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The efficacy of cariprazine in negative symptoms of schizophrenia: Post hoc analyses of PANSS individual items and PANSS-derived factors

Published online by Cambridge University Press:  07 February 2019

Wolfgang Fleischhacker
Affiliation:
aDepartment of Psychiatry, Psychotherapy and PsychosomaticsMedical University Innsbruck, Innsbruck, Austria
Silvana Galderisi
Affiliation:
bDepartment of Psychiatry, University of Naples (SUN), Naples, Italy
István Laszlovszky*
Affiliation:
cMedical Division, Gedeon Richter Plc, Budapest, Hungary
Balázs Szatmári
Affiliation:
cMedical Division, Gedeon Richter Plc, Budapest, Hungary
Ágota Barabássy
Affiliation:
cMedical Division, Gedeon Richter Plc, Budapest, Hungary
Károly Acsai
Affiliation:
cMedical Division, Gedeon Richter Plc, Budapest, Hungary
Erzsébet Szalai
Affiliation:
cMedical Division, Gedeon Richter Plc, Budapest, Hungary
Judit Harsányi
Affiliation:
cMedical Division, Gedeon Richter Plc, Budapest, Hungary
Willie Earley
Affiliation:
dAllergan, Madison, NJ, USA Allergan, MadisonNJUSA
Mehul Patel
Affiliation:
dAllergan, Madison, NJ, USA Allergan, MadisonNJUSA
György Németh
Affiliation:
cMedical Division, Gedeon Richter Plc, Budapest, Hungary
*
*Corresponding author at: Gedeon Richter Plc, Medical Division, H-1103 Budapest, Gyomroi ut 19-21., Hungary. E-mail address: [email protected]

Abstract

Background:

Negative symptoms in schizophrenia are heterogeneous and multidimensional; effective treatments are lacking. Cariprazine, a dopamine D3-preferring D3/D2 receptor partial agonist and serotonin 5-HT1A receptor partial agonist, was significantly more effective than risperidone in treating negative symptoms in a prospectively designed trial in patients with schizophrenia and persistent, predominant negative symptoms.

Methods:

Using post hoc analyses, we evaluated change from baseline at week 26 in individual items of the Positive and Negative Syndrome Scale (PANSS) and PANSS-derived factor models using a mixed-effects model for repeated measures (MMRM) in the intent-to-treat (ITT) population (cariprazine = 227; risperidone = 227).

Results:

Change from baseline was significantly different in favor of cariprazine versus risperidone on PANSS items N1-N5 (blunted affect, emotional withdrawal, poor rapport, passive/apathetic social withdrawal, difficulty in abstract thinking) (P <.05), but not on N6 (lack of spontaneity/flow of conversation) or N7 (stereotyped thinking). On all PANSS-derived negative symptom factor models evaluated (PANSS-Factor Score for Negative Symptoms, Liemburg factors, Khan factors, Pentagonal Structure Model Negative Symptom factor), statistically significant improvement was demonstrated for cariprazine versus risperidone (P <.01). Small and similar changes in positive/depressive/EPS symptoms suggested that negative symptom improvement was not pseudospecific. Change from baseline was significantly different for cariprazine versus risperidone on PANSS-based factors evaluating other relevant symptom domains (disorganized thoughts, prosocial function, cognition; P <.05).

Conclusions:

Since items representing different negative symptom dimensions may represent different fundamental pathophysiological mechanisms, significant improvement versus risperidone on most PANSS Negative Subscale items and across all PANSS-derived factors suggests broad-spectrum efficacy for cariprazine in treating negative symptoms of schizophrenia.

Type
Original article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an open access article under the CC BY license
Copyright
Copyright © European Psychiatric Association 2019

1. Introduction

Schizophrenia, an often chronic and debilitating psychiatric disorder, is characterized by a constellation of clinical signs and symptoms that are categorized into distinct positive, negative, disorganization and cognitive symptom domains. Although positive symptoms (eg, delusions, hallucinations) must be present for a diagnosis of schizophrenia to be made, negative symptoms, typified by the absence of normal function and loss of behaviors and motivation, are highly detrimental to patient functioning and quality of life [Reference Millan, Fone, Steckler and Horan1Reference Galderisi, Rossi, Rocca, Bertolino, Mucci and Bucci7]. While antipsychotic treatment is effective against positive schizophrenia symptoms, effective treatment for negative symptoms is lacking and most improvement occurs secondarily to improvement in positive symptoms [Reference Millan, Fone, Steckler and Horan1]. Research suggests that negative symptoms are heterogeneous, with potentially different pathophysiological mechanisms and psychopathological outcomes [Reference Bucci and Galderisi8, Reference Galderisi, Mucci, Buchanan and Arango9]. As such, understanding how an antipsychotic performs across the range of negative symptoms may help improve clinical management of this fundamental dimension of schizophrenia.

Through efforts to consolidate the negative symptom concept [Reference Blanchard and Cohen10Reference Kring, Gur, Blanchard, Horan and Reise13], broad consensus has emerged that the most prominent constructs are the 5 A’s of negative symptoms: affective flattening, alogia, anhedonia, asociality, and avolition [Reference Kirkpatrick, Fenton, Carpenter and Marder12, Reference Marder and Galderisi14]. Briefly, blunted affect is a decrease in observed expression of emotion; alogia is reduced quantity of speech/spontaneous information; anhedonia is the diminished capacity to experience pleasure during an event (consummatory anhedonia) or in anticipation of one (anticipatory anhedonia); asociality is reduced social initiative due to decreased interest in forming and maintaining relationships; and avolition is reduced initiation/persistence of goal-directed activity. The Positive and Negative Syndrome Scale (PANSS) [Reference Kay, Fiszbein and Opler15] is a frequently used clinical rating scale, which generally includes items to evaluate the 5 A’s. Although newer scales have been developed to more specifically assess negative symptoms [Reference Kring, Gur, Blanchard, Horan and Reise13, Reference Kirkpatrick, Strauss, Nguyen, Fischer, Daniel and Cienfuegos16] and the PANSS has limitations, no consensus has been reached regarding the best rating scale for assessing negative symptoms in schizophrenia.

The negative symptom structure is multidimensional, with evidence emerging in support of models generally consisting of 2–5 factors [Reference Blanchard and Cohen10]. The most stable and replicated models include 2 factors clustering into the potentially related but distinct subdomains of diminished expression (ie, blunted affect, alogia) and avolition/apathy (ie, avolition, asociality, anhedonia) [Reference Bucci and Galderisi8]; this model is supported in the fifth edition of the Diagnostic and Statistical Manual of Mental Disorders (DSM-5) [Reference APA2]. Interestingly, just as it is proposed that negative and positive symptoms have different pathophysiological mechanisms, evidence suggests similar underlying differences within the negative symptom subdomains [Reference Kirkpatrick, Fenton, Carpenter and Marder12].

