A depot neuroleptic withdrawal study neurological effects

Maintenance treatment with antipsychotic drugs for schizophrenia

BACKGROUND

The symptoms and signs of schizophrenia have been linked to high levels of dopamine in specific areas of the brain (limbic system). Antipsychotic drugs block the transmission of dopamine in the brain and reduce the acute symptoms of the disorder. An original version of the current review, published in 2012, examined whether antipsychotic drugs are also effective for relapse prevention. This is the updated version of the aforesaid review.

OBJECTIVES

To review the effects of maintaining antipsychotic drugs for people with schizophrenia compared to withdrawing these agents.

SEARCH METHODS

We searched the Cochrane Schizophrenia Group's Study-Based Register of Trials including the registries of clinical trials (12 November 2008, 10 October 2017, 3 July 2018, 11 September 2019).

SELECTION CRITERIA

We included all randomised trials comparing maintenance treatment with antipsychotic drugs and placebo for people with schizophrenia or schizophrenia-like psychoses.

DATA COLLECTION AND ANALYSIS

We extracted data independently. For dichotomous data we calculated risk ratios (RR) and their 95% confidence intervals (CIs) on an intention-to-treat basis based on a random-effects model. For continuous data, we calculated mean differences (MD) or standardised mean differences (SMD), again based on a random-effects model.

MAIN RESULTS

The review currently includes 75 randomised controlled trials (RCTs) involving 9145 participants comparing antipsychotic medication with placebo. The trials were published from 1959 to 2017 and their size ranged between 14 and 420 participants. In many studies the methods of randomisation, allocation and blinding were poorly reported. However, restricting the analysis to studies at low risk of bias gave similar results. Although this and other potential sources of bias limited the overall quality, the efficacy of antipsychotic drugs for maintenance treatment in schizophrenia was clear. Antipsychotic drugs were more effective than placebo in preventing relapse at seven to 12 months (primary outcome; drug 24% versus placebo 61%, 30 RCTs, n = 4249, RR 0.38, 95% CI 0.32 to 0.45, number needed to treat for an additional beneficial outcome (NNTB) 3, 95% CI 2 to 3; high-certainty evidence). Hospitalisation was also reduced, however, the baseline risk was lower (drug 7% versus placebo 18%, 21 RCTs, n = 3558, RR 0.43, 95% CI 0.32 to 0.57, NNTB 8, 95% CI 6 to 14; high-certainty evidence). More participants in the placebo group than in the antipsychotic drug group left the studies early due to any reason (at seven to 12 months: drug 36% versus placebo 62%, 24 RCTs, n = 3951, RR 0.56, 95% CI 0.48 to 0.65, NNTB 4, 95% CI 3 to 5; high-certainty evidence) and due to inefficacy of treatment (at seven to 12 months: drug 18% versus placebo 46%, 24 RCTs, n = 3951, RR 0.37, 95% CI 0.31 to 0.44, NNTB 3, 95% CI 3 to 4). Quality of life might be better in drug-treated participants (7 RCTs, n = 1573 SMD -0.32, 95% CI to -0.57 to -0.07; low-certainty evidence); probably the same for social functioning (15 RCTs, n = 3588, SMD -0.43, 95% CI -0.53 to -0.34; moderate-certainty evidence). Underpowered data revealed no evidence of a difference between groups for the outcome 'Death due to suicide' (drug 0.04% versus placebo 0.1%, 19 RCTs, n = 4634, RR 0.60, 95% CI 0.12 to 2.97,low-certainty evidence) and for the number of participants in employment (at 9 to 15 months, drug 39% versus placebo 34%, 3 RCTs, n = 593, RR 1.08, 95% CI 0.82 to 1.41, low certainty evidence). Antipsychotic drugs (as a group and irrespective of duration) were associated with more participants experiencing movement disorders (e.g. at least one movement disorder: drug 14% versus placebo 8%, 29 RCTs, n = 5276, RR 1.52, 95% CI 1.25 to 1.85, number needed to treat for an additional harmful outcome (NNTH) 20, 95% CI 14 to 50), sedation (drug 8% versus placebo 5%, 18 RCTs, n = 4078, RR 1.52, 95% CI 1.24 to 1.86, NNTH 50, 95% CI not significant), and weight gain (drug 9% versus placebo 6%, 19 RCTs, n = 4767, RR 1.69, 95% CI 1.21 to 2.35, NNTH 25, 95% CI 20 to 50).

AUTHORS' CONCLUSIONS

For people with schizophrenia, the evidence suggests that maintenance on antipsychotic drugs prevents relapse to a much greater extent than placebo for approximately up to two years of follow-up. This effect must be weighed against the adverse effects of antipsychotic drugs. Future studies should better clarify the long-term morbidity and mortality associated with these drugs.

Fluphenazine (oral) versus placebo for schizophrenia

BACKGROUND

Fluphenazine is one of the first drugs to be classed as an 'antipsychotic' and has been widely available for five decades.

OBJECTIVES

To compare the effects of oral fluphenazine with placebo for the treatment of schizophrenia. To evaluate any available economic studies and value outcome data.

SEARCH METHODS

We searched the Cochrane Schizophrenia Group's Trials Register (23 July 2013, 23 December 2014, 9 November 2016 and 28 December 2017 ) which is based on regular searches of CINAHL, BIOSIS, AMED, EMBASE, PubMed, MEDLINE, PsycINFO, and registries of clinical trials. There is no language, date, document type, or publication status limitations for inclusion of records in the register.

