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The management of patients with predominant negative symptoms in Slovakia: A 1-year longitudinal, prospective, multicentric cohort study

Published online by Cambridge University Press:  23 May 2024

Jozef Dragasek
Affiliation:
1st Department of Psychiatry, Pavol Jozef Safarik University, Faculty of Medicine and University Hospital of Louis Pasteur, Košice, Slovakia
Zsofia Borbala Dombi*
Affiliation:
Global Medical Division, Gedeon Richter Plc., Budapest, Hungary
Károly Acsai
Affiliation:
Global Medical Division, Gedeon Richter Plc., Budapest, Hungary Ceva Animal Health, Ceva-Phylaxia, Budapest, Hungary
Viktor Dzurilla
Affiliation:
Gedeon Richter Slovakia, Bratislava, Slovakia
Ágota Barabássy
Affiliation:
Global Medical Division, Gedeon Richter Plc., Budapest, Hungary
*
Corresponding author: Zsofia Borbala Dombi; Email: dombizsb@richter.hu

Abstract

Background

Predominant negative symptoms (PNSs) in schizophrenia can affect the patients’ psychosocial functioning immensely and are less responsive to treatment than positive symptoms.

Aims

The aim of the study was to observe negative symptoms and psychosocial functioning in PNS schizophrenia patients and to understand whether PNS can be improved and with what treatment strategies.

Methods

This was a 1-year, prospective, multicentric cohort study conducted in Slovakia. Adult outpatients with diagnosis of schizophrenia according to ICD-10 and PNS evaluated using the criteria by the European Psychiatric Association’s (EPA) guidance were included. Change in negative symptoms, functionality, and treatment patterns were observed. Treatment effectiveness was evaluated using the modified Short Assessment of Negative Domain (m-SAND), the Self-evaluation of Negative Symptoms (SNS) scale, the Personal and Social Performance (PSP) scale, and the Clinical Global Impression – Severity (CGI-S) and the Clinical Global Impression – Improvement (CGI-I) scales. Least-squares (LS) means were calculated for the change from baseline to final visit for the outcomes.

Results

The study included 188 patients. Functionality improved as, by the end of the study, fewer patients were unemployed (53%) and more worked occasionally (21%). PNS improved significantly according to both physicians and patients (LS mean change from baseline in m-SAND total score: -10.0 (p-value <0.0001)). Most patients received polytherapy throughout the study. Cariprazine was utilized most (20% monotherapy and 76% polytherapy). Only a few patients discontinued treatment due to adverse drug reactions.

Conclusions

With the right treatment strategy, it is possible to achieve improvement in PNS and everyday functioning in schizophrenia outpatients.

Type
Research Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of European Psychiatric Association

Introduction

Schizophrenia is a chronic psychiatric disorder affecting approximately 1% of the general population [Reference Moreno-Küstner, Martín and Pastor1] and is one of the most disabling health conditions in the world [Reference Vos, Abajobir, Abbafati, Abbas, Abate and Abd-Allah2]. It is also associated with significant financial and health burdens; patients with schizophrenia have increased risk of non-communicable diseases as well as higher mortality rates [Reference Nielsen, Banner and Jensen3, Reference He, Tanaka, Kishi, Li, Matsunaga and Tanihara4]. In addition, due to functional impairment and the costs of treatment and care, there is a major loss of productivity, affecting not only the patients themselves, but their caregivers too [Reference Szkultecka-Debek, Miernik, Stelmachowski, Jakovljevic, Jukic and Aadamsoo5]. A recent epidemiological study examining the burden of schizophrenia in Central and Eastern Europe (CEE) found 14% of Slovakian schizophrenia patients to be unemployed and 63% to live on a disability pension [Reference Szkultecka-Debek, Miernik, Stelmachowski, Jakovljevic, Jukic and Aadamsoo5]. In addition, on average, 4% of caregivers had to stop working to take care of their relatives [Reference Szkultecka-Debek, Miernik, Stelmachowski, Jakovljevic, Jukic and Aadamsoo5].