Cariprazine, an orally active and potent dopamine D3-preferring D3/D2 receptor partial agonist and serotonin 5-HT1A receptor partial agonist [Reference Gyertyán, Kiss, Sághy, Laszy, Szabó and Szabados17, Reference Kiss, Horváth, Némethy, Schmidt, Laszlovszky and Bugovics18], is approved for the treatment of adult patients with schizophrenia (Europe and US) and for acute treatment of manic/mixed episodes of bipolar I disorder (US). Unlike other atypical antipsychotics, cariprazine shows high and balanced in vivo occupancy at dopamine D2 and D3 receptors at clinically relevant doses [Reference Gyertyán, Kiss, Sághy, Laszy, Szabó and Szabados17, Reference Girgis, Slifstein, D’Souza, Lee, Periclou and Ghahramani19]. In animal models, cariprazine has demonstrated dopamine D3 receptor-dependent procognitive and anti-anhedonic effects, suggesting that it may be useful in treating negative symptoms of schizophrenia [Reference Duric, Banasr, Franklin, Lepack, Adham and Kiss20, Reference Zimnisky, Chang, Gyertyán, Kiss, Adham and Schmauss21].

In a 26-week randomized, double-blind, active-comparator controlled study, cariprazine and risperidone were compared in stable patients with schizophrenia and persistent, predominant negative symptoms (PPNS) (EudraCT Number 2012-005485-36) [Reference Németh, Laszlovszky, Czobor, Szalai, Szatmari and Harsanyi22]. Cariprazine was significantly more effective than risperidone in improving negative symptoms as shown by change from baseline to week 26 on the primary efficacy parameter, the PANSS Factor Score for Negative Symptoms (PANSS-FSNS) [Reference Marder, Daniel, Alphs, Awad and Keefe23], which is also known as the Marder factor for Negative Symptoms [Reference Marder, Davis and Chouinard24]. A significant between-group difference for cariprazine versus risperidone was also seen on the secondary efficacy parameter, the Personal and Social Performance Scale (PSP) [Reference Nasrallah, Morosini and Gagnon25], demonstrating that negative symptom improvement was accompanied by improvement in day-to-day functioning for cariprazine-treated patients.

This well-designed large-scale study in patients with schizophrenia and PPNS provided important evidence of the clinically significant superiority of cariprazine over another second-generation antipsychotic in treating negative symptoms. To further evaluate negative symptom improvement with cariprazine in prospectively defined patients with schizophrenia and PPNS, we assessed changes in PANSS individual subscale items and PANSS-derived factors using post hoc analyses. Given the results of the original trial, we expect that our more detailed investigations will show that cariprazine has greater efficacy than risperidone on negative symptoms and related constructs when change from baseline to week 26 is assessed using PANSS individual items and PANSS-derived factors.

2. Materials and methods

2.1 Primary study design

Detailed methods of the prospective cariprazine versus risperidone study (RGH-188-005) have been published [Reference Németh, Laszlovszky, Czobor, Szalai, Szatmari and Harsanyi22]. Briefly, the study consisted of a 4-week lead-in period, 26-week double-blind treatment (2-week up-titration and 24-week continuation treatment), and a 2-week safety follow-up. Patients were randomized (1:1) to once-daily oral cariprazine or risperidone; after up-titration, patients received the target dose of cariprazine (4.5 mg/d) or risperidone (4 mg/d). The target dose could be decreased or increased (once time each) in case of poor tolerability or impending psychotic deterioration during the double-blind continuation phase. The accepted fixed doses of cariprazine (3, 4.5, or 6 mg/d) and risperidone (3, 4, or 6 mg/d) were chosen in accordance with the respective product labels.

2.2 Patients

Male and female patients (18–65 years old, inclusive) who participated in the study had a DSM-IV-TR [Reference APA26] diagnosis of schizophrenia and an available psychiatric history to ensure the presence of PPNS and low levels of positive symptoms. Patients had an illness duration ≥2 years and a stable condition for at least 6 months (ie, no acute exacerbations, psychiatric hospitalizations, or imprisonments). Clinical inclusion criteria required PPNS for ≥6 months, PANSS-FSNS score ≥24, and a score ≥4 on at least 2 of 3 PANSS negative symptom items (blunted affect, passive/apathetic social withdrawal, lack of spontaneity/flow of conversation).

Patients were excluded from the primary study for various reasons, including a current DSM-IV-TR axis I disorder other than schizophrenia or unstable clinical condition. Most importantly, clinical criteria excluded patients with moderate-to-severe positive, depressive, and extrapyramidal symptoms (EPS) to ensure that negative symptom changes could be genuinely attributed to improved negative symptoms and not to secondary improvements in these other psychopathological domains (ie, pseudospecific improvement). Specifically, patients were excluded for: score ≥4 on more than 2 specific PANSS items (P1 [delusions], P3 [hallucinatory behavior], P5 [grandiosity], P6 [suspiciousness], G9 [unusual thought content]); PANSS factor score for Positive Symptoms (PANSS-FSPS) >19 [Reference Mohr, Cheng, Claxton, Conley, Feldman and Hargreaves27]; total score >6 (moderate/severe symptoms) on the Calgary Depression Scale for Schizophrenia (CDSS) [Reference Addington, Addington and Maticka-Tyndale28]; or clinically relevant parkinsonian symptoms as judged by an investigator and/or defined as a sum >3 on the first 8 items of the Simpson Angus Scale (SAS) [Reference Simpson and Angus29].

2.3 Post hoc analyses

Changes from baseline to week 26 on the single items of the PANSS Negative Symptom and General Psychopathology subscales (Table 1) were analyzed to investigate the efficacy of cariprazine on individual symptoms that contribute to heterogeneity in schizophrenia pathology. To assess the multidimensional aspect of negative symptoms, changes from baseline to week 26 on the individual items of the PANSS-FSNS were evaluated. Additional PANSS-derived factors for negative symptoms [Reference Liemburg, Castelein, Stewart, van der Gaag, Aleman and Knegtering30Reference Fervaha, Foussias, Agid and Remington33] were located through an extensive search of the literature and our data were further analyzed using these models (Table 1). Factors of interest in other domains (supplementary Table 1), including disorganized thoughts (items N5, P2, G5, G10-11, G13, G15) [Reference Marder, Davis and Chouinard24], prosocial function (items N2, N4, N7, P3, P6, G16) [Reference Purnine, Carey, Maisto and Carey34], and cognition (items N5, N7, P2, G10-11) [Reference Meltzer, Cucchiaro, Silva, Ogasa, Phillips and Xu35], were also evaluated. Furthermore, the possibility that negative symptom improvement was related to improvement in positive symptoms was investigated via changes on the individual items of the PANSS Positive subscale (items P1-7) and PANSS-FSPS (items P1, P3, P5-6, G9); Marder factors for Depression/Anxiety (items G2-4, G6), Uncontrolled Hostility/Excitement (items P4, P7, G8, G14), and Positive Symptoms (N7, P1, P3, P5-6, G1, G9, G12) were also analyzed as contols for pseudospecificity [Reference Marder, Davis and Chouinard24] (supplementary Table 1).

