Aripiprazole monotherapy in acute mania: 12-week randomised placebo- and haloperidol-controlled study

Background

Well-tolerated and effective therapies for bipolar mania arerequired.

Aims

To evaluate the efficacy and tolerability of aripiprazole asacute and maintenance of effect therapy in patients with bipolarI disorder experiencing manic or mixed episodes.

Method

Patients were randomised to double-blind aripiprazole (15 or30 mg/day; n=167), placebo (n=153) or haloperidol (5–15mg/day, n=165) for 3 weeks (trial registration NCT00097266).Aripiprazole- and haloperidol-treated patients remained onmasked treatment for 9 additional weeks.

Results

Mean change in Young Mania Rating Scale Total score (primaryend-point) at week 3 was significantly greater with aripiprazole(–12.0; P<0.05) and haloperidol (–12.8; P<0.01)than with placebo (–9.7). Improvements were maintainedto week 12 for aripiprazole (–17.2) and haloperidol (–17.8).Aripiprazole was well tolerated. Extrapyramidal adverse eventswere more frequent with haloperidol than aripiprazole (53.3%v. 23.5%).

Conclusions

Clinical improvements with aripiprazole were sustained to week12. Aripiprazole was generally well tolerated.

INTRODUCTION

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INTRODUCTION

Bipolar disorder is a lifelong episodic illness requiring long-term treatment, yet there remains a need for well-tolerated andclinically effective maintenance of effect and continuationtherapies. Aripiprazole has a novel pharmacological profile;partial agonism at dopamine D₂ and D₃ and serotonin 5-HT_1Areceptors, and antagonism at 5-HT_2A receptors.^1–5 Aripiprazolehas been shown to improve symptoms of acute mania in placebo-controlled studies^6,7 and was superior to placebo in maintaining efficacyfor up to 100 weeks in patients with bipolar mania.^8,9 Thisstudy used a randomised placebo-controlled study design andincluded an active haloperidol reference arm to evaluate theacute and continued efficacy of aripiprazole monotherapy inpatients with bipolar disorder experiencing acute manic ormixed episodes (trial registration NCT00097266).

Methods

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Methods

Patients
Eligible patients were aged 18 years or older with bipolar Idisorder manic or mixed type (with or without psychotic features),as defined by DSM–IV¹⁰ and confirmed by the Mini InternationalNeuropsychiatric Interview (MINI), who were experiencing anacute relapse requiring hospitalisation. In addition, theyhad a screening and baseline Young Mania Rating Scale (YMRS)¹¹Total score $≥$ 20, with less than a 25% decrease between the twovisits. Patients also had a baseline Montgomery–ÅsbergDepression Rating Scale (MADRS)¹² Total score $≤$ 17, with nomore than a 4-point increase between the two visits. Femalepatients of child-bearing potential were required to use acceptable contraceptive measures.

Patients were excluded if they had delirium, dementia, amnesticor other cognitive disorders, schizophrenia or schizoaffectivedisorder, or if they were experiencing their first manic ormixed episode. Also excluded were patients with borderline,paranoid, histrionic, schizotypal, schizoid or antisocial personalitydisorder.

Other exclusions were: serious, unstable medical illness; hospitalisation for current mania or mixed episode for >3 weeks; previouslyunresponsive to treatments for manic symptoms (based on clinicaljudgement that the patient failed treatment with appropriateantimanic therapies (antipsychotic or mood stabiliser suchas lithium, valproate, carbamazepine or haloperidol) at a clinicallyappropriate dose and duration); diagnosis of bipolar II disorder; rapid cycling bipolar disorder (>4 manic or depressive episodes/year); DSM–IV-defined substance misuse or substance dependence;clinically assessed significant risk of suicide; recent treatmentwith long-acting antipsychotics; use of mood stabilisers orantidepressants 2–4 weeks prior to randomisation; andelectro-convulsive therapy within the past 3 months.

The study was conducted at 59 study centres in Bulgaria, Croatia,Mexico, Peru, Russia, South Africa and the USA. All patientsprovided written informed consent before participation. Thestudy protocol, procedures and consent statement were approvedby the study sites’ institutional review boards.

Study design
This randomised double-blind placebo-controlled parallel-groupstudy had three treatment arms. Following a wash-out periodof 2–14 days, eligible patients were randomised to placebo(placebo group), aripiprazole (aripiprazole group) or haloperidol(haloperidol group) in a ratio of 1:1:1. Patients started aripiprazoleat 15 mg/day or haloperidol 5 mg/day. At day 4, investigatorscould increase the daily dose (aripiprazole 30 mg/day; haloperidol10 mg/day) as clinically indicated. The dose of haloperidolcould be increased again at day 7 to 15 mg/day. Doses couldbe adjusted throughout the study based on tolerability andclinical response. Patients in the aripiprazole and haloperidolgroups remained on treatment for 12 weeks, whereas patientson placebo were switched in a masked manner to double-blind aripiprazole at week 3. The masked aripiprazole dose dependedon the number of placebo tablets administered at the end ofweek 3. These patients were not included in subsequent treatmentcomparisons.