Characterized by a wide range of symptoms, schizophrenia is a multidimensional disorder [Reference Opler and Hwang6]. According to recent conceptualizations, negative symptoms are comprised of five constructs, the so-called 5As: anhedonia, alogia, avolition, asociality, and affective flattening [Reference Correll and Schooler7Reference Marder and Galderisi9]. If the severity of negative symptoms exceeds that of the positive symptoms, the patient is called a predominant negative symptom (PNS) schizophrenia patient [Reference Correll and Schooler7]. Negative symptoms can be primary or secondary depending on their root cause: while primary negative symptoms are intrinsic to the disorder, secondary negative symptoms are triggered by other factors such as adverse effects of treatment or other symptom domains [Reference Correll and Schooler7].

Negative symptoms are well-known to affect daily functioning and quality of life (QoL) immensely [Reference Correll and Schooler7, Reference García-Fernández, Romero-Ferreiro, Sánchez-Pastor, Dompablo, Martínez-Gras and Espejo-Saavedra10Reference Novick, Montgomery, Cheng, Moneta and Haro12]. For instance, in a 3-year study with 17,384 outpatients from 37 countries, QoL was found to correlate with negative symptoms more than with positive symptoms [Reference Novick, Montgomery, Cheng, Moneta and Haro12]. Furthermore, a recent study by D’Anna et al. evaluating the relationship between negative symptoms and daily time use found that patients with more negative symptomatology spent more time with non-productive activities compared to patients with milder symptoms [Reference D’Anna, Zarbo, Cardamone, Zamparini, Calza and Rota11].

Schizophrenia is primarily treated with antipsychotic medications [Reference Szkultecka-Debek, Miernik, Stelmachowski, Jakovljević, Jukić and Aadamsoo13]. According to a recent study in Slovakia, the first-line treatment of schizophrenia based on expert opinion is risperidone (36%), olanzapine (28%), and quetiapine (13%) [Reference Szkultecka-Debek, Miernik, Stelmachowski, Jakovljević, Jukić and Aadamsoo13]. Having a more balanced safety profile, second-generation antipsychotics are preferred over first-generation ones (~70% vs 30%) in Slovakia in general [Reference Szkultecka-Debek, Miernik, Stelmachowski, Jakovljević, Jukić and Aadamsoo13]. In terms of negative symptoms, a recent proposal by Cerveri et al. recommends cariprazine as a first-line medication due to its partial agonist effect on the dopamine D3-D2 receptors [Reference Stahl14, Reference Németh, Laszlovszky, Czobor, Szalai, Szatmári and Harsányi15]. Indeed, according to a review involving 17 experts from the CEE region, the Cerveri treatment algorithm has been adapted in Slovakia as well [Reference Bitter, Mohr, Raspopova, Szulc, Samochowiec and Micluia16].

The aim of the present cohort study was twofold: first, to observe the negative symptom domain and its association with psychosocial functioning in patients with PNS and the typical treatment patterns in Slovakia, and second, to observe whether PNS can improve in an outpatient setting throughout a 1-year treatment period and with what pharmacological and non-pharmacological treatment strategies.

Methods

Study design

This was a longitudinal, prospective, multicentric cohort study conducted in 20 sites in Slovakia. The study duration was 1 year, with three visits after baseline at 3, 6, and 12 months.

Patient characteristics

The inclusion criteria were the following: adult outpatients (between ages 18 and 65) with a schizophrenia diagnosis according to the International Classification of Diseases 10th edition (ICD-10) who exhibited predominant negative symptoms according to the European Psychiatric Association’s (EPA) guidance were included in the study [Reference Galderisi, Mucci, Dollfus, Nordentoft, Falkai and Kaiser17]. The EPA guidance suggests the presence of at least moderate severity of at least two symptoms, which was evaluated and decided by the doctors based on the patient’s anamnesis [Reference Galderisi, Mucci, Dollfus, Nordentoft, Falkai and Kaiser17]. Patients with comorbid neurological disorders were excluded. The cohort study received approval by the Ethics Committee of the Košice Self-Governing Region (3618/2020/ODDZ-07169), and informed written consent was obtained from all participants. The study complies with the Declaration of Helsinki.