Table 1 PANSS-derived negative symptoms factors.

FSNS, Factor Score for Negative Symptoms; PANSS, Positive and Negative Syndrome Scale; PSM, Pentagonal Structure Model.

a Also known as the Marder Factor for Negative Symptoms.

b The same items comprise the Liemburg Avolition/Asociality factor and the Khan Experiential Deficit factor.

c Also known as the Fervaha 2-factor model: the Fervaha Amotivation factor and Khan Experiential Deficit factor are identical, and the Fervaha Diminished Expression factor and Khan Expressive Deficit factor are identical.

Analyses of PANSS single items and factors were based on all postbaseline scores using observed cases without imputing missing values; the final assessment was omitted if the study drug had been stopped for more than 5 days. Change from baseline to week 26/endpoint in individual PANSS items and PANSS factors was analyzed using a mixed-effects model for repeated measures (MMRM) with treatment group, visit, study center, and treatment group-by-visit interaction as fixed effects, and the baseline value and baseline value-by-visit interaction as the covariates in the intent-to-treat (ITT) population. Analyses were performed in SAS (PROC MIXED) (Version 9.2. Cary, NC: SAS Institute Inc. 2012), using an unstructured covariance matrix to model the covariance of within-patient scores; the resultant F-tests were based on Kenward-Roger’s adjusted denominator degrees of freedom [Reference Kenward and Roger36].

3. Results

In the primary, prospective study (RGH-188-005), a total of 461 patients were randomized to double-blind treatment (cariprazine = 230; risperidone = 231); 456 patients were included in the ITT population (cariprazine = 227; risperidone = 229) [Reference Németh, Laszlovszky, Czobor, Szalai, Szatmari and Harsanyi22]. The least squares mean difference with 95% confidence interval (LSMD [95% CI]) was statistically significant in favor of cariprazine versus risperidone on the PANSS-FSNS (-1.46 [-2.39, -0.53]; P =.0022; effect size=0.31) and the PSP (4.63 [2.71, 6.56]; P <.0001; effect size=0.48).

3.1 Post hoc analyses

3.1.1 Baseline values

Mean baseline values for individual PANSS Negative and Positive subscale items were similar between groups (Table 2) and supported that inclusion criteria succeeded in selecting a patient population with at least moderate negative symptoms and mild positive symptoms. Although general items are inconsistently related to the negative symptom subdomain, items from the General Psychopathology subscale often map to negative symptom factors. Of interest, several general items that map to negative symptom factors or to the Disorganized Thought/Cognition factor (ie, G5, G7, G11, G13, G15, G16) were among the general items with higher baseline scores. As expected given the study’s inclusion criteria, scores for general items that map to the Marder Depression factor (G2, G3, G4, G6) were generally low.

Table 2 Baseline values for PANSS Negative and Positive Symptom subscales single items (ITT population).

PANSS item scores range from 1-7. Lower scores indicate less severe symptoms.

PANSS, Positive and Negative Syndrome Scale.

Mean baseline values on the first 8 items of the SAS (gait, arm dropping, shoulder shaking, elbow rigidity, wrist rigidity, leg pendulousness, head dropping, glabella tap) ranged from 0 to 0.4, indicating a population without clinically significant parkinsonism (score range per item = 0–4; lower scores indicate less severe symptoms). Baseline CDSS total score values (score range = 0–27; lower score is favorable) indicated a population without substantial depressive symptoms (cariprazine = 0.7; risperidone = 0.9).

3.1.2 Individual items of the negative symptom and general psychopathology subscales

On individual items from the PANSS Negative Symptom subscale, LSMDs in change from baseline were statistically significant in favor of cariprazine versus risperidone on most items (Fig. 1A). Mean change by week in the individual items of the PANSS Negative Symptom subscale is presented in online supplementary material (Fig.1A–G). Differences in mean change on several items evaluating the 5 A’s of negative symptoms were statistically significant in favor of cariprazine versus risperidone (ie, affect blunted: N1; avolition: N2 [emotional withdrawal]; asociality: N3 [poor rapport] and N4 [passive/apathetic social withdrawal]). Because there is no specific PANSS item for anhedonia, this construct must be evaluated indirectly through negative symptom items that may be descriptive of the concept. For example, change was greater for cariprazine than risperidone on items N2 and N4 evaluating lack of interest in life events and diminished interest/involvement in social interactions leading to reduced personal involvement and neglect of daily activities, respectively [Reference Horan, Kring, Gur, Reise and Blanchard11]. On the key construct of alogia, measured by item N6, a greater than 1-point improvement was seen in both the cariprazine- and risperidone-treatment groups, but the between-group difference was not statistically significant.

Fig. 1. Mean change from baseline in individual items of the PANSS Negative Symptom (A) and General Psychopathology subscales (B) at week 26 (ITT, MMRM). P value vs risperidone: *P <.05; **P <.01. Items: somatic concern (G1), anxiety (G2), guilt feelings (G3), tension (G4), mannerisms/posturing (G5), depression (G6), motor retardation (G7), uncooperativeness (G8), unusual thought content (G9), disorientation (G10), poor attention (G11), lack of judgement/insight (G12), disturbance of volition (G13), poor impulse control (G14), preoccupation (G15), active social avoidance (G16). Baseline values ranged from 1.3 (guilt feelings) to 3.5 (disturbance of volition). ITT, intent to treat; LS, least squares; LSMD, least squares mean difference; MMRM, mixed-effects model for repeated measures; PANSS, Positive and Negative Syndrome Scale.

Changes from baseline to week 26 on the individual items of the General Psychopathology subscale were small (range, -0.14 to -1.12) and generally similar between groups; significant differences were seen on only 2 items, active social avoidance (G16) in favor of cariprazine over risperidone (P =.042), and guilt feelings (G3) in favor risperidone over cariprazine (P =.048) (Fig. 1B).