For the first 2 weeks of treatment, patients remained hospitalised.At the end of week 2, patients could be discharged if theyachieved $≤$ 3 (mildly ill, minimally ill, not ill) on the ClinicalGlobal Impressions – Bipolar version (CGI–BP)¹³ Severity of Illness (Mania) score and $≤$ 2 (much improved, verymuch improved) on the CGI–BP Severity of Illness Changefrom Preceding Phase (Mania) score. Patients who did not meetthese criteria remained hospitalised. Patients who could notbe discharged from hospital at the end of week 3 were discontinuedfrom the study.

Concomitant medications
The following medications were prohibited during the study:antipsychotics, antidepressants, mood stabilisers, anticonvulsants,sleep aids, and all other psychotropic drugs (except benzodiazepines).Although benzodiazepines were permitted, the dose was taperedfrom $≤$ 4 mg/day at days 1–4 to 0 mg/day at day 15. In addition,benzodiazepines were not permitted within 8 h prior to clinicassessments. Anticholinergic therapy (benztropine 4 mg/day, biperiden or trihexyphenidyl) was permitted for the treatmentof extrapyramidal symptoms. Propranolol was permitted at amaximum dose of 60 mg/day for the treatment of akathisia ortremor.

Efficacy assessments
Treatment efficacy was assessed at baseline and at days 2, 4,7 and 10 and thereafter at the end of weeks 2, 3, 4, 5, 6,8, 10 and 12. The primary a priori efficacy outcome measurewas mean change from baseline to week 3 in the YMRS Total score(last observation carried forward (LOCF)). Changes in YMRSTotal scores from baseline were also analysed using a mixed-model repeated measures (MMRM) analysis on the observed case data-setto confirm the findings of LOCF. The key secondary end-pointwas mean change from baseline in the CGI–BP Severityof Illness (Mania) score. Other secondary efficacy end-pointsincluded response rate (proportion of patients demonstratinga $≥$ 50% improvement in YMRS Total score), mean CGI–BP Severityof Illness Change from Preceding Phase (Mania) score, remissionrate (proportion of patients achieving a YMRS Total score $≤$ 12),mean change from baseline in YMRS Total score at other timepoints, MADRS Total score, Positive and Negative Syndrome Scale(PANSS) Total scores and Cognitive, Hostility, Positive andNegative sub-scale scores,^14,15 and Longitudinal IntervalFollow-up Evaluation – Range of Impaired Function Tool (LIFE–RIFT)¹⁶ Total score. In addition, the mean changesfrom baseline in YMRS Total score and CGI–BP Severityof Illness (Mania) score for all patients who were respondersat week 3 were derived for each study visit.

Safety and tolerability assessments
Vital sign measurements were made initially at randomisation,and then on a weekly basis until week 3 and subsequently atweeks 8 and 12. Routine laboratory tests and weight measurementswere carried out at screening, baseline, week 3 and week 12.Adverse event reports were recorded at each assessment. Extrapyramidalsymptoms were evaluated using the Simpson–Angus Scale (SAS),¹⁷ the Barnes Akathisia Rating Scale (BARS)¹⁸ and the Abnormal Involuntary Movement Scale (AIMS).¹⁹

Statistical procedures
A total of 156 patients were estimated per treatment group togive 95% power to detect a 5.5-point difference in mean changein YMRS Total score at week 3 between aripiprazole and placeboat an ${alpha}$ -level of 0.05. In addition, a sample size of 156 pertreatment group was estimated to give 90% power to detect a5.5-point difference in the mean change in YMRS Total score at week 3 between haloperidol and placebo using a hierarchicaltesting procedure to preserve the significance level at 0.05.

Efficacy parameters were analysed on an intent-to-treat basisusing both LOCF and observed case data-sets. Continuous efficacymeasures were evaluated on the LOCF data-set using analysisof covariance (ANCOVA) adjusted for baseline value, study centreand treatment. A hierarchical testing procedure was used topreserve the significance level at 0.05. Mean change from baseline to week 3 in YMRS Total score was first compared between aripiprazoleand placebo using ${alpha}$ =0.05. If aripiprazole was statisticallysignificantly different from placebo, haloperidol was thencompared with placebo at ${alpha}$ =0.05. If the differences betweenaripiprazole and placebo and between haloperidol and placeboon the primary efficacy measure were statistically significant(P $≤$ 0.05), then testing of the difference between aripiprazoleand placebo in the key secondary efficacy measure (mean change from baseline to week 3 (LOCF) in CGI–BP Severity ofIllness (mania) score), could proceed at ${alpha}$ =0.05. Testing ofall the other secondary end-points was performed at the ${alpha}$ =0.05significance level without adjustment for multiple comparisonsand multiple testing. Response and remission rates were analysedusing the Cochran–Mantel–Haenszel general associationstatistic. Mixed-model repeated measures analysis was performedon change from baseline in YMRS Total score using direct likelihood estimation. The model included terms for baseline, visit, treatment,study centre, baseline x visit and treatment x visit. An unstructured covariance matrix was used to model within-patient error. Estimatesof mean changes from baseline in metabolic parameters wereobtained from ANCOVA adjusted for baseline and treatment. Posthoc week 12 comparisons between active treatments for changein YMRS Total scores, response and remission rates were carriedout, although the study was not powered to find statisticallysignificant differences at week 12.