Measures

Epidemiological measures were general patient characteristics (sex, age, duration of illness, comorbidities), changes in the frequency of functionality outcomes (employment status, disability status, and disorder insight), changes in the frequency of primary and secondary negative symptoms, and changes in the frequency of treatment patterns (frequency of monotherapy, polytherapy and non-pharmacotherapy) throughout the 1-year observational period. Primary and secondary negative symptoms were differentiated using a structured interview based on the guidance provided by the EPA [Reference Galderisi, Mucci, Dollfus, Nordentoft, Falkai and Kaiser17]. Insight was defined as “a person’s capacity to understand the nature, significance, and severity of his or her own illness” [Reference Reddy18], and whether a patient had full, partial, or no insight was determined by the physician based on the clinical interview.

The effectiveness of the different treatment strategies was assessed via the modified Short Assessment of Negative Domain (m-SAND) scale, the Self-evaluation of Negative Symptoms (SNS) scale [Reference Dollfus, Mach and Morello19], the Personal and Social Performance (PSP) scale [Reference White, Dominise, Naik and Killaspy20], and the Clinical Global Impression – Severity (CGI-S) and the Clinical Global Impression – Improvement (CGI-I) scales [Reference Busner and Targum21]. Given the nature of the study, safety parameters and adverse events were monitored and addressed as in a routine clinical setting.

m-SAND scale

The original SAND was utilized in a Latvian observational study evaluating the effectiveness of cariprazine in predominant negative symptom patients [Reference Rancans, Dombi, Mátrai, Barabássy, Sebe and Skrivele22]. The SAND is an anamnesis-based scale that is composed of seven items: two positive items (delusions and hallucinations), which make the SAND positive subscale (SAND-P), and five negative items (anhedonia, alogia, avolition, asociality, and affective flattening), which make the SAND negative subscale (SAND-N) [Reference Rancans, Dombi, Mátrai, Barabássy, Sebe and Skrivele22]. Each item is rated from 0 to 6 (not observed, minimal, mild, moderate, moderately severe, severe, and extreme). The SAND was chosen due to its simplicity and ability to capture all constructs of the negative symptom domain; however, the rating was modified since it is highly difficult to differentiate between “minimal” and “mild” severities. Therefore, the m-SAND includes the same items, but it is rated from 0 to 5 (not observed, mild, moderate, moderately severe, severe, and extreme). The m-SAND scale can be found in the Supplementary material.

SNS scale

The SNS scale is a self-administered questionnaire that measures the five subdomains of negative symptoms (the 5As) in schizophrenia and schizoaffective disorder [Reference Dollfus, Mach and Morello19]. Being a self-administered questionnaire, SNS is an easily understandable instrument for patients with schizophrenia that provides meaningful information for clinicians regarding the patients’ own perception of their negative symptoms [Reference Dollfus, Mach and Morello19]. Thus, the SNS can complement observer ratings of negative symptoms as well as increase patient engagement.

PSP scale

The PSP scale is a clinical tool used to measure the routine social functioning of patients with psychiatric disorders [Reference White, Dominise, Naik and Killaspy20]. It measures four areas of social and individual performance independently of symptomatology: socially useful activities, personal and social relationships, self-care, and disturbing and aggressive behaviours [Reference White, Dominise, Naik and Killaspy20]. The PSP is a useful tool for providing additional valuable information when evaluating social functioning related to schizophrenia and the effectiveness of the treatment [Reference Jelastopulu, Giourou, Merekoulias, Mestousi, Moratis and Alexopoulos23].