3.1.3 PANSS-derived factors supporting a treatment effect for cariprazine

On the individual items of the PANSS-FSNS, significant differences in change from baseline at week 26 were seen in favor of cariprazine over risperidone on 4 of the 5 negative symptom items included in the factor (N1, N2, N3, N4); no between-group difference was noted for N6 (Fig. 1A). For items included from the General Psychopathology subscale, a significant difference in favor of cariprazine was seen on item G16, but not on item G7 (Fig. 1B).

In this PPNS population, prospective PANSS-FSNS results were supported by significant differences in favor of cariprazine over risperidone in change from baseline on other PANSS-derived factors evaluating negative symptoms (Fig. 2). On the 2-factor model utilized by Liemburg at al, mean changes from baseline were significantly greater for cariprazine versus risperidone on the Avolition/Social Amotivation (-3.60 vs -2.98; P=.004) and Expressive Deficit (-6.75 vs -5.66; P =.004) factors. Similarly, in the 2-factor model utilized by Khan et al and Fervaha et al, the difference in mean change from baseline on the Khan Expressive Deficit factor (also known as the Fervaha Diminished Expression factor) was statistically significant for cariprazine (-5.36) versus risperidone (-4.48; P =.003); the same items are included in the Liemburg Avolition/Asociality factor, the Khan Experiential Deficit factor, and the Fervaha Amotivation factor. Finally, mean change from baseline was again significantly different in favor of cariprazine (-9.85) versus risperidone (-8.25; P=.003) on the Pentagonal Structure Model (PSM) Negative Symptom factor score.

Fig. 2. Mean change from baseline at week 26 in PANSS-derived factors for negative and cognitive symptoms (MMRM, ITT). P value vs risperidone: *P <.05; **P <.01. aThe same items are included in the Liemburg Avolition/Asociality factor, the Khan Experiential Deficit factor, and the Fervaha Amotivation factor; bthe same items are included in the Khan Expressive Deficit factor and the Fervaha Diminished Expression factor. PANSS-derived factors (lower score is favorable): Liemburg factor for Avolition/Asociality and Khan Experiential Deficit factor = items N2, N4, G16; Liemburg factor for Expressive Deficit = items N1, N3, N6, G5, G7, G13; Khan Expressive Deficit factor = N1, N3, N6, G7; negative symptom factor of the Pentagonal Structural Model = items N1-N4, N6, G5, G7-8, G13-14; Marder factor for Disorganized Thoughts = items N5, P2, G5, G10, G11, G13, and G15; Prosocial functioning factor = N2, N4, N7, P3, P6, G16; Meltzer cognitive subscale = items N5, N7, P2, G10, G11. ITT, intent to treat; LS, least squares; LSMD, least squares mean difference; MMRM; mixed-effects model for repeated measures; PANSS, Positive and Negative Syndrome Scale.

On factors assessing changes in domains relevant to negative symptoms, differences in mean change from baseline at week 26 were statistically significant in favor of cariprazine versus risperidone on the Marder factor for Disorganized Thoughts (-4.16 vs -3.53; P =.05), the Prosocial Functioning factor (-4.94 vs -4.15; P=.014), and the Meltzer Cognitive subscale (-3.13 vs -2.60; P=.028) (Fig. 2).

3.1.4 Demonstrating that negative symptom change is genuine: pseudospecificity analyses

In prospective analysis of the PANSS-FSPS, mean change from baseline at week 26 was the same for cariprazine and risperidone (-1.1; P =.963), providing primary evidence for the lack of pseudospecific change in negative symptoms related to positive symptom improvement. In post hoc analyses, these results were supported by small and similar between-group mean changes on the individual positive items included in the PANSS-FSPS (P1, P3, P5, P6) (Fig. 3); mean change in unusual thought content, a general item included in the PANSS-FSPS (G9), was -0.24 for cariprazine and -0.26 for risperidone, with no significant between-group difference noted.

Fig. 3. Mean change from baseline in PANSS positive symptoms at week 26 (ITT, MMRM). ITT, intent to treat; LS, least squares; LSMD, least squares mean difference; MMRM, mixed-effects model for repeated measures; PANSS, Positive and Negative Syndrome Scale.

Post hoc analyses of additional factors related to pseudospecifity also supported primary evidence that changes in negative symptoms were not secondary to changes in symptoms from other domains. Namely, changes were small and similar for cariprazine and risperidone on the PANSS-derived Marder factors for Depression/Anxiety, Uncontrolled Excitement/Hostility, and Positive Symptoms (Fig. 4).

Fig. 4. Mean change from baseline at week 26 in Marder factors assessing pseudospecificity. Marder factors to assess pseudospecificity (lower score is favorable): Depression/Anxiety = items G2, G3, G4, G6; Uncontrolled Excitement/Hostility = items P4, P7, G8, G14, Positive Symptoms = items N7, P1, P3, P5, P6, G1, G9, G12. LS, least squares; LSMD, least squares mean difference.

Additionally, small mean changes (range, -0.02 to 0.03) on each of the first 8 items of the SAS were not statistically different for cariprazine and risperidone, showing that improvement in negative symptoms was not an artifact of treatment-related differences in EPS liability. Of note, mean changes from baseline in CDSS total score were also small and not significantly different for cariprazine (-0.28) and risperidone (-0.22; P =.66), providing prospective evidence that improvement in negative symptoms was not pseudospecific to improvement in depressive symptoms [Reference Németh, Laszlovszky, Czobor, Szalai, Szatmari and Harsanyi22].

4. Discussion

Heterogeneity in schizophrenia pathology contributes to the challenges associated with understanding and treating negative symptoms. To further explore the effectiveness of cariprazine versus risperidone in patients with schizophrenia and PPNS, we conducted post hoc analyses of PANSS individual items and PANSS-derived factors using data from the prospective negative symptom study. Differences on most individual items and all factors relevant to negative symptoms, cognitive symptoms, and social functioning were statistically significant in favor of cariprazine versus risperidone. Collectively, no significant differences were seen on pseudospecificity measures (ie, positive symptoms, depression, EPS) that would suggest that negative symptom improvement was due to changes in other symptom domains, supporting a genuine treatment effect for cariprazine in negative symptom improvement.

