacy and tolerability, another broader review25 with 68 trials similarly found no
supporting its use outside Asia (for perospirone more clear dierences between antipsychotics.
research is needed as data are from 87 participants only). Extensive sensitivity and meta-regression analyses
We excluded several first generation antipsychotics confirmed our initial findings. However, residual bias
from our review protocol because second generation persists due to factors inherent in schizophrenia drug
antipsychotics are first-line treatments in middle-to-high- research, such as participants’ premature study discon-
income countries and most first generation antipsychotic tinuation, compromised blinding by adverse eects or
trials were old, small, methodologically outdated, and suboptimal over-encapsulation, and potential reporting
produced inconclusive NMA results in 2019.4 Since no bias, which prevented high certainty CINEMA
new trials on the excluded first generation antipsychotics judgements. Additionally, certainty for estimates
exist (figure 1), findings were unlikely to dier from indicating small or very small dierences is reduced, as
earlier reviews.4,9,10,12,13,52 only extremely large sample sizes would ensure precision.
Of 5117 Chinese trials labelled as RCTs, only 24 were Conversely, the review’s conclusions, based on estimates
included. Following our protocol we only selected RCTs whose CIs excluded very small dierences, were not
for which authors confirmed appropriate randomisation, downgraded for imprecision and achieved better certainty.
because of raised concerns.2,3,20 However, authors of only Furthermore, in principle, chance findings across the
347 RCTs responded to our requests sent in Chinese NMAs for multiple outcomes can occur. Therefore, the
from Shanghai and facilitated by a specifically designed overall repeated patterns across outcomes or reviews are
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important for interpretation and not only the singular but placebo response or spontaneous remissions could
statistically significant results (particularly for also be more frequent among them.54,65
interventions informed by only few participants or Regarding methods of evidence-based medicine,
studies and loosely connected to the network as those systematic reviewers, guideline makers, and guideline
are more prone to outlying results due to chance users should be aware that many RCTs listed in Chinese
findings, imperceptible intransitivity, or bias, as control databases likely have methodological shortcomings,
through other studies or network-pathways is missing ranging from suboptimal randomisation to the use
(see figures 3, 5, and appendix pp 152–567). of observational data and publication of unreliable
Overall, this NMA documents dierences in ecacy results. Unfortunately, this also aects recent trials,
and tolerability between antipsychotics. Pragmatic drug despite government actions in China.66,67 In this review
choice depends on individual patient characteristics. For we only addressed antipsychotics, but other studies have
example, antipsychotics with fewer adverse eects and flagged similar problems with trials from other medical
adapted doses might be advisable for the still maturating disciplines.20–22
adolescents and for older adults with reduced drug
Contributors
metabolism and age-related brain loss as, for example, SL and CL obtained the funding and supervised the study. SL, CL, YZ,
older people have a higher risk of tardive dyskinesia JS-T, SS, IB, JMD, AN, and GS designed the systematic review and
associated with extrapyramidal symptoms. Prolactin- meta-analysis. JS-T, MQ, JT, XL, CV, and MW (for non-Chinese studies)
and YZ, YD, SG, JW, and MQ (for Chinese studies) screened the
increasing drugs have been associated with breast cancer
literature searches and contacted study authors. JS-T, AR, MQ, XL, JT,
in women.56 Drug choice should also consider MW, CV, and SS (for non-Chinese studies) and YZ, YD, SG, JW, and MQ
comorbidities (eg, avoid olanzapine in diabetes and QTc (for Chinese studies) extracted data from included studies and assessed
risk of bias. FK optimised and maintained the database for extraction,
prolonging amisulpride in cardiac disorders), target
engaging in quality assurance. JS-T conducted the network meta-
symptoms (eg, the D3-partial agonist cariprazine and
analyses under the supervision of AN and GS and with support by
low-dose amisulpride have the best evidence in persistent SS and AR. AN conducted the network meta-regression analyses.
negative symptoms57), preferred administration route ES provided the patients’ perspective when designing the study and
interpreting the results. JS-T, YZ, and SL accessed and verified the study
(non-adherence is more common in substance abuse),
data. JS-T, YZ, SL, GS, AN, SS, AR, IB, CL, JP, and JMD interpreted the
and particularly patients’ values. The importance patients results. JS-T, GS, and SL drafted the manuscript. All authors had full
give to individual adverse eects varies, and some access to all the data in the study and had final responsibility for the
prioritise symptom control over adverse eects. Finally, decision to submit for publication.