Results

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Results

Patients
A total of 614 patients were enrolled in this study, of whom485 were randomised to placebo (n=153), haloperidol (n=165)or aripiprazole (n=167). The proportion of patients completingeach phase of the study was similar in each treatment arm (Fig. 1).At week 3, completion rates were similar for all treatmentgroups (aripiprazole 75%; haloperidol 73%; placebo 71%) andreasons for discontinuation were similar between groups. Week12 completion rates were 57% for the aripiprazole group and58% for the haloperidol group.

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Fig. 1 Flow of participants through the study.

Baseline demographics and patient characteristics (online TableDS1) were similar between groups. At baseline, the mean bodymass index (BMI) was 27.5 kg/m²; 43% of patients had a BMI>27 kg/m².

Study treatments
The mean weekly mean dose of aripiprazole was 17.8 mg/day (n=166) for the initial 7 days of treatment, increasing to 23.6 mg/dayat week 3 (n=144). At week 12, the mean weekly mean dose was22.0 mg/day (n=96). The mean weekly mean dose of haloperidolfor the first 7 days of treatment was 5.8 mg/day (n=165), whichhad increased to 8.5 mg/day (n=134) at week 3 and to 7.4 mg/day(n=96) up to end of week 12. On the day prior to the week 3(LOCF) YMRS assessment, 53% of aripiprazole-treated patientsreceived 30 mg/day, 42% received 15 mg/day, 5% received nodose and 1% received 45 mg/day. On the day prior to the week12 (LOCF) YMRS assessment, the dose distribution was similar:48% of the aripiprazole group received 30 mg/day, 42% received15 mg/day, 9% received no dose and 1% received 45 mg/day. Forhaloperidol, the dose distribution at week 3 (LOCF) was 50%,28%, 17% and 5% receiving 5 mg/day, 10 mg/day, 15 mg/day and no dose respectively. Similar dose distribution was seen atweek 12 (LOCF) with 59%, 16%, 17% and 9% of patients receiving5 mg/day, 10 mg/day, 15 mg/day and no dose respectively.

During the first 3-week treatment period, 72.9% of aripiprazole-treated patients, 77.0% of haloperidol-treated patients and 66.0% ofplacebo-treated patients received a concomitant medicationactive on the central nervous system. The most frequently usedconcomitant medications were anxiolytics (aripiprazole group65.1%; haloperidol group 53.3%; placebo group 58.8%), followedby other analgesics and antipyretics (aripiprazole 26.5%; haloperidol 26.7%; placebo 27.5%). Similar rates were observed up to week12. Use of anticholinergic medications was higher with haloperidolthan aripiprazole up to the end of week 3 (aripiprazole group15.1%; haloperidol group 44.2%; placebo group 6.5%) and upto the end of week 12 (aripiprazole 16.9%; haloperidol 50.3%),as was use of all concomitant medications used for the potentialtreatment of extrapyramidal symptoms up to the end of week 12 (aripiprazole 18.1%; haloperidol 52.7%).

Efficacy
Primary end-point
Aripiprazole produced statistically significantly greater improvementsin the mean change from baseline to week 3 on the YMRS Totalscore when compared with placebo (–12.0 v. –9.7;P=0.039; LOCF) (Fig. 2 and online Table DS2). Similar clinicalimprovements were also seen for haloperidol when compared withplacebo (–12.8 v. –9.7; P=0.005; LOCF). Both aripiprazole(P=0.047) and haloperidol (P=0.030) demonstrated statisticallysignificantly greater improvements in YMRS Total score as earlyas day 2 (Fig. 2). Improvements beyond day 2 were statisticallysignificantly greater for aripiprazole at weeks 2 and 3 andshowed numerically greater improvement at days 4, 7 and 10.Haloperidol produced statistically significant improvementsat all post-baseline assessments.

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Fig. 2 Mean change (s.e.) from baseline in Young Mania Rating Scale (YMRS) Total score, efficacy sample (last observation carried forward).^a a. Baseline YMRS scores: placebo, 28.8; haloperidol, 28.0; aripiprazole, 28.4. *P $≤$ 0.05; **P $≤$ 0.01 v. placebo.

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Fig. 3 Mean change (s.e.) from baseline Clinical Global Impression – Bipolar version (CGI–BP) Severity of Illness (Mania) score, efficacy sample (last observation carried forward).^a. a. Baseline CGI–BP scores: placebo, 4.6; haloperidol, 4.5; aripiprazole, 4.5. *P $≤$ 0.05; **P $≤$ 0.01 v. placebo.

For patients with bipolar I disorder manic type experiencinga manic episode (placebo n=124; aripiprazole n=132; haloperidol n=133), improvements in the mean change from baseline to week3 on the YMRS Total score were greater for aripiprazole (–11.9)and haloperidol (–12.8) than with placebo (–8.7).The treatment difference was –3.3 (95% CI –5.7to –0.8) for aripiprazole–placebo and –4.1(95% CI –6.6 to –1.6) for haloperidol–placebo.

Secondary end-points
At week 3, the mean change from baseline in CGI–BP Severityof Illness (Mania) score was statistically significantly greaterwith aripiprazole than placebo (–1.4 v. –1.2, P=0.044;LOCF) (Fig. 3). There was also a statistically significantreduction in CGI–BP Severity of Illness (Mania) scorein haloperidol-treated patients compared with placebo at week3 (–1.6 v. –1.2, P=0.004; LOCF).