SELECTION CRITERIA

We sought all randomised controlled trials comparing oral fluphenazine with placebo relevant to people with schizophrenia. Primary outcomes of interest were global state and adverse effects.

DATA COLLECTION AND ANALYSIS

For the effects of interventions, a review team inspected citations and abstracts independently, ordered papers and re-inspected and quality assessed trials. We extracted data independently. Dichotomous data were analysed using fixed-effect risk ratio (RR) and the 95% confidence interval (CI). Continuous data were excluded if more than 50% of people were lost to follow-up, but, where possible, mean differences (MD) were calculated. Economic studies were searched and reliably selected by an economic review team to provide an economic summary of available data. Where no relevant economic studies were eligible for inclusion, the economic review team valued the already-included effectiveness outcome data to provide a rudimentary economic summary.

MAIN RESULTS

From over 1200 electronic records of 415 studies identified by our initial search and this updated search, we excluded 48 potentially relevant studies and included seven trials published between 1964 and 1999 that randomised 439 (mostly adult participants). No new included trials were identified for this review update. Compared with placebo, global state outcomes of 'not improved or worsened' were not significantly different in the medium term in one small study (n = 50, 1 RCT, RR 1.12 CI 0.79 to 1.58, very low quality of evidence). The risk of relapse in the long term was greater in two small studies in people receiving placebo (n = 86, 2 RCTs, RR 0.39 CI 0.05 to 3.31, very low quality of evidence), however with high degree of heterogeneity in the results. Only one person allocated fluphenazine was reported in the same small study to have died on long-term follow-up (n = 50, 1 RCT, RR 2.38 CI 0.10 to 55.72, low quality of evidence). Short-term extrapyramidal adverse effects were significantly more frequent with fluphenazine compared to placebo in two other studies for the outcomes of akathisia (n = 227, 2 RCTs, RR 3.43 CI 1.23 to 9.56, moderate quality of evidence) and rigidity (n = 227, 2 RCTs, RR 3.54 CI 1.76 to 7.14, moderate quality of evidence). For economic outcomes, we valued outcomes for relapse and presented them in additional tables.

AUTHORS' CONCLUSIONS

The findings in this review confirm much that clinicians and recipients of care already know, but they provide quantification to support clinical impression. Fluphenazine's global position as an effective treatment for psychoses is not threatened by the outcome of this review. However, fluphenazine is an imperfect treatment and if accessible, other inexpensive drugs less associated with adverse effects may be an equally effective choice for people with schizophrenia.

Antipsychotic reduction and/or cessation and antipsychotics as specific treatments for tardive dyskinesia

BACKGROUND

Since the 1950s antipsychotic medication has been extensively used to treat people with chronic mental illnesses such as schizophrenia. These drugs, however, have also been associated with a wide range of adverse effects, including movement disorders such as tardive dyskinesia (TD) - a problem often seen as repetitive involuntary movements around the mouth and face. Various strategies have been examined to reduce a person's cumulative exposure to antipsychotics. These strategies include dose reduction, intermittent dosing strategies such as drug holidays, and antipsychotic cessation.

OBJECTIVES

To determine whether a reduction or cessation of antipsychotic drugs is associated with a reduction in TD for people with schizophrenia (or other chronic mental illnesses) who have existing TD. Our secondary objective was to determine whether the use of specific antipsychotics for similar groups of people could be a treatment for TD that was already established.

SEARCH METHODS

We updated previous searches of Cochrane Schizophrenia's study-based Register of Trials including the registers of clinical trials (16 July 2015 and 26 April 2017). We searched references of all identified studies for further trial citations. We also contacted authors of trials for additional information.

SELECTION CRITERIA

We included reports if they assessed people with schizophrenia or other chronic mental illnesses who had established antipsychotic-induced TD, and had been randomly allocated to (a) antipsychotic maintenance versus antipsychotic cessation (placebo or no intervention), (b) antipsychotic maintenance versus antipsychotic reduction (including intermittent strategies), (c) specific antipsychotics for the treatment of TD versus placebo or no intervention, and (d) specific antipsychotics versus other antipsychotics or versus any other drugs for the treatment of TD.

DATA COLLECTION AND ANALYSIS

We independently extracted data from these trials and estimated risk ratios (RR) or mean differences (MD), with 95% confidence intervals (CI). We assumed that people who dropped out had no improvement.

MAIN RESULTS

We included 13 RCTs with 711 participants; eight of these studies were newly included in this 2017 update. One trial is ongoing.There was low-quality evidence of a clear difference on no clinically important improvement in TD favouring switch to risperidone compared with antipsychotic cessation (with placebo) (1 RCT, 42 people, RR 0.45 CI 0.23 to 0.89, low-quality evidence). Because evidence was of very low quality for antipsychotic dose reduction versus antipsychotic maintenance (2 RCTs, 17 people, RR 0.42 95% CI 0.17 to 1.04, very low-quality evidence), and for switch to a new antipsychotic versus switch to another new antipsychotic (5 comparisons, 5 RCTs, 140 people, no meta-analysis, effects for all comparisons equivocal), we are uncertain about these effects. There was low-quality evidence of a significant difference on extrapyramidal symptoms: use of antiparkinsonism medication favouring switch to quetiapine compared with switch to haloperidol (1 RCT, 45 people, RR 0.45 CI 0.21 to 0.96, low-quality evidence). There was no evidence of a difference for switch to risperidone or haloperidol compared with antipsychotic cessation (with placebo) (RR 1 RCT, 48 people, RR 2.08 95% CI 0.74 to 5.86, low-quality evidence) and switch to risperidone compared with switch to haloperidol (RR 1 RCT, 37 people, RR 0.68 95% CI 0.34 to 1.35, very low-quality evidence).Trials also reported on secondary outcomes such as other TD symptom outcomes, other adverse events outcomes, mental state, and leaving the study early, but the quality of the evidence for all these outcomes was very low due mainly to small sample sizes, very wide 95% CIs, and risk of bias. No trials reported on social confidence, social inclusion, social networks, or personalised quality of life, outcomes that we designated as being important to patients.