there is high inter-individual variability in drug response Declaration of interests
and not all patients develop all adverse eects. Electronic SL has received honoraria for consulting from Angelini, Bristol-Myers-
Squibb, Boehringer Ingelheim, Johnson and Johnson, Karuna, Kynexis,
devices58,59 (such as those listed on Illuminatum) can Neurotorium, NovoNordisk, Otsuka, ROVI, and TEVA, and has received For Illuminatum see
support this highly individualised shared decision- payment for lectures from Angelini, Apsen, Boehringer Ingelheim, www.illuminatum.com
making process (appendix p 818). Gedeon Richter, Johnson and Johnson, Mitsubishi, Orionpharma,
Future research should identify predictors of response Otsuka, Lundbeck, ROVI, Sun Pharma, and TEVA. All other authors
declare no competing interests.
and adverse eects for even more individualised
Data sharing
treatment; therefore, individual patient data are needed,
Aggregate data (ie, summary results per study arm) and a data dictionary
but currently these are only available for a few drugs at
can be made available for methodological purposes and validation of
portals such as Vivli. results on written request to the corresponding author including a For Vivli see www.vivli.org
Head-to-head trials are needed to confirm the relative detailed study plan.
ecacy of xanomeline–trospium (to date, none are Acknowledgments
registered at ClinicalTrials.gov or WHO-ICRTP) and This study was funded by the German Research Foundation (Deutsche
it would be important to explore whether certain Forschungsgemeinschaft [DFG], grant number 468853597), the German
Center for Mental Health (funded by the German Ministry of Research,
individuals respond more favourably to muscarinic
Technology and Space, Bundesministerium für Bildung und Forschung,
rather than antidopaminergic antipsychotics. grant number 01EE2303B) and the National Natural Science Foundation
RCTs following current standards, comparing of China (NSFC, grant number 82161138021). AN was supported by the
clozapine to amisulpride, olanzapine, and risperidone in DFG Project-ID 499552394–SFB 1597. We specifically thank all the
493 authors who answered to our requests regarding study methods and
the general population (ie, not limited to treatment-
missing outcome data. Listing all respondents by name would not be
resistance) are needed to confirm clozapine’s superior feasible within the constraints of this manuscript and would raise data
ecacy (some trials are underway60,61). If RCT results are protection concerns. Additionally, we thank Miao Zhang, Juanjuan Ren,
Yue Hu, Mengyi Gao, Yuanmeng Li, Jiayun Qiu, Huiqi Li, and
positive, clozapine could be recommended earlier, not
Shuoyuan Zhang for their help in contacting Chinese trial authors;
only in cases of resistance to two other antipsychotics,
Nobuyuki Nomura for contacting Japanese authors; Filip Milosavljević
despite its adverse eects. for contacting Serbian authors; Xiaochun Qiu of Library of Shanghai
Moreover, placebo-controlled studies in antipsychotic- Jiao Tong University School of Medicine and Farhad Shokraneh of
Systematic Review Consultants (https://systematicreview.info) for
naive (never treated) individuals do not exist62 (except for
designing and conducting the professional literature searches; and
subgroup analyses in adolescents63,64) but would be Orestis Efthimiou for his advice in performing network meta-analysis of
important to clarify the true absolute eects of anti- rare event data. Moreover, we explicitly thank the authors of the
psychotic treatment. Drug-response might be higher,13,52 previous reviews on which this work was built (first authors
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Maximilian Huhn, Marc Krause, Dongfang Wang, Myrto Samara, 18 Leucht S, Chaimani A, Krause M, et al. The response of subgroups
Shimeng Dong) and Hui Wu, Angelika Burschinski, Lena Feber, of patients with schizophrenia to dierent antipsychotic drugs:
Natalie Peter, Yuki Furukawa, and Yaohui Wei for their help in study a systematic review and meta-analysis. Lancet Psychiatry 2022;
selection and data extraction and David Kim for advising on the 9: 884–93.
language of the manuscript as a native speaker. Wulf-Peter Hansen, 19 Wang D, Schneider-Thoma J, Siafis S, et al. Long-acting injectable
who collaborated as a person with lived-experience in this project and second-generation antipsychotics vs placebo and their oral
provided the patients’ perspective when designing the study and formulations in acute schizophrenia: a systematic review and meta-
analysis of randomized-controlled-trials. Schizophr Bull 2024;
interpreting the results, passed away in April, 2025. We thank him for
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his contributions to this review and his lasting commitment to patient
20 Wu T, Li Y, Bian Z, Liu G, Moher D. Randomized trials published in
welfare and research.
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DOI: 10.1016/S0140-6736(25)02365-7