Improvements from baseline in YMRS Total score were maintainedto week 12 (LOCF) for both aripiprazole (–17.2) and haloperidol(–17.8; P=0.564). Improvements from baseline in CGI–BPSeverity of Illness (Mania) score were also maintained to week12 (LOCF) for aripiprazole (–2.1) and haloperidol (–2.2) (Fig. 4).

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Fig. 4 Mean change from baseline to week 12 in CGI–BP Severity (Mania) score, efficacy sample (LOCF).^a CGI–BP, Clinical Global Impression – Bipolar version; LOCF, last observation carried forward. a. Baseline CGI–BP scores: haloperidol, 4.5; aripiprazole, 4.5.

Response rates at week 3 (LOCF) were greater with aripiprazole(47.0%) and haloperidol (49.7%) than with placebo (38.2%),although neither was statistically significant (P=0.145 andP=0.069 respectively). Response rates at week 12 (LOCF) increasedwith both aripiprazole (72.3%) and haloperidol (73.9%) (P=0.909;ratio of response rates 1.0, 95% CI 0.9–1.1; number neededto treat (NNT) haloperidol v. aripiprazole=63). Remission ratesat week 3 (LOCF) were also greater with aripiprazole (44.0%)and haloperidol (45.3%) v. placebo (36.8%), although neitherwas statistically significant (P=0.242 and P=0.206 respectively).By week 12, remission rates had increased to 69.9% with aripiprazoleand 71.4% with haloperidol (P=0.896; ratio of remission rates1.0, 95% CI 0.9–1.2; NNT haloperidol v. aripiprazole=67).

Table 1 summarises the findings of other secondary efficacymeasures. Mean change from baseline in CGI–BP Severityof Illness (Overall) score was statistically significantlyimproved with aripiprazole v. placebo at week 3. Mean CGI–BPChange from Preceding Phase (Mania) score was also statistically significant in favour of aripiprazole at week 3. Aripiprazoleproduced statistically significant improvements for mean changefrom baseline in PANSS Total score, and Positive, Cognitiveand Hostility sub-scale scores compared with placebo at week3. All improvements seen with aripiprazole treatment were maintained,or improved, at week 12 and were similar to those seen with haloperidol. At week 3, changes from baseline in the CGI–BPSeverity of Illness (Depression) score and MADRS scores showedsimilar small improvements in the haloperidol and aripiprazoletreatment arms compared with placebo, and the improvementsin these depression scales were maintained to end-point (week 12). There was no significant difference in the rate of emergentdepression (MADRS Total score $≥$ 18 plus $≥$ 4-point increase frombaseline for any two consecutive assessments) between eitheraripiprazole (6.0%) or haloperidol (1.9%) v. placebo (4.6%)at week 3 (P=0.575 and P=0.169 respectively). At week 12, ratesof emergent depression were 4.3% for haloperidol and 9.6% foraripiprazole (ratio of incidence rates 2.2, 95% CI 0.9–5.3).

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Table 1 Secondary efficacy end-points from baseline to weeks 3 and 12 (last observation carried forward)

For patients who were responders at week 3, the mean changefrom baseline in YMRS Total score and CGI–BP Severityof Illness (Mania) score showed that the effects of aripiprazoleand haloperidol observed at week 3 were maintained throughto end-point at week 12 (Table 2).

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Table 2 Efficacy results up to end of week 12 (LOCF) for responders at week 3^a

There was a similar improvement across groups in the mean changein LIFE–RIFT Total score from baseline to week 3 (aripiprazole–2.1; haloperidol –1.8; placebo –1.4) orto week 12 (aripiprazole –3.1; haloperidol –2.8).

Post hoc MMRM analysis of change in YMRS Total scores from baselineproduced similar results to LOCF analysis. Aripiprazole produced statistically significantly greater improvements in mean changefrom baseline to week 3 in YMRS Total score when compared withplacebo (–13.3 v. –10.9, P=0.030; MMRM, observedcase data-set), as did haloperidol compared with placebo (–14.2v. –10.9, P=0.003; MMRM, observed case data-set).

Improvements from baseline in YMRS Total score were maintainedto week 12 for both aripiprazole and haloperidol (–22.3v. –22.7; MMRM, observed case data-set).