AUTHORS' CONCLUSIONS

Limited data from small studies using antipsychotic reduction or specific antipsychotic drugs as treatments for TD did not provide any convincing evidence of the value of these approaches. There is a need for larger trials of a longer duration to fully investigate this area.

Fluphenazine decanoate (depot) and enanthate for schizophrenia

BACKGROUND

Intramuscular injections (depot preparations) offer an advantage over oral medication for treating schizophrenia by reducing poor compliance. The benefits gained by long-acting preparations, however, may be offset by a higher incidence of adverse effects.

OBJECTIVES

To assess the effects of fluphenazine decanoate and enanthate versus oral anti-psychotics and other depot neuroleptic preparations for individuals with schizophrenia in terms of clinical, social and economic outcomes.

SEARCH METHODS

We searched the Cochrane Schizophrenia Group's Trials Register (February 2011 and October 16, 2013), which is based on regular searches of CINAHL, BIOSIS, AMED, EMBASE, PubMed, MEDLINE, PsycINFO, and registries of clinical trials.

SELECTION CRITERIA

We considered all relevant randomised controlled trials (RCTs) focusing on people with schizophrenia comparing fluphenazine decanoate or enanthate with placebo or oral anti-psychotics or other depot preparations.

DATA COLLECTION AND ANALYSIS

We reliably selected, assessed the quality, and extracted data of the included studies. For dichotomous data, we estimated risk ratio (RR) with 95% confidence intervals (CI). Analysis was by intention-to-treat. We used the mean difference (MD) for normal continuous data. We excluded continuous data if loss to follow-up was greater than 50%. Tests of heterogeneity and for publication bias were undertaken. We used a fixed-effect model for all analyses unless there was high heterogeneity. For this update. we assessed risk of bias of included studies and used the GRADE (Grading of Recommendations Assessment, Development and Evaluation) approach to create a 'Summary of findings' table.

MAIN RESULTS

This review now includes 73 randomised studies, with 4870 participants. Overall, the quality of the evidence is low to very low.Compared with placebo, use of fluphenazine decanoate does not result in any significant differences in death, nor does it reduce relapse over six months to one year, but one longer-term study found that relapse was significantly reduced in the fluphenazine arm (n = 54, 1 RCT, RR 0.35, CI 0.19 to 0.64, very low quality evidence). A very similar number of people left the medium-term studies (six months to one year) early in the fluphenazine decanoate (24%) and placebo (19%) groups, however, a two-year study significantly favoured fluphenazine decanoate (n = 54, 1 RCT, RR 0.47, CI 0.23 to 0.96, very low quality evidence). No significant differences were found in mental state measured on the Brief Psychiatric Rating Scale (BPRS) or in extrapyramidal adverse effects, although these outcomes were only reported in one small study each. No study comparing fluphenazine decanoate with placebo reported clinically significant changes in global state or hospital admissions.Fluphenazine decanoate does not reduce relapse more than oral neuroleptics in the medium term (n = 419, 6 RCTs, RR 1.46 CI 0.75 to 2.83, very low quality evidence). A small study found no difference in clinically significant changes in global state. No difference in the number of participants leaving the study early was found between fluphenazine decanoate (17%) and oral neuroleptics (18%), and no significant differences were found in mental state measured on the BPRS. Extrapyramidal adverse effects were significantly less for people receiving fluphenazine decanoate compared with oral neuroleptics (n = 259, 3 RCTs, RR 0.47 CI 0.24 to 0.91, very low quality evidence). No study comparing fluphenazine decanoate with oral neuroleptics reported death or hospital admissions.No significant difference in relapse rates in the medium term between fluphenazine decanoate and fluphenazine enanthate was found (n = 49, 1 RCT, RR 2.43, CI 0.71 to 8.32, very low quality evidence), immediate- and short-term studies were also equivocal. One small study reported the number of participants leaving the study early (29% versus 12%) and mental state measured on the BPRS and found no significant difference for either outcome. No significant difference was found in extrapyramidal adverse effects between fluphenazine decanoate and fluphenazine enanthate. No study comparing fluphenazine decanoate with fluphenazine enanthate reported death, clinically significant changes in global state or hospital admissions.

AUTHORS' CONCLUSIONS

There are more data for fluphenazine decanoate than for the enanthate ester. Both are effective antipsychotic preparations. Fluphenazine decanoate produced fewer movement disorder effects than other oral antipsychotics but data were of low quality, and overall, adverse effect data were equivocal. In the context of trials, there is little advantage of these depots over oral medications in terms of compliance but this is unlikely to be applicable to everyday clinical practice.

Flupenthixol decanoate (depot) for schizophrenia or other similar psychotic disorders

BACKGROUND

Long-acting depot injections of drugs such as flupenthixol decanoate are extensively used as a means of long-term maintenance treatment for schizophrenia.

OBJECTIVES

To evaluate the effects of flupenthixol decanoate in comparison with placebo, oral antipsychotics and other depot neuroleptic preparations for people with schizophrenia and other severe mental illnesses, in terms of clinical, social and economic outcomes.