Despite some overlap among the 5 A’s, affective flattening, alogia, anhedonia, asociality, and avolition have been identified as key constructs of negative symptoms, with evidence suggesting separate neurobiological underpinnings that may represent different therapeutic targets [Reference Bucci and Galderisi8, Reference Kirkpatrick, Fenton, Carpenter and Marder12]. Hypotheses regarding the pathogenesis of blunted affect include abnormalities in identifying emotion, perception of nonverbal cues, and deficits in motor activity; interestingly, since decreased emotional expression is observed in medicated and nonmedicated patients alike, blunted affect cannot just be attributed to antipsychotic-related effect [Reference Gur, Kohler, Ragland, Siegel, Lesko and Bilker37Reference Aghevli, Blanchard and Horan40]. In our post hoc analysis, a significant between-group difference in change from baseline on PANSS item N1 (blunted affect) was noted, suggesting improvement in this fundamental construct for cariprazine- versus risperidone-treated patients.

Several mechanisms, including working memory deficit, general fluency disturbance, and word finding difficulties [Reference Berenbaum, Kerns, Vernon and Gomez41], have been proposed to explain alogia. On the PANSS, alogia is assessed by item N6 (lack of spontaneity/flow of conversation) through observed reduction in the normal flow of conversation associated with apathy, avolition, defensiveness, or cognitive deficit. In our analysis, although a greater than 1-point improvement from baseline was observed in both treatment groups, no significant between-group difference was seen on the alogia item, suggesting that risperidone may have also had some efficacy in this domain.

Anhedonia has traditionally been a key feature of both depression and schizophrenia [Reference Marder and Galderisi14]. Neurobehavioral models differentiate between consummatory and anticipatory pleasure [Reference Horan, Kring, Gur, Reise and Blanchard11], with research suggesting that schizophrenia may be characterized by intact consummatory pleasure, but impaired anticipatory pleasure [Reference Horan, Kring, Gur, Reise and Blanchard11]. This distinction may be important when evaluating functional outcomes in patients with schizophrenia since inability to anticipate a rewarding experience may underlie impaired initiative or incapacity to seek pleasant activities. Unlike some psychometric scales that directly measure anhedonia in schizophrenia [Reference Kring, Gur, Blanchard, Horan and Reise13, Reference Kirkpatrick, Strauss, Nguyen, Fischer, Daniel and Cienfuegos16, Reference Andreasen42], no specific PANSS item evaluates anhedonia, which limits the ability of this scale to assess change in this key construct.

Asociality, which may predate the onset of schizophrenia [Reference Cannon, Jones, Gilvarry, Rifkin, McKenzie and Foerster43], is generally regarded as social amotivation according to supportive evidence from factor analyses where it loads on the same factor as avolition [Reference Blanchard and Cohen10, Reference Kirkpatrick44, Reference Messinger, Tremeau, Antonius, Mendelsohn, Prudent and Stanford45]. Since people with schizophrenia compared with healthy individuals may have fewer opportunities to participate in social interaction because of external factors (eg, fewer intact relationships, stigma) [Reference Kirkpatrick, Fenton, Carpenter and Marder12, Reference Messinger, Tremeau, Antonius, Mendelsohn, Prudent and Stanford45], assessment of asociality should include both reduction in social activity and decreased interest in forming relationships [Reference Marder and Galderisi14]. In our analysis, changes from baseline were significantly different for cariprazine versus risperidone on PANSS items that measure asociality (poor rapport and passive/apathetic social withdrawal), with results contributing to significant improvement for cariprazine on the PANSS-FSNS and the PSM Negative Symptom factor.

Finally, studies suggest a key role for avolition in the relationship between negative symptoms and impaired functional outcomes [Reference Galderisi, Rossi, Rocca, Bertolino, Mucci and Bucci7, Reference Foussias and Remington46, Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca47]. The PANSS emotional withdrawal item (N2) assesses avolition through reports and observation of a patient’s interest in their surroundings, which may make it challenging to assess reduced initiation and persistence of goal-directed activity that is not socially oriented. Change from baseline in emotional withdrawal was significantly different in favor of cariprazine versus risperidone, with results again contributing to improvement for cariprazine on several negative symptom factors.

Several studies support a stable 2-factor model [Reference Keefe, Harvey, Lenzenweger, Davidson, Apter and Schmeidler48Reference Toomey, Kremen, Simpson, Samson, Seidman and Lyons54], with key negative symptoms grouping into avolition/apathy and diminished expression domains that may be associated with different neurobiological abnormalities and psychosocial outcomes [Reference Bucci and Galderisi8]. Namely, diminished expression may have a stronger association with nonsocial and neuropsychological function [Reference Liemburg, Castelein, Stewart, van der Gaag, Aleman and Knegtering30], while avolition/apathy is theorized to have a direct impact on functional outcomes in schizophrenia [Reference Foussias and Remington46]. Of interest, our post hoc analyses found significant differences at week 26 in favor of cariprazine versus risperidone on PANSS-derived Expressive Deficits and Avolition/Asociality factors, which both supports prospective PANSS-FSNS and PSP results, and suggests that cariprazine has broad-spectrum pharmacological properties that improve symptomatic and functional aspects of negative symptoms. Given that functional impairment is an enormous burden for patients with negative symptoms [Reference Buchanan55], effective treatment can only be considered clinically relevant if symptom improvement translates into improved patient functioning.

In our analyses, significant differences in favor of cariprazine were also seen on factors assessing domains other than negative symptoms (disorganized thought, cognition, prosocial functioning), suggesting that improvements for cariprazine-treated patients were not limited to one domain. Small changes and no statistical differences between cariprazine and risperidone on factors for Depression/Anxiety, Uncontrolled Excitement/Hostility, and Positive Symptoms support a genuine treatment effect for cariprazine and the lack of pseudospecific change to explain negative symptom improvement.

Although post hoc analyses have inherent limitations, they allowed for single item and dimensional evaluation of PPNS in patients with stable schizophrenia who were treated with cariprazine or risperidone. Interpretation of our results are limited by the lack of placebo control. As is typical in post hoc evaluations, P values were not adjusted for multiple comparisons, which could allow random chance to play a role in determining statistically significant differences. Since patients included in the prospective study had stable schizophrenia and PPNS, results may not be generalizable to other patient populations. Interpretation of factor analyses for negative symptoms may be limited by the inclusion of items that map inconsistently or may no longer be considered part of the negative symptom domain (ie, stereotyped thinking, difficulty in abstract thinking). This may help explain the lack of effect for cariprazine on item N7 (stereotyped thinking) in the individual item analysis. Additionally, item G5 (mannerisms and posturing) is included in the Liemburg Expressive Deficits factor and the PSM negative symptom factor although it is not generally regarded as a negative symptom. Although the PANSS is widely used in clinical trials, it is subject to psychometric limitations, including the lack of an anhedonia item. Further, since avolition is also poorly assessed by the PANSS, the differential effect of cariprazine and risperidone in this domain cannot be proven or excluded by our analysis. The PANSS-FSNS is a fully validated measure of negative symptom change [Reference Marder, Davis and Chouinard24], and although it was the only scale used to assess negative symptom improvement in the prospective trial, this study served regulatory purposes and use of a PANSS negative symptom outcome measure was specifically requested by authorities. Finally, although significant improvement was observed for cariprazine versus risperidone on most outcomes, this does not negate the possibility that risperidone also had some treatment effect.