Safety
The most frequently reported treatment-emergent adverse eventsduring the study are shown in online Table DS3. The adverseevent profiles of both treatments were similar during the acutetreatment phase and the whole study, which included the maintenanceof effect treatment phase. During acute treatment (weeks 1–3),the three most commonly occurring adverse events with aripiprazolewere insomnia (13.9%), akathisia (9.0%) and extrapyramidal disorder(7.2%), and these occurred at a similar incidence during the12 weeks of treatment (weeks 1–12): insomnia (14.5%),akathisia (11.4%), extrapyramidal disorder (7.8%). The threemost common adverse events with haloperidol during acute treatment(weeks 1–3) and during the whole study (weeks 1–12)respectively, were akathisia (20.6% v. 24.8%), extrapyramidaldisorder (12.1% v. 15.2%) and muscle rigidity (7.9% v. 9.7%).The incidence of adverse events related to extrapyramidal symptomswas 53.3% in the haloperidol group compared with 23.5% in thearipiprazole group (weeks 1–12). Akathisia was cited asa reason for study discontinuation in 1 aripiprazole-treatedpatient (0.6%) and 2 haloperidol-treated patients (1.2%), whereasextrapyramidal disorder was cited as a reason for discontinuationin 1 aripiprazole-treated patient (0.6%) and 4 haloperidol-treatedpatients (2.4%); these aripiprazole discontinuations occurredbefore week 3. During the 12 weeks of treatment, akathisia,at its maximum intensity, was generally reported as mild (aripiprazole n=7/19; haloperidol n=18/41) or moderate (aripiprazole n=10/19;haloperidol n=21/41) in severity; few patients reported akathisiaas severe/very severe (aripiprazole n=2/19; haloperidol n=2/41).For patients in the aripiprazole group who reported akathisiaas an adverse event, with a maximum severity of mild, moderate,severe or very severe, the corresponding median highest BARSglobal clinical assessment scores were 2, 2, 1 and 4 respectively.For patients in the haloperidol group who reported akathisiawith a maximum severity of mild, moderate or severe, the correspondingmedian highest BARS global clinical assessment scores were2, 2 and 3.5 respectively. Furthermore, in the majority ofcases akathisia had its onset in the first 3 weeks of treatment (aripiprazole n=14/19; haloperidol n=31/41). For patients thatreported akathisia, it had resolved by the last study visit(week 12) in 12/19 (63.2%) of aripiprazole-treated patientsand 22/41 (53.7%) of haloperidol-treated patients, althoughdata on resolution were missing for 1 (5.3%) and 9 (22.0%)of aripiprazole and haloperidol-treated patients respectively.For those participants whose akathisia resolved during the study,1 (8.3%) aripiprazole-treated patient and 1 (4.5%) haloperidol-treated patient received a dose reduction and use of concomitant medication,1 (4.5%) haloperidol-treated patient discontinued therapy andreceived concomitant medication, 9 (75.0%) aripiprazole-treatedpatients and 17 (77.3%) haloperidol-treated patients receivedconcomitant medication only, and no intervention was providedin the remaining 2 (16.7%) aripiprazole-treated and 3 (13.6%)haloperidol-treated patients.

Serious adverse events were reported in 19 (11.4%) aripiprazole-treated patients and 5 (3%) haloperidol-treated patients. Fourteen(8.4%) of the aripiprazole-treated patients experienced atleast one serious adverse event categorised as ‘psychiatricdisorder’; one patient reported two psychiatric seriousadverse events. Overall, there were four reports of mania (twoworsening of bipolar mania and two relapse of manic symptoms),three reports of bipolar I disorder (one depressed episode,one worsening of manic episode and one worsening bipolar mania),three of bipolar disorder (one exacerbation of symptoms ofbipolar disorder, one worsening of bipolar affective disorder(manic phase) and one worsening of bipolar disorder), two ofdepression, and one each of insomnia, psychotic disorder andsuicide attempt (non-fatal).

At week 3, there was a statistically significantly greater meanchange from baseline in the SAS Total score in the haloperidolgroup compared with the placebo group (1.7 v. –0.2, P<0.001;LOCF). The mean change in the aripiprazole group was not statisticallysignificantly different from placebo (0.2 v. –0.2, P=0.163;LOCF).At week 12, aripiprazole had a statistically significant smallermean change from baseline in SAS Total score than haloperidol(0.2 v. 1.3, P<0.001; LOCF). Similar changes were observedfor BARS global assessment scores, with a significantly greatermean change in the haloperidol group at week 3 compared withplacebo (0.4 v. –0.1, P<0.001; LOCF), whereas thechange in the aripiprazole group was not significantly differentfrom placebo (0.1 v. –0.1, P=0.060; LOCF). At week 12,there was also a statistically significant difference in themean change from baseline in BARS score between aripiprazoleand haloperidol (0.3 v.0.1, P<0.001; LOCF). At week 3, therewere minimal changes from baseline in the mean AIMS Total scorefor the aripiprazole and placebo groups (0.1 v. 0.0, P=0.522;LOCF), whereas haloperidol was associated with statistically significant increases compared with placebo (0.5 v. 0.0, P=0.004;LOCF). However, there was no statistically significant treatmentdifference in the AIMS Total score between aripiprazole and haloperidol at week 12 (0.2 v.0.6, P=0.107; LOCF).

Weight gain
The mean change in weight from baseline to week 3 (LOCF) wasnot significantly different between placebo (0.4 kg, s.e.=0.3)and aripiprazole (0.2 kg, s.e.=0.3; P=0.703) or haloperidol(0.5 kg, s.d.=0.3; P=0.684). Mean change in weight from baselineto week 12 (LOCF) was also not significantly different betweenaripiprazole and haloperidol (0.70 kg, s.e.=0.3 v. 0.56 kg,s.e.=0.3; P=0.688, LOCF). The mean change in weight from baselineto week 3 (observed case analysis) was similar between placebo(0.5 kg, s.e.=0.3, n=115), aripiprazole (0.3 kg, s.e.=0.3,n=139) and haloperidol (0.5 kg, s.e.=0.3, n=127), as was weightchange at week 12 (observed case analysis) between aripiprazole (1.0 kg, s.e.=0.3, n=96) and haloperidol (0.2 kg, s.e.=0.3, n=93). At week 3 (LOCF), the proportion of patients with clinically significant weight gain ( $≥$ 7% from baseline) was also similarbetween placebo (9/140, 6.4%) and aripiprazole (3/156, 1.9%;P=0.065 v. placebo) and haloperidol (4/151, 2.6%; P=0.221 v.placebo). Incidence of clinically significant weight gain wasalso similar between aripiprazole and haloperidol at week 12(5.1% v. 5.8%, P=0.723; LOCF). Observed case clinically significantweight gain produced similar findings.