SEARCH METHODS

We identified relevant trials by searching the Cochrane Schizophrenia Group Trials Register in March 2009 and then for this update version, a search was run in April 2013. The register is based on regular searches of CINAHL, EMBASE, MEDLINE and PsycINFO. References of all identified studies were inspected for further trials. We contacted relevant pharmaceutical companies, drug approval agencies and authors of trials for additional information.

SELECTION CRITERIA

All randomised controlled trials that focused on people with schizophrenia or other similar psychotic disorders where flupenthixol decanoate had been compared with placebo or other antipsychotic drugs were included. All clinically relevant outcomes were sought.

DATA COLLECTION AND ANALYSIS

Review authors independently selected studies, assessed trial quality and extracted data. For dichotomous data we estimated risk ratios (RR) with 95% confidence intervals (CI) using a fixed-effect model. Analysis was by intention-to-treat. We summated normal continuous data using mean difference (MD), and 95% CIs using a fixed-effect model. We presented scale data only for those tools that had attained prespecified levels of quality. Using Grading of Recommendations Assessment, Development and Evaluation (GRADE) we created 'Summary of findings tables and assessed risk of bias for included studies.

MAIN RESULTS

The review currently includes 15 randomised controlled trials with 626 participants. No trials compared flupenthixol decanoate with placebo.One small study compared flupenthixol decanoate with an oral antipsychotic (penfluridol). Only two outcomes were reported with this single study, and it demonstrated no clear differences between the two preparations as regards leaving the study early (n = 60, 1 RCT, RR 3.00, CI 0.33 to 27.23,very low quality evidence) and requiring anticholinergic medication (1 RCT, n = 60, RR 1.19, CI 0.77 to 1.83, very low quality evidence).Ten studies in total compared flupenthixol decanoate with other depot preparations, though not all studies reported on all outcomes of interest. There were no significant differences between depots for outcomes such as relapse at medium term (n = 221, 5 RCTs, RR 1.30, CI 0.87 to 1.93, low quality evidence), and no clinical improvement at short term (n = 36, 1 RCT, RR 0.67, CI 0.36 to 1.23, low quality evidence). There was no difference in numbers of participants leaving the study early at short/medium term (n = 161, 4 RCTs, RR 1.23, CI 0.76 to 1.99, low quality evidence) nor with numbers of people requiring anticholinergic medication at short/medium term (n = 102, 3 RCTs, RR 1.38, CI 0.75 to 2.25, low quality evidence).Three studies in total compared high doses (100 to 200 mg) of flupenthixol decanoate with the standard doses (˜40mg) per injection. Two trials found relapse at medium term (n = 18, 1 RCT, RR 1.00, CI 0.27 to 3.69, low quality evidence) to be similar between the groups. However people receiving a high dose had slightly more favourable medium term mental state results on the Brief Psychiatric Rating Scale (BPRS) (n = 18, 1 RCT, MD -10.44, CI -18.70 to -2.18, low quality evidence). There was also no significant difference in the use of anticholinergic medications to deal with side effects at short term (2 RCTs n = 47, RR 1.12, CI 0.83 to 1.52 very low quality evidence). One trial comparing a very low dose of flupenthixol decanoate (˜6 mg) with a low dose (˜9 mg) per injection reported no difference in relapse rates (n = 59, 1 RCT, RR 0.34, CI 0.10 to 1.15, low quality evidence).

AUTHORS' CONCLUSIONS

In the current state of evidence, there is nothing to choose between flupenthixol decanoate and other depot antipsychotics. From the data reported in clinical trials, it would be understandable to offer standard dose rather than the high dose depot flupenthixol as there is no difference in relapse. However, data reported are of low or very low quality and this review highlights the need for large, well-designed and reported randomised clinical trials to address the effects of flupenthixol decanoate.

Fluphenazine (oral) versus placebo for schizophrenia

BACKGROUND

Fluphenazine is one of the first drugs to be classed as an 'antipsychotic' and has been widely available for five decades.

OBJECTIVES

To compare the effects of oral fluphenazine with placebo for the treatment of schizophrenia.

SEARCH METHODS

We updated searches of the Cochrane Schizophrenia Group's trials register, which includes relevant randomised controlled trials from the bibliographic databases Biological Abstracts, CINAHL, The Central Register of Controlled Trials in The Cochrane Library, EMBASE, MEDLINE, PsycLIT, LILACS, PSYNDEX, Sociological Abstracts and Sociofile, 15 May, 2012. References of all identified studies were searched for further trial citations.

SELECTION CRITERIA

We sought all randomised controlled trials comparing oral fluphenazine with placebo relevant to people with schizophrenia. Primary outcomes of interest were global state and adverse effects.

DATA COLLECTION AND ANALYSIS

We inspected citations and abstracts independently, ordered papers and re-inspected and quality assessed trials. We extracted data independently. Dichotomous data were analysed using fixed-effect risk ratio (RR) and the 95% confidence interval (CI). Continuous data were excluded if more than 50% of people were lost to follow-up, but, where possible, mean differences (MD) were calculated.