The 5 A’s provide an important framework for conceptualizing the multidimensional aspects of negative symptoms in schizophrenia. Post hoc analysis of data from patients with schizophrenia and PPNS demonstrated significant improvement for cariprazine over risperidone on PANSS negative symptom items and PANSS-derived factors related to some of these key constructs. Research suggesting that clusters of individual items may represent different fundamental pathophysiological mechanisms of negative symptoms indicates that improvement across symptoms and factors may imply broad-spectrum efficacy for cariprazine. Small changes in positive symptoms, depressive symptoms, and EPS support our assertion that negative symptom improvement was a genuine cariprazine treatment effect that did not occur secondary to improvement in other symptom domains. Given the lack of negative symptom treatment options, these results are clinically interesting and may be another step toward addressing a considerable unmet need in schizophrenia.

5. Contributors

I. Laszlovszky, B. Szatmári, Á. Barabássy, K. Acsai, E. Szalai, J. Harsányi, and G. Németh contributed to the study design, analysis, and interpretation of data. W. Fleischhacker, S. Galderisi, W. Earley, and M. Patel contributed to the analysis and interpretation of the data. All authors revised and approved the final version of the manuscript.

Declaration of interest

W. Wolfgang Fleischhacker received grants and personal fees from Janssen-Cilag, grants and personal fees from Otsuka, grants and personal fees from Lundbeck, personal fees from Roche, personal fees from Takeda, personal fees from Amgen, personal fees from Teva, personal fees from Targacept, personal fees from Richter, grants and personal fees from Boehringer Ingelheim, outside the submitted work.

Silvana Galderisi received honoraria and advisory board or consulting fees from Angelini Acraf, Gedeon Richter, F Hoffman-La Roche, Janssen Pharmaceuticals, Lundbeck, Otsuka, and Pierre Fabre.

István Laszlovszky, Ágota Barabássy, Balázs Szatmári, Judit Harsányi, Erzsébet Szalai, and György Németh report personal fees from Gedeon Richter Plc., outside the submitted work. Dr. Németh and Dr. Laszlovszky have issued patents for cariprazine; Dr. Szatmári has a patent pending for cariprazine.

Mehul Patel and Willie Earley are employees of Allergan.

Funding

This study was funded by Gedeon Richter Plc..

Acknowledgements

The authors would like to thank Carol Brown, MS, of Prescott Medical Communications Group, a contractor of Gedeon Richter Plc, for providing writing and editorial assistance.