Metabolics
Mean changes from baseline in metabolic parameters are shownin online Table DS4. There were no clinically meaningful differencesbetween the treatment groups in the change from baseline infasting glucose, low-density lipoprotein cholesterol, high-densitylipoprotein cholesterol, triglycerides or total cholesterollevels at weeks 3 and 12.

No clinically meaningful differences in vital sign measurementswere seen between treatment groups; no patients discontinuedbecause of vital sign abnormalities. Fewer patients had potentiallyclinically relevant prolactin levels (>upper limit of normal)with aripiprazole (22.4%) v. haloperidol (66.2%) at week 12.At week 12, fewer aripiprazole- (12.8%) than haloperidol-treatedpatients (60.8%) had new-onset hyperprolactinaemia (baselineprolactin levels $≤$ upper limit of normal and week 12 prolactin levels >upper limit of normal). Aripiprazole-treated patientsexperienced a decrease in mean serum prolactin levels frombaseline over 12 weeks, whereas mean serum prolactin levelsincreased with haloperidol (–13.4 ng/ml v. +6.7 ng/ml;P<0.001).

Discussion

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Discussion

Results from this large, randomised placebo-controlled double-blindstudy show that aripiprazole and haloperidol were both moreeffective than placebo for the acute and maintenance of effecttreatment of bipolar disorder. Both aripiprazole and haloperidolresulted in early improvements in symptoms of acute mania andproduced significant improvements over placebo on the primary efficacy end-point, mean change in YMRS Total score from baselineat week 3. Consistent with the significant improvements seenin the primary efficacy measure, aripiprazole also producedsignificant improvements over placebo on the key secondaryefficacy measure, CGI–BP Severity of Illness (Mania) scoreat week 3, and several other secondary efficacy outcomes (CGI–BP Severity of Illness (Overall) and Change from Preceding Phase(Mania) scores, PANSS Total score and PANSS Positive, Cognitiveand Hostility sub-scale scores). At week 3, response and remissionrates for either active treatment arm were greater than forplacebo but not significantly different. Improvements seenwith aripiprazole and haloperidol at week 3 were maintained up to week 12. Although this study was not powered to comparethe efficacy of aripiprazole and haloperidol, the magnitudesof improvement seen with each agent appear similar. Pharmacologically,the results of this study are interesting as they demonstratethat aripiprazole, a partial agonist at D₂ receptors, conferssimilar antimanic effects to haloperidol, a D₂ receptor antagonist.

Results from this study confirm findings from previous studiesthat have shown that aripiprazole is effective at rapidly controllingthe symptoms of acute mania,^6,7 including agitation,²⁰ and adds to evidence supporting the use of aripiprazole monotherapyas maintenance of effect treatment beyond the acute phase.^21,22 In previous studies, aripiprazole was started at 30 mg/day,^6,7 whereas this study demonstrated the efficacy of aripiprazolewith a treatment regimen starting at 15 mg/day. As 42% of aripiprazole-treatedpatients were on 15 mg/day at week 3, this study demonstratedthat a treatment regimen with a starting dose of 15 mg/daycan be an effective approach for treating patients with acutebipolar mania.

The findings reported here are similar to results from 12-weekstudies with other atypical agents – olanzapine,²³ quetiapine^24,25 and risperidone²⁶ – that have shown maintenance of effectfor up to 12 weeks.

Although both response and remission rates at week 3 were numerically higher with both aripiprazole and haloperidol than placebo,statistical significance between either active treatment andplacebo was not reached. It is likely that this is, in part,due to the high placebo response (38%) and remission (37%)rates, which are not uncommon in trials involving patients withbipolar disorder.^26–28 Importantly, response and remissionrates were comparable between aripiprazole and haloperidolat week 3 and showed continued improvement to week 12; at week 12, nearly 75% of patients had responded to treatment and themajority of patients had reached remission. Response ratesreported here with aripiprazole at week 3 are similar to thoseseen in similar trials with risperidone (risperidone 48% v.placebo 33%)²⁶ and quetiapine (quetiapine 43% v. placebo 35%),although response rates for haloperidol in this second studywere higher (56%).²⁵ Furthermore, although completion ratesreported here were similar between treatment arms at week 3,similar completion rates between treatment arms have also beenobserved in previous studies of this design with risperidone (risperidone 89%; placebo 85%; haloperidol 90%).²⁶

There was a low rate of emergent depression over the 12-weekstudy for both aripiprazole- and haloperidol-treated patients.Furthermore, MADRS scores, although low at baseline, showedno worsening of depressive symptoms with either treatment atweek 3 and week 12, suggesting that improvement in mania wasnot associated with a worsening of depression in patients withmania.