MAIN RESULTS

From over 1200 electronic records of 415 studies identified by our initial search and this updated search, we excluded 48 potentially relevant studies and included seven trials published between 1964 and 1999 that randomised 439 (mostly adult participants). No new included trials were identified for this review update. Compared with placebo, global state outcomes of 'not improved or worsened' were not significantly different in the medium term in one small study (n = 50, 1 RCT, RR 1.12 CI 0.79 to 1.58, very low quality of evidence). The risk of relapse in the long term was greater in two small studies in people receiving placebo (n = 86, 2 RCTs, RR 0.39 CI 0.05 to 3.31, very low quality of evidence), however with high degree of heterogeneity in the results. Only one person allocated fluphenazine was reported in the same small study to have died on long-term follow-up (n = 50, 1 RCT, RR 2.38 CI 0.10 to 55.72, low quality of evidence). Short-term extrapyramidal adverse effects were significantly more frequent with fluphenazine compared to placebo in two other studies for the outcomes of akathisia (n = 227, 2 RCTs, RR 3.43 CI 1.23 to 9.56, moderate quality of evidence) and rigidity (n = 227, 2 RCTs, RR 3.54 CI 1.76 to 7.14, moderate quality of evidence).

AUTHORS' CONCLUSIONS

The findings in this review confirm much that clinicians and recipients of care already know, but they provide quantification to support clinical impression. Fluphenazine's global position as an effective treatment for psychoses is not threatened by the outcome of this review. However, fluphenazine is an imperfect treatment and if accessible, other inexpensive drugs less associated with adverse effects may be an equally effective choice for people with schizophrenia.

Flupenthixol versus placebo for schizophrenia

BACKGROUND

Flupenthixol, first made available in the UK in 1965, has been used as a treatment for schizophrenia for decades.

OBJECTIVES

To evaluate the absolute clinical effects of flupenthixol for schizophrenia in comparison with placebo.

SEARCH METHODS

We searched the Cochrane Schizophrenia Group Trials Register (August 2011), inspected references of all included or excluded studies for further trials, and contacted authors of trials for additional information.

SELECTION CRITERIA

All randomised controlled trials (RCTs) that compared flupenthixol with placebo for adults with schizophrenia or related disorders by any means of diagnosis. Primary outcomes of interest were clinically important change in global state, mental state and behaviour, and adverse effects.

DATA COLLECTION AND ANALYSIS

We extracted data from the one included study, discussed any disagreement, documented decisions and contacted the authors of the included study for further information. We analysed binary outcomes using a standard estimation of the risk ratio (RR) and its 95% confidence intervals (CI). For homogenous data we used a fixed-effect model. For rare events we analysed dichotomous data using Peto Odds ratio (OR), again with 95% CIs.

MAIN RESULTS

We could include only one small (n = 45) study of moderate quality. When the active α-flupenthixol was compared with the inactive placebo or β-flupenthixol groups combined, fewer people in the active treatment group needed additional antipsychotic medication by around four weeks for deterioration in their general state (n = 45, OR 0.19 CI 0.05 to 0.71). There was no clear difference in social functioning at one year (n = 45, RR 1.33 CI 0.91 to 1.96). We found no clear data on mental state and behaviour, adverse effects, service use, satisfaction with treatment or costs.

AUTHORS' CONCLUSIONS

We were surprised that this well-established drug had so few data from trials investigating its absolute effects. We think this is unlikely to be rectified some 50 years after its launch and know that this would not happen today. However, even though data are very limited, flupenthixol may well be worthy of careful investigation - partly to ensure that this inexpensive active drug is not forgotten.

Maintenance treatment with antipsychotic drugs for schizophrenia

BACKGROUND

The symptoms and signs of schizophrenia have been firmly linked to high levels of dopamine in specific areas of the brain (limbic system). Antipsychotic drugs block the transmission of dopamine in the brain and reduce the acute symptoms of the disorder. This review examined whether antipsychotic drugs are also effective for relapse prevention.

OBJECTIVES

To review the effects of maintaining antipsychotic drugs for people with schizophrenia compared to withdrawing these agents.

SEARCH METHODS

We searched the Cochrane Schizophrenia Group's Specialised Register (November 2008), with additional searches of MEDLINE, EMBASE and clinicaltrials.gov (June 2011).

SELECTION CRITERIA

We included all randomised trials comparing maintenance treatment with antipsychotic drugs and placebo for people with schizophrenia or schizophrenia-like psychoses.

DATA COLLECTION AND ANALYSIS

We extracted data independently. For dichotomous data we calculated relative risks (RR) and their 95% confidence intervals (CI) on an intention-to-treat basis based on a random-effects model. For continuous data, we calculated mean differences (MD) or standardised mean differences (SMD) again based on a random-effects model.

MAIN RESULTS

The review currently includes 65 randomised controlled trials (RCT(s)) and 6493 participants comparing antipsychotic medication with placebo. The trials were published from 1959 to 2011 and their size ranged between 14 and 420 participants. In many studies the methods of randomisation, allocation and blinding were poorly reported. Although this and other potential sources of bias limited the overall quality, the efficacy of antipsychotic drugs for maintenance treatment in schizophrenia was clear. Antipsychotic drugs were significantly more effective than placebo in preventing relapse at seven to 12 months (primary outcome; drug 27%, placebo 64%, 24 RCT(s), n=2669, RR 0.40 CI 0.33 to 0.49, number needed to treat for an additional beneficial outcome (NNTB 3 CI 2 to 3). Hospitalisation was also reduced, however, the baseline risk was lower (drug 10%, placebo 26%, 16 RCT(s), n=2090, RR 0.38 CI 0.27 to 0.55, NNT 5 CI 4 to 9). More participants in the placebo group than in the antipsychotic drug group left the studies early due to any reason (at 7-12 months: drug 38%, placebo 66%, 18 RCT(s), n=2420, RR 0.55 CI 0.46 to 0.66, NNTB 4 CI 3 to 5) and due to inefficacy of treatment (at 7-12 months: drug 20%, placebo 50%, 18 RCT(s), n=2420, RR 0.36 CI 0.28 to 0.45, NNTB 3 CI 2 to 4). Quality of life was better in drug-treated participants (3 RCT(s), n=527, SMD -0.62 CI -1.15 to -0.09). Conversely, antipsychotic drugs as a group and irrespective of duration, were associated with more participants experiencing movement disorders (e.g. at least one movement disorder: drug 16%, placebo 9%, 22 RCT(s), n=3411, RR 1.55 CI 1.25 to 1.93, NNTH 25 CI 13 to 100), sedation (drug 13%, placebo 9%, 10 RCT(s), n=146, RR 1.50 CI 1.22 to 1.84, number needed to treat for an additional harmful outcome (NNTH) not significant) and weight gain (drug 10%, placebo 6%, 10 RCT(s), n=321, RR 2.07 CI 1.31 to 3.25, NNTH 20 CI 14 to 33). The results of the primary outcome were robust in a number of subgroup, meta-regression and sensitivity analyses, the main exception being that the drug-placebo difference in longer trials was smaller than in shorter trials.