References

Millan, MJFone, KSteckler, THoran, WPNegative symptoms of schizophrenia: clinical characteristics, pathophysiological substrates, experimental models and prospects for improved treatment. Eur Neuropsychopharmacol 2014; 24:645–92.CrossRefGoogle ScholarPubMed
APA, Diagnostic and Statistical Manual of Mental Disorders fifth edition 2013, American Psychiatric Association Arlington, VA.Google Scholar
Fervaha, GFoussias, GAgid, ORemington, GImpact of primary negative symptoms on functional outcomes in schizophrenia. Eur Psychiatry 2014; 29:449–55.CrossRefGoogle Scholar
Fervaha, GFoussias, GAgid, ORemington, GMotivational deficits in early schizophrenia: prevalent, persistent, and key determinants of functional outcome. Schizophr Res 2015; 166:916.CrossRefGoogle ScholarPubMed
Foussias, GAgid, OFervaha, GRemington, GNegative symptoms of schizophrenia: clinical features, relevance to real world functioning and specificity versus other CNS disorders. Eur Neuropsychopharmacol 2014; 24:693709.CrossRefGoogle ScholarPubMed
Galderisi, SBucci, PMucci, AKirkpatrick, BPini, SRossi, A et al. Categorical and dimensional approaches to negative symptoms of schizophrenia: focus on long-term stability and functional outcome. Schizophr Res 2013; 147:157–62.CrossRefGoogle ScholarPubMed
Galderisi, SRossi, ARocca, PBertolino, AMucci, ABucci, P et al. Italian Network for Research on Psychoses. The influence of illness-related variables, personal resources and context-related factors on real-life functioning of people with schizophrenia. World Psychiatry 2014; 13:275–87.CrossRefGoogle ScholarPubMed
Bucci, PGalderisi, SCategorizing and assessing negative symptoms. Curr Opin Psychiatry 2017; 30:201–8.CrossRefGoogle ScholarPubMed
Galderisi, SMucci, ABuchanan, RWArango, CNegative symptoms of schizophrenia: new developments and unanswered research questions. Lancet Psychiatry 2018; 5:664–77.CrossRefGoogle ScholarPubMed
Blanchard, JJCohen, ASThe structure of negative symptoms within schizophrenia: implications for assessment. Schizophr Bull 2006; 32:238–45.CrossRefGoogle ScholarPubMed
Horan, WPKring, AMGur, REReise, SPBlanchard, JJDevelopment and psychometric validation of the Clinical Assessment Interview for Negative Symptoms (CAINS). Schizophr Res 2011; 132:140–5.CrossRefGoogle Scholar
Kirkpatrick, BFenton, WSCarpenter, W.T. JrMarder, SRThe NIMH-MATRICS consensus statement on negative symptoms. Schizophr Bull 2006; 32:214–9.CrossRefGoogle ScholarPubMed
Kring, AMGur, REBlanchard, JJHoran, WPReise, SPThe Clinical Assessment Interview for Negative Symptoms (CAINS): final development and validation. Am J Psychiatry 2013; 170:165–72.CrossRefGoogle ScholarPubMed
Marder, SRGalderisi, SThe current conceptualization of negative symptoms in schizophrenia. World Psychiatry 2017; 16:1424.CrossRefGoogle Scholar
Kay, SRFiszbein, AOpler, LAThe Positive and Negative Syndrome Scale (PANSS) for schizophrenia. Schizophr Bull 1987; 13:261–76.CrossRefGoogle Scholar
Kirkpatrick, BStrauss, GPNguyen, LFischer, BADaniel, DGCienfuegos, A et al. The Brief Negative Symptom Scale: psychometric properties. Schizophr Bull 2011; 37:300–5.CrossRefGoogle ScholarPubMed
Gyertyán, I.Kiss, BSághy, K.Laszy, J.Szabó, G.Szabados, T et al. Cariprazine (RGH-188), a potent D3/D2 dopamine receptor partial agonist, binds to dopamine D3 receptors in vivo and shows antipsychotic-like and procognitive effects in rodents. Neurochem Int 2011; 59:925–35.CrossRefGoogle Scholar
Kiss, B.Horváth, A.Némethy, Z.Schmidt, ELaszlovszky, IBugovics, G et al. Cariprazine (RGH-188), a dopamine D(3) receptor-preferring, D(3)/D(2) dopamine receptor antagonist-partial agonist antipsychotic candidate: in vitro and neurochemical profile. J Pharmacol Exp Ther 2010; 333:328–40.CrossRefGoogle ScholarPubMed
Girgis, RRSlifstein, MD’Souza, D.Lee, YPericlou, A.Ghahramani, P et al. Preferential binding to dopamine D3 over D2 receptors by cariprazine in patients with schizophrenia using PET with the D3/D2 receptor ligand [(11)C]-(+)-PHNO. Psychopharmacology (Berl) 2016; 233:3503–12.CrossRefGoogle ScholarPubMed
Duric, VBanasr, MFranklin, TLepack, AAdham, NKiss, B et al. Cariprazine exhibits anxiolytic and dopamine D3 receptor-dependent antidepressant effects in the chronic stress model. Int J Neuropsychopharmacol 2017; 20:788–96.CrossRefGoogle ScholarPubMed
Zimnisky, R.Chang, GGyertyán, I.Kiss, BAdham, NSchmauss, C.Cariprazine, a dopamine D(3)-receptor-preferring partial agonist, blocks phencyclidine-induced impairments of working memory, attention set-shifting, and recognition memory in the mouse. Psychopharmacology (Berl) 2013; 226:91100.CrossRefGoogle ScholarPubMed
Németh, G.Laszlovszky, ICzobor, PSzalai, ESzatmari, BHarsanyi, J et al. Cariprazine versus risperidone monotherapy for treatment of predominant negative symptoms in patients with schizophrenia: a randomised, double-blind, controlled trial. Lancet 2017; 389:1103–13.CrossRefGoogle ScholarPubMed
Marder, SRDaniel, DGAlphs, LAwad, AGKeefe, RSMethodological issues in negative symptom trials. Schizophr Bull 2011; 37:250–4.CrossRefGoogle ScholarPubMed
Marder, SRDavis, JMChouinard, GThe effects of risperidone on the five dimensions of schizophrenia derived by factor analysis: combined results of the North American trials. J Clin Psychiatry 1997; 58:538–46.CrossRefGoogle ScholarPubMed
Nasrallah, HMorosini, PGagnon, DDReliability, validity and ability to detect change of the Personal and Social Performance Scale in patients with stable schizophrenia. Psychiatry Res 2008; 161:213–24.CrossRefGoogle ScholarPubMed
APA, Diagnostic and Statistical Manual of Mental Disorders fourth edition 2000, American Psychiatric Association Washington, DC Text Revision.Google Scholar
Mohr, PECheng, CMClaxton, KConley, RRFeldman, JJHargreaves, WA et al. The heterogeneity of schizophrenia in disease states. Schizophr Res 2004; 71:8395.CrossRefGoogle ScholarPubMed
Addington, DAddington, JMaticka-Tyndale, E.Assessing depression in schizophrenia: the Calgary Depression Scale. Br J Psychiatry Suppl 1993; 3944.CrossRefGoogle ScholarPubMed
Simpson, GMAngus, JWA rating scale for extrapyramidal side effects. Acta Psychiatr Scand 212(Suppl)1970; 11–9.CrossRefGoogle ScholarPubMed
Liemburg, ECastelein, SStewart, Rvan der Gaag, M.Aleman, AKnegtering, H et al. Outcome of Psychosis I. Two subdomains of negative symptoms in psychotic disorders: established and confirmed in two large cohorts. J Psychiatr Res 2013; 47:718–25.CrossRefGoogle ScholarPubMed
Khan, ALiharska, LHarvey, PDAtkins, AUlshen, DKeefe, R.S.E.Negative symptom dimensions of the positive and negative syndrome scale across geographical regions: implications for social, linguistic, and cultural consistency. Innov Clin Neurosci 2017; 14:3040.Google ScholarPubMed
White, LHarvey, PDOpler, LLindenmayer, JPEmpirical assessment of the factorial structure of clinical symptoms in schizophrenia. A multisite, multimodel evaluation of the factorial structure of the Positive and Negative Syndrome Scale. The PANSS Study Group. Psychopathology 1997; 30:263–74.CrossRefGoogle ScholarPubMed
Fervaha, GFoussias, GAgid, ORemington, GMotivational and neurocognitive deficits are central to the prediction of longitudinal functional outcome in schizophrenia. Acta Psychiatr Scand 2014; 130:290–9.CrossRefGoogle Scholar
Purnine, DMCarey, KBMaisto, SACarey, MPAssessing positive and negative symptoms in outpatients with schizophrenia and mood disorders. J Nerv Ment Dis 2000; 188:653–61.CrossRefGoogle ScholarPubMed
Meltzer, HYCucchiaro, JSilva, ROgasa, MPhillips, DXu, J et al. Lurasidone in the treatment of schizophrenia: a randomized, double-blind, placebo- and olanzapine-controlled study. Am J Psychiatry 2011; 168:957–67.CrossRefGoogle ScholarPubMed
Kenward, MGRoger, JHSmall sample inference for fixed effects from restricted maximum likelihood. Biometrics 1997; 53:983–97.CrossRefGoogle ScholarPubMed
Gur, REKohler, CGRagland, JDSiegel, SJLesko, KBilker, WB et al. Flat affect in schizophrenia: relation to emotion processing and neurocognitive measures. Schizophr Bull 2006; 32:279–87.CrossRefGoogle ScholarPubMed
Kring, AMMoran, EKEmotional response deficits in schizophrenia: insights from affective science. Schizophr Bull 2008; 34:819–34.CrossRefGoogle ScholarPubMed
Lepage, MSergerie, KBenoit, ACzechowska, YDickie, EArmony, JLEmotional face processing and flat affect in schizophrenia: functional and structural neural correlates. Psychol Med (Paris) 2011; 41:1833–44.CrossRefGoogle ScholarPubMed
Aghevli, MABlanchard, JJHoran, WPThe expression and experience of emotion in schizophrenia: a study of social interactions. Psychiatry Res 2003; 119:261–70.CrossRefGoogle ScholarPubMed
Berenbaum, HKerns, JGVernon, LLGomez, JJCognitive correlates of schizophrenia signs and symptoms: III. Hallucinations and delusions. Psychiatry Res 2008; 159:163–6.CrossRefGoogle ScholarPubMed
Andreasen, NCThe Scale for the Assessment of Negative Symptoms (SANS): conceptual and theoretical foundations. Br J Psychiatry Suppl 1989; 4958.CrossRefGoogle ScholarPubMed
Cannon, MJones, PGilvarry, CRifkin, LMcKenzie, KFoerster, A et al. Premorbid social functioning in schizophrenia and bipolar disorder: similarities and differences. Am J Psychiatry 1997; 154:1544–50.Google ScholarPubMed
Kirkpatrick, BProgress in the study of negative symptoms. Schizophr Bull 40(Suppl 2)2014; S1016.CrossRefGoogle Scholar
Messinger, JWTremeau, FAntonius, DMendelsohn, EPrudent, VStanford, AD et al. Avolition and expressive deficits capture negative symptom phenomenology: implications for DSM-5 and schizophrenia research. Clin Psychol Rev 2011; 31:161–8.CrossRefGoogle ScholarPubMed
Foussias, GRemington, GNegative symptoms in schizophrenia: avolition and Occam’s razor. Schizophr Bull 2010; 36:359–69.CrossRefGoogle ScholarPubMed
Galderisi, SRucci, PKirkpatrick, BMucci, AGibertoni, DRocca, P et al. Italian network for research on psychoses. Interplay among psychopathologic variables, personal resources, context-related factors, and real-life functioning in individuals with schizophrenia: a network analysis. JAMA Psychiatry 2018; 75:396404.CrossRefGoogle ScholarPubMed
Keefe, RSHarvey, PDLenzenweger, MFDavidson, MApter, SHSchmeidler, J et al. Empirical assessment of the factorial structure of clinical symptoms in schizophrenia: negative symptoms. Psychiatry Res 1992; 44:153–65.CrossRefGoogle ScholarPubMed
Kelley, MEvan Kammen, D.P.Allen, DNEmpirical validation of primary negative symptoms: independence from effects of medication and psychosis. Am J Psychiatry 1999; 156:406–11.Google ScholarPubMed
Malla, AKTakhar, JJNorman, RMManchanda, RCortese, LHaricharan, R et al. Negative symptoms in first episode non-affective psychosis. Acta Psychiatr Scand 2002; 105:431–9.CrossRefGoogle ScholarPubMed
Minas, IHKlimidis, SStuart, GWCopolov, DLSingh, BSPositive and negative symptoms in the psychoses: principal components analysis of items from the Scale for the Assessment of Positive Symptoms and the Scale for the Assessment of Negative Symptoms. Compr Psychiatry 1994; 35:135–44.CrossRefGoogle ScholarPubMed
Mueser, KTSayers, SLSchooler, NRMance, RMHaas, GLA multisite investigation of the reliability of the Scale for the Assessment of Negative Symptoms. Am J Psychiatry 1994; 151:1453–62.Google ScholarPubMed
Peralta, VCuesta, MJNegative symptoms in schizophrenia: a confirmatory factor analysis of competing models. Am J Psychiatry 1995; 152:1450–7.Google ScholarPubMed
Toomey, RKremen, WSSimpson, JCSamson, JASeidman, LJLyons, MJ et al. Revisiting the factor structure for positive and negative symptoms: evidence from a large heterogeneous group of psychiatric patients. Am J Psychiatry 1997; 154:371–7.Google ScholarPubMed
Buchanan, RWPersistent negative symptoms in schizophrenia: an overview. Schizophr Bull 2007; 33:1013–22.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 PANSS-derived negative symptoms factors.