The mean dosing of haloperidol in this study (week 3: 8.5 mg/day;week 12: 7.4 mg/day) was comparable with haloperidol dosingin similar 12-week studies using other atypical antipsychoticagents; in one study, mean haloperidol dosing ranges were from9.6 mg/day (week 1) to 5.2 mg/day (week 12),²³ whereas in a second study mean haloperidol dosing ranges were from 7.4 mg/day(week 12) to 8 mg/day (week 3).²⁶

Tolerability
Aripiprazole was generally well tolerated over the entire 12-weekstudy, with an adverse event profile similar to that seen inprevious short-term^6,7 and long-term studies.^8,9 The incidenceof adverse events related to extrapyramidal symptoms with haloperidolwas more than double that with aripiprazole, as was the useof concomitant medications for the potential treatment of suchsymptoms. Objective measurement of extrapyramidal symptomsusing the SAS and BARS global assessment rating scales alsoshowed a significantly lower risk of such symptoms with aripiprazolethan with haloperidol. Higher rates of adverse events relatedto extrapyramidal symptoms with haloperidol are a well-known side-effect of treatment with typical antipsychotics and representan important factor when considering long-term treatment ofpatients with such bipolar mania, as patients tend to be moreat risk for antipsychotic-induced tardive dyskinesia than patientswith schizophrenia.^29,30 For those patients who experiencedakathisia, this was manageable, generally mild to moderatein severity and resolved before the end of the study in both treatment groups. It is curious to consider whether all treatment-emergent akathisia events are actually true akathisia. Akathisia, ascurrently defined in clinical trials nomenclature, might becapturing clinical features related to other syndromes suchas activation or anxiety symptoms.

Aripiprazole also demonstrated a low propensity to elevate prolactinlevels compared with haloperidol. Fewer patients receivingaripiprazole experienced prolactin levels above the upper limitof normal compared with those receiving haloperidol; mean serumprolactin levels decreased with aripiprazole, whereas theyincreased with haloperidol.

Minimal mean changes in body weight were seen with aripiprazoleand haloperidol over the 12-week study period, and the incidenceof clinically significant weight gain with aripiprazole wascomparable with placebo at week 3, and remained low at week12. This is an important finding given that patients with bipolardisorder are at increased risk of obesity and associated medicalmorbidity than the general population.³¹ Indeed, the averageBMI of patients in this study was high ( $~$ 27 kg/m²), and approximately40% of patients had a BMI >27 kg/m², emphasising the importanceof lack of weight gain when choosing an atypical antipsychoticfor long-term treatment. Aripiprazole also showed a low potentialfor metabolic effects, with minimal effects on lipid and glucoselevels as seen in longer-term trials in bipolar mania.^8,9

Methodological considerations
Findings of this study are strengthened by the large patientpopulation and the randomised placebo-controlled design. Althoughthe lack of a placebo comparator arm beyond the first 3 weeksof study could be considered a limitation, use of placebo foronly 3 weeks is an accepted methodology and a previous studywith risperidone used a similar design.²⁶ Furthermore, thereare many ethical arguments against the use of placebo beyondthe acute treatment phase in patients with bipolar disorder.²⁷

In conclusion, aripiprazole significantly improved symptomsduring the 3-week placebo-controlled phase of the study inpatients with acute mania. The beneficial effects of aripiprazolewere sustained through to week 12 and were similar to haloperidol,a gold-standard antipsychotic treatment. Aripiprazole was generallywell tolerated, with a lower incidence of extrapyramidal symptomsv. haloperidol.

ACKNOWLEDGMENTS

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ACKNOWLEDGMENTS

This study was supported by Bristol-Myers Squibb (Princeton,New Jersey) and Otsuka Pharmaceutical Co., Ltd (Tokyo, Japan).Editorial support for the preparation of this manuscript wasprovided by Michelle O’Donovan, PhD, Ogilvy HealthworldMedical Education. Funding was provided by Bristol-Myers Squibb.