AUTHORS' CONCLUSIONS

The results clearly demonstrate the superiority of antipsychotic drugs compared to placebo in preventing relapse. This effect must be weighed against the side effects of antipsychotic drugs. Future studies should focus on outcomes of social participation and clarify the long-term morbidity and mortality associated with these drugs.

Oral fluphenazine versus placebo for schizophrenia

BACKGROUND

Fluphenazine is one of the first drugs to be classed as an 'antipsychotic' and has been widely available for five decades.

OBJECTIVES

To evaluate the effects of oral fluphenazine for schizophrenia in comparison with placebo.

SEARCH STRATEGY

We searched the Cochrane Schizophrenia Group's trials register (September 2006) which includes relevant randomised controlled trials from the bibliographic databases Biological Abstracts, CINAHL, The Cochrane Library, EMBASE, MEDLINE, PsycLIT, LILACS, PSYNDEX, Sociological Abstracts and Sociofile. References of all identified studies were searched for further trial citations.

SELECTION CRITERIA

We sought all randomised controlled trials comparing oral fluphenazine with placebo relevant to people with schizophrenia. Primary outcomes of interest were global state and adverse effects.

DATA COLLECTION AND ANALYSIS

We inspected citations and abstracts independently, ordered papers and re-inspected and quality assessed trials. We extracted data independently. Dichotomous data were analysed using fixed effects relative risk (RR) and the 95% confidence interval (CI). Continuous data were excluded if more than 50% of people were lost to follow up, but, where possible, weighted mean differences (WMD) were calculated.

MAIN RESULTS

We found over 1200 electronic records for 415 studies, 47 of which were relevant but only seven could be included. Compared with placebo, in the short-term, global state outcomes for 'not improved' were not significantly different (n=75, 2 RCTs, RR 0.71 CI 0.5 to 1.1). There is evidence that oral fluphenazine, in the short term, increases a person's chances of experiencing extrapyramidal effects such as akathisia (n=227, 2 RCTs, RR 3.43 CI 1.2 to 9.6, NNH 13 CI 4 to 128) and rigidity (n=227, 2 RCTs, RR 3.54 CI 1.8 to 7.1, NNH 6 CI 3 to 17). We found study attrition to be lower in the oral fluphenazine group, but data were not statistically significant (n=227, 2 RCTs, RR 0.70 CI 0.4 to 1.1).

AUTHORS' CONCLUSIONS

The findings in this review confirm much that clinicians and recipients of care already know, but they provide quantification to support clinical impression. Fluphenazine's global position as an effective treatment for psychoses is not threatened by the outcome of this review. However, fluphenazine is an imperfect treatment and If accessible, other inexpensive drugs less associated with adverse effects may be an equally effective choice for people with schizophrenia.

Neuroleptic reduction and/or cessation and neuroleptics as specific treatments for tardive dyskinesia

BACKGROUND

Since the 1950s neuroleptic medication has been extensively used to treat people with chronic mental illnesses such as schizophrenia. These drugs, however, have been also associated with a wide range of adverse effects, including movement disorders such as tardive dyskinesia (TD). Various strategies have been examined to reduce a person's cumulative exposure to neuroleptics. These studies include dose reduction, intermittent dosing strategies such as drug holidays, and neuroleptic cessation.

OBJECTIVES

To determine whether a reduction or cessation of neuroleptic drugs is associated with a reduction in TD, for people with schizophrenia (or other chronic mental illnesses) who have existing TD. Our secondary objective was to determine whether the use of specific neuroleptics for similar groups of people could be a treatment for TD that was already established.

SEARCH STRATEGY

We updated previous searches of the Cochrane Schizophrenia Groups Register (1997), Biological Abstracts (1982-1997), EMBASE (1980-1997), LILACS (1982-1996), MEDLINE (1966-1997), PsycLIT (1974-1997), and SCISEARCH (1997) by searching the Cochrane Schizophrenia Groups Register (July 2003). We searched references of all identified studies for further trial citations. We also contacted the principal authors of trials for further unpublished trials.

SELECTION CRITERIA

We included reports if they assessed people with schizophrenia or other chronic mental illnesses who had established neuroleptic-induced TD, and had been randomly allocated to (a) neuroleptic maintenance versus neuroleptic cessation (placebo or no intervention), (b) neuroleptic maintenance versus neuroleptic reduction (including intermittent strategies), and (c) specific neuroleptics for the treatment of TD versus, placebo or intervention. A post hoc decision was made to broaden comparison (c) to include specific neuroleptics versus other neuroleptics for the treatment of TD.