Figure 1

Table 2 Baseline values for PANSS Negative and Positive Symptom subscales single items (ITT population).

Figure 2

Fig. 1. Mean change from baseline in individual items of the PANSS Negative Symptom (A) and General Psychopathology subscales (B) at week 26 (ITT, MMRM). P value vs risperidone: *P <.05; **P <.01. Items: somatic concern (G1), anxiety (G2), guilt feelings (G3), tension (G4), mannerisms/posturing (G5), depression (G6), motor retardation (G7), uncooperativeness (G8), unusual thought content (G9), disorientation (G10), poor attention (G11), lack of judgement/insight (G12), disturbance of volition (G13), poor impulse control (G14), preoccupation (G15), active social avoidance (G16). Baseline values ranged from 1.3 (guilt feelings) to 3.5 (disturbance of volition). ITT, intent to treat; LS, least squares; LSMD, least squares mean difference; MMRM, mixed-effects model for repeated measures; PANSS, Positive and Negative Syndrome Scale.

Figure 3

Fig. 2. Mean change from baseline at week 26 in PANSS-derived factors for negative and cognitive symptoms (MMRM, ITT). P value vs risperidone: *P <.05; **P <.01. aThe same items are included in the Liemburg Avolition/Asociality factor, the Khan Experiential Deficit factor, and the Fervaha Amotivation factor; bthe same items are included in the Khan Expressive Deficit factor and the Fervaha Diminished Expression factor. PANSS-derived factors (lower score is favorable): Liemburg factor for Avolition/Asociality and Khan Experiential Deficit factor = items N2, N4, G16; Liemburg factor for Expressive Deficit = items N1, N3, N6, G5, G7, G13; Khan Expressive Deficit factor = N1, N3, N6, G7; negative symptom factor of the Pentagonal Structural Model = items N1-N4, N6, G5, G7-8, G13-14; Marder factor for Disorganized Thoughts = items N5, P2, G5, G10, G11, G13, and G15; Prosocial functioning factor = N2, N4, N7, P3, P6, G16; Meltzer cognitive subscale = items N5, N7, P2, G10, G11. ITT, intent to treat; LS, least squares; LSMD, least squares mean difference; MMRM; mixed-effects model for repeated measures; PANSS, Positive and Negative Syndrome Scale.

Figure 4

Fig. 3. Mean change from baseline in PANSS positive symptoms at week 26 (ITT, MMRM). ITT, intent to treat; LS, least squares; LSMD, least squares mean difference; MMRM, mixed-effects model for repeated measures; PANSS, Positive and Negative Syndrome Scale.

Figure 5

Fig. 4. Mean change from baseline at week 26 in Marder factors assessing pseudospecificity. Marder factors to assess pseudospecificity (lower score is favorable): Depression/Anxiety = items G2, G3, G4, G6; Uncontrolled Excitement/Hostility = items P4, P7, G8, G14, Positive Symptoms = items N7, P1, P3, P5, P6, G1, G9, G12. LS, least squares; LSMD, least squares mean difference.

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