The authors would like to acknowledge the principal investigatorsof this study, CN138-162: Kausar Yakhin, MD, Kazan State MedicalUniversity, Russian Federation; Yury Aleksandrovskiy, MD, SerbskyNational Research Center for Social and Forensic Psychiatry,Russian Federation; Margarita Morozova, MD, Municipal ClinicalPsychiatry Hospital #14, Russian Federation; Anatoly Smulevich,MD, Hospital #1 Moscow, Russian Federation; Galina Panteleyeva,MD, Mental Health Research Center, Moscow, Russian Federation;Boris Andreyev, MD, Kashenko 1st Stp City Mental Hospital,Russian Federation; Yury Suchkov, MD, Municipal Hospital #1,Russian Federation; Sergey Elkin, MD, Psychiatric Hospital#3, Russian Federation; Pavo Filakovi $c$ , MD, Clinical Hospital Osijek, Croatia (Hrvatska); Vera Folnegovi $c$ - $S$ malc, MD, PhD, PsychiatricHospital Vrap $c$ e, Croatia (Hrvatska); Dulijano Ljubicic, MD, PhD,Ljiljana Moro, MD (Prev), Clinical Hospital Centre Rijeka, Croatia (Hrvatska); Goran Dodig, MD, Clinical Hospital Split, Croatia(Hrvatska); Michael Burducovsky, MD, Psychiatric Hospital #4,Russian Federation; José de Jesús Castillo, MD,Centros Avanzados En Salud Animica, Mexico; Juan-Ignacio Rosales,MD, Clinica San Rafael, Mexico; Wazcar Verduzco, MD, Hospitalde Psiquiatría de San, Mexico; Rogelio Apiquián, MD, Grupo Médico Carracci, Mexico; Raymond Manning,MD, CNRI – Los Angeles, California, USA; Jorge Porras,MD, Gregory S. Paniccia, MD (Prev), David M. Marks, MD (Prev),eStudySite, San Diego, USA; Adam Lowy, MD, Comprehensive NeuroScienceInc, Washington, USA; Mark Scheier, MD, Bum Soo Lee, MD (Prev),Anaheim Research Center, LLC, California, USA; Rajinder Shiwach,MD, InSite Clinical Research, DeSoto, USA; Mohammed Bari, MD,Synergy Clinical Research Center, San Diego, USA; Richard Knapp,MD, CORE Research Inc, Maitland, USA; Morteza Marandi, MD,David Sack, MD (Prev), Comprehensive NeuroScience, Cerritos,USA; Michael Plopper, MD, Sharp Mesa Vista Hospital, San Diego,USA; Pauline Powers, MD, University of South Florida, USA; Chandra S. Krishnasastry, MD, Clinical Research Services at TennesseeChristian Medical Center, USA; Kashinath G. Yadalam, MD, LakeCharles Clinical Trials, USA; G. Michael Dempsey, MD, AlbuquerqueNeuroscience Inc, USA; Prashant Gajwani, MD, Mood DisordersProgram, Cleveland, USA; Gunnar L. Larson, MD, CCRI; ClementJ. Zabocki, VA Medical Center, Milwaukee, USA; Paresh Ramjee, MBCHB, Vista Private Clinic, Pretoria, South Africa; FaroukRanderee, MBCHB, 302 Musgrave Park, Durgan, South Africa; CorneliusVan Staden, MBCHB, Weskoppies Hospital, Pretoria West, SouthAfrica; Roberto Gastiaburu, MD, Hospital De Policia, Lima,Peru; Abel Sagastegui, MD, Asociacion De Lucha Contra El Estigma,Lima, Peru; Pablo Adan, MD, Hospital Nacional Edgardo RebagliatiMartins, Lima, Peru; Boris Tsygankov, MD, Moscow State University of Medicine and Dentistry, Moscow, Russian Federation; NataliaDobrovolskaya, MD, City Psychoneurological Dispensary #7 withHospital, St Petersburg, Russian Federation; Luchezar Hranov,MD, II Psychiatric Clinic St. Naum Psych Hosp, Sofia, Bulgaria;Loris Sayan, MD, PhD, Psychiatry Dispensary DDPDS Prof., Bulgaria;Stefan Todorov, MD, PhD, First Psychiatric Clinic-MHAT ‘StMarina’, Bulgaria; Vihra Milanova, MD, Alexander University Hospital, Sofia, Bulgaria; Vihra Milanova, MD, Alexander UniversityHospital, Sofia, Bulgaria; Salumu Selemani, MBCHB, BiothusoCare Givers, South Africa; Mikhail Sheyfer, MD, Samara PsychiatricHospital, Russian Federation; Pepa Dimitrova, MD, MHAT PsychiatricClinic, Pleven, Bulgaria; Ivan Gerdjikov, MD, I-St MaleandI-St Female Psychiatry Clinics, Bulgaria; Svetlozar Haralanov, MD, II Psychiatric Clinic St. Naum Psych Hosp, Sofia, Bulgaria;Amado Nieto, MD, Clinica Psiquiátrica Everardo NeumanPeña, Mexico; Alfonso Ontiveros, MD, Hospital San JoséTec de Monterrey, Monterrey, Mexico; Pavel Sidorov, MD, PhD,Northern State Medical University, Russian Federation; AndreyGribanov, MD, Lipetsk Regional Psychiatric and Neurologic Hospital#1, Lipetsk, Russian Federation; Alexander Bukhanovskiy, MD,PhD, Scientific Center for Treatment and Rehabilitation ‘Phoenix’,Russian Federation; Sergio J Villaseñor, MD, HospitalCivil ‘Fray Antonio Alcalde’, Mexico; Felipe Triay,MD, 35B # 473 x50 y 52, Fracc. Santa Cecilla, Mexico; VictorVid, MD, Bekhterev Psychoneurological Research Institute, StPetersburg, Russian Federation; Sergey Kolov, MD, Volgograd State Medical Academy, Russian Federation; Francisco BrandiRigal, MD, Comunidad Terapéutica, Mexico; J. Gary Booker,MD, 851 Olive Street, Shreveport, USA; Louise M. Beckett, MD,IPS Research Company, Oklahoma City, USA; Joachim Raese, MD,Behavioral Health 2000, LLC, Riverside, California, USA; GregoryF. Bishop, MD, eStudySite, San Diego, USA; David P. Walling,PhD, Collaborative Neuroscience Network Inc, Torrance, California,USA.

REFERENCES

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