DATA COLLECTION AND ANALYSIS

We (KSW, JR) independently inspected citations and, where possible, abstracts, ordered papers, and re-inspected and quality assessed these and extracted data. We analysed dichotomous data using random effects relative risk (RR) and estimated the 95% confidence interval (CI). Where possible we calculated the number needed to treat (NNT) or number needed to harm statistic (NNH). We excluded continuous data if more than 50% of people were lost to follow up, but, where possible, we calculated the weighted mean difference (WMD). It was assumed that those leaving the study early showed no improvement.

MAIN RESULTS

We included five trials and excluded 102. One small two week study (n=18), reported on the 'masking' effects of molindone and haloperidol on TD, which favoured haloperidol (RR 3.44 CI 1.1 to 5.8). Two (total n=17) studies found no reduction in TD associated with neuroleptic reduction (RR 0.38 CI 0.1 to 1.0). One study (n=20) found no significant differences in oral dyskinesia (RR 2.45 CI 0.3 to 19.7) when neuroleptics were compared as a specific treatment for TD. Dyskinesia was found to be not significantly different (n=32, RR 0.62 CI 0.3 to 1.26) between quetiapine and haloperidol when these neuroleptics were used as specific treatments for TD, although the need for additional neuroleptics was significantly lower in the quetiapine group (n=47, RR 0.49 CI 0.2 to 1.0) than in those given haloperidol.

AUTHORS' CONCLUSIONS

Limited data from small studies using neuroleptic reduction or specific neuroleptic drugs as treatments for TD did not provide any convincing evidence of the value of these approaches. There is a need for larger trials of a longer duration in order to fully investigate this area.

Depot fluphenazine decanoate and enanthate for schizophrenia

BACKGROUND

Intramuscular injections (depot preparations) offer an advantage over oral medication for treating schizophrenia by reducing poor compliance. The benefits gained by long acting preparations, however, may be offset by a higher incidence of adverse effects.

OBJECTIVES

To investigate the clinical effects of fluphenazine decanoate and enanthate.

SEARCH STRATEGY

For this update we searched the Cochrane Schizophrenia Group's Register (May 2002).

SELECTION CRITERIA

We considered all relevant randomised clinical controlled trials focusing on people with schizophrenia comparing fluphenazine decanoate or enanthate with placebo or oral anti-psychotics or other depot preparations.

DATA COLLECTION AND ANALYSIS

We reliably selected, quality rated and data extracted studies. For dichotomous data we estimated relative risk (RR) with 95% confidence intervals (CI), and, where possible, the number needed to treat/harm (NNT/H). Analysis was by intention-to-treat. We used the weighted mean difference (WMD) for normal continuous data. Tests of heterogeneity and for publication bias were undertaken.

MAIN RESULTS

This review now includes 70 randomised studies. Compared with placebo, fluphenazine decanoate did not reduce relapse over 6 months to 1 year, but one longer term study found that relapse was significantly reduced in the fluphenazine arm (n=54, RR 0.35, CI 0.2 to 0.6, NNT 2 CI 2 to 4). Fluphenazine decanoate does not reduce relapse more than oral neuroleptics (n=419, 6 RCTs, RR relapse 26-52 weeks 1.46 CI 0.8 to 2.8) or other depot antipsychotics (n=581, 11 RCTs, RR relapse 26-52 weeks 0.82 CI 0.6 to 1.2). Relapse rates over 6 months to 1 year were not significantly different between standard dosage of fluphenazine decanoate over a low dose group (n=523, 4 RCTs, RR 2.09 CI 0.6 to 7.1). Movement disorders were significantly less for people receiving fluphenazine decanoate compared with oral neuroleptics (n=259, 3 RCTs, RR 0.47 CI 0.2 to 0.9, NNT 14 CI 10 to 82). For fluphenazine enanthate there were limited data but no clear difference in global change (0 to 5 weeks) when compared with oral neuroleptics (n=31, 1 RCTs, RR 0.67 CI 0.3 to 1.7), and in relapse rates over 6-26 weeks between fluphenazine enanthate and other depots. Compared with placebo, giving the enanthate caused no more people to need need anticholinergic drugs (n=25, 1 RCT, RR 9.69 CI 0.6 to 163.0) and movement disorders, tardive dyskinesia, tremor, blurred vision and dry mouth were equally prevalent when enanthate was compared with other depot neuroleptics.

AUTHORS' CONCLUSIONS

There are more data for fluphenazine decanoate than for the enanthate ester. Both are effective antipsychotic preparations. In the context of trials, there is little advantage of these depots over oral medications in terms of compliance but this is unlikely to be applicable to everyday clinical practice.

Depot flupenthixol decanoate for schizophrenia or other similar psychotic disorders

BACKGROUND

Anti-psychotic drugs are the mainstay treatment for schizophrenia and similar psychotic disorders. Long-acting depot injections of drugs such as flupenthixol decanoate are extensively used as a means of long-term maintenance treatment.

OBJECTIVES

To evaluate the effects flupenthixol decanoate in comparison with placebo, oral antipsychotics and other depot neuroleptic preparations for people with schizophrenia and other severe mental illnesses, in terms of clinical, social and economic outcomes.

SEARCH STRATEGY

Relevant trials were identified by searching Biological Abstracts (1982-1998), Cochrane Library (Issue 2, 1998), Cochrane Schizophrenia Group's Register (December 1998), EMBASE (1980-1998), MEDLINE (1966-1998) and PsycLIT (1974-1998). The references of all identified trials were inspected for more studies and the first author of each included trial and relevant pharmaceutical companies were contacted.

SELECTION CRITERIA

All randomised controlled trials that focused on people with schizophrenia or other similar psychotic disorders where flupenthixol decanoate had been compared to placebo or other antipsychotic drugs. All clinically relevant outcomes were sought.

DATA COLLECTION AND ANALYSIS

Studies were reliably selected, quality rated and data extracted. For dichotomous data Peto odds ratios (OR) with 95% confidence intervals (CI) were estimated. Where possible, the number needed to treat statistic (NNT) was also calculated. Analysis was by intention-to-treat. Normal continuous data were summated using the weighted mean difference (WMD). Scale data were presented only for those tools that had attained pre-specified levels of quality.

MAIN RESULTS

No trials compared flupenthixol decanoate to placebo. One small study compared flupenthixol decanoate with an oral antipsychotic (penfluridol). There were no clear differences between the two preparations. When flupenthixol decanoate was compared to other depot preparations, there were no differences between depots for outcomes such as death, global impression, relapse (OR 1.16 CI 0.7-1.9) or leaving the study early (OR 1.00 CI 0.6-1.7). Two small studies suggest that flupenthixol decanoate is responsible for less movement disorders than other depot antipsychotic drugs (OR 0.23 CI 0.08-0.7, NNT 5). This finding did not hold for specific side effects, such as tremor (OR 1.2 CI 0.3-4) and tardive dyskinesia (OR 1.60 CI 0.4-6). Two trials comparing high doses of flupenthixol decanoate to the standard approximately 40mg per injection reported no significant difference for the outcome of relapse (OR 0.32 CI 0.09-1.2). One small (n=59) trial comparing a very low dose of flupenthixol decanoate ( approximately 6 mg/IM) to a very low dose approximately 9 mg per injection also reported no difference in relapse rates (OR 0.3 CI 0.1-1.1).

REVIEWER'S CONCLUSIONS

From the data reported in clinical trials, it would be understandable if those suffering from schizophrenia, who are willing to take flupenthixol decanoate, would request the standard dose rather than the high dose. In the current state of evidence, there is nothing to choose between flupenthixol decanoate and other depot antipsychotics. The choice of which depot to use must therefore be based on clinical judgement and the preferences of people with schizophrenia and their carers. Managers and policy makers should expect better data than the research community has provided thus far. This review highlighted the need for large, well-designed and reported randomised clinical trials to address the effects of flupenthixol decanoate, in particular when compared to oral antipsychotics. Future studies should also consider hospital and service outcomes, satisfaction with care and record economic data.

Neuroleptic reduction and/or cessation and neuroleptics as specific treatments for tardive dyskinesia

BACKGROUND

Since the 1950s neuroleptic medication has been extensively used to treat people with chronic mental illnesses, such as schizophrenia. These drugs, however, have been also associated with a wide range of adverse effects, including movement disorders such as tardive dyskinesia (TD). Various strategies have been examined to reduce a person's cumulative exposure to neuroleptics. These studies include dose reduction, intermittent dosing strategies, such as drug holidays, and neuroleptic cessation.

OBJECTIVES

To determine whether, for those people with both schizophrenia (or other chronic mental illnesses) and tardive dyskinesia (TD), a reduction or cessation of neuroleptic drugs was associated with reduction in TD symptoms. A secondary objective was to determine whether the use of specific neuroleptics for similar groups of people could be a treatment for already established TD.

SEARCH STRATEGY

Electronic searches of Biological Abstracts (1982-1997), Cochrane Schizophrenia Group's Register of trials (1997), EMBASE (1980-1997), LILACS (1982-1996), MEDLINE (1966-1997), PsycLIT (1974-1997), and SCISEARCH (1997) were undertaken. References of all identified studies were searched for further trial citations. Principal authors of trials were contacted.

SELECTION CRITERIA

Reports were included if they assessed the treatment of neuroleptic-induced tardive dyskinesia in people with schizophrenia or other chronic mental illnesses and already established TD, who had been randomly allocated to (a) neuroleptic cessation (placebo or no intervention) versus neuroleptic maintenance; b. neuroleptic reduction (including intermittent strategies) versus neuroleptic maintenance; or c. specific neuroleptics for the treatment of TD versus placebo or no intervention.

DATA COLLECTION AND ANALYSIS

The reviewers extracted the data independently and the Odds Ratio (95% CI) or the average difference (95% CI) were estimated. The reviewers assumed that people who dropped out had no improvement.

MAIN RESULTS

Two trials were able to be included in this review. Sixty two were excluded and 16 are awaiting assessment. Seven trials are still pending classification. No randomised controlled trial-derived data were available to clarify the role of neuroleptics as treatments for TD. This includes the atypical antipsychotics including clozapine. Despite neuroleptic cessation being a frequently first-line recommendation, there were no RCT-derived data to support this. Two studies ( approximately approximately Cookson 1987 approximately approximately , approximately approximately Kane 1983 approximately approximately ) found a reduction in TD associated with neuroleptic reduction.

REVIEWER'S CONCLUSIONS

The lack of evidence to support the efficacy of neuroleptic cessation as a treatment for TD, combined with the accumulating evidence of an increased risk of relapse should antipsychotic drugs be reduced, makes this intervention a hazardous treatment for TD. Dose reduction may offer some benefit as a treatment for TD compared to standard levels of neuroleptic use. There is a need to evaluate the utility of clozapine and the 'atypical' antipsychotics as treatments for established TD.