CGI-S and CGI-I scales

The CGI scale provides an overall clinician-determined summary measure regarding the severity of illness (CGI-S) and improvement (CGI-I) in patients with psychiatric disorders [Reference Busner and Targum21]. The CGI is rated on a 7-point scale [Reference Busner and Targum21]. It is considered to be a widely accepted tool that synthesizes the clinician’s impression of the global illness state of the patient [Reference Busner and Targum21].

Statistical analyses

Epidemiologic measures were summarized using descriptive statistics in percentages, means, and standard deviations. Least-squares (LS) means were calculated for the change from baseline to final visit for the effectiveness measures (m-SAND, SNS, PSP, and CGI-S) using a mixed model for repeated measures (MMRM). Bland–Altman agreement plots were created to compare how clinicians (m-SAND-N) versus how patients (SNS) rated negative symptoms. All analyses were conducted using Statistical Analysis Software (SAS).

Results

Epidemiologic measures

Patient characteristics

Baseline patient characteristics are summarized in Table 1. The mean age of the 188 patients who were included in the cohort study was 39.8, and 64.9% of them was men. The mean duration of illness was 12 years, and most of the cohort was diagnosed with paranoid schizophrenia (51.6%). Patients exhibited both psychiatric and somatic comorbidities such as depression (13.3%), substance abuse disorder (11.7%), and personality disorder (8.0%), as well as hypertension (10.6%), obesity (10.1%), and hyperlipidaemia (5.3%). During the 12-month observational period, 148 patients stayed in the cohort study.

Table 1. Patient characteristics

Functionality and insight

At baseline, most patients were unemployed (63.8%), worked occasionally (10.6%), or part-time (11.2%) as displayed in Table 2. At the end of the 12-month observation, only 53.4% were unemployed and more patients worked occasionally (20.9) or part-time (12.8%). The disability status, on the other hand, increased from 76.1% to 83.3%. In terms of disorder insight, at baseline, most patients had partial (70.2%) or full (20.2%) insight, while around 10% of patients had no insight at all. By the end of the observational period, 53.4% had partial, 44.6% full, and 0.2% no insight.

Table 2. Functionality and insight

a 12 months from baseline.

Primary and secondary negative symptoms

All patients had primary negative symptoms, both at baseline and at the end of the study Table 3. At baseline, 93% of patients had blunted affect, 87% apathy, 82% anhedonia, 76% asociality, and 53% alogia. After one year, most patients still experienced affective blunting (93%); nonetheless, the other aspects of negative symptomatology improved: only 62% of the patients had apathy, 56% anhedonia, 50% asociality, and 38% alogia. In addition to primary negative symptoms, a significant proportion of patients also had secondary negative symptoms (56%) due to affective symptoms (37%), positive symptoms (26%), and adverse drug reactions (21%) at baseline. Similar to primary negative symptoms, fewer patients experienced secondary negative symptoms (30%) at the end of the observational period.

Table 3. Primary and secondary negative symptoms

a 12 months from baseline.

Treatment patterns

The treatment approaches of PNS changed slightly throughout the 1-year observational period. At baseline, all patients received pharmacotherapy, 18% antipsychotic monotherapy (M), and 82% polytherapy (P) (Table 4). In addition, 86% of patients received non-pharmacological therapy in the form of supportive psychotherapy (47%), social skills training (13%), and occupational therapy (11%). After 12 months, there was a slight decrease in the number of patients receiving polytherapy (78%) and an increase in non-pharmacological therapies (93%).

Table 4. Treatment approaches

a 12 months from baseline.

b Taken by more than 5% of patients.

Regarding the specific type of antipsychotics, cariprazine (M: 5%, P: 72%), olanzapine (M: 6%, P: 32%), clozapine (M: 3%, P: 18%), and quetiapine (M: 2%, P: 14%) were prescribed most at baseline. At the final visit, there was an increase in the proportion of patients receiving cariprazine monotherapy (20%) and polytherapy (76%), as well as clozapine polytherapy (21%), while those who received olanzapine (M: 0%, P: 23%) and quetiapine (M: 1%, P: 12%) decreased. All in all, throughout the 1-year period, over 200 patients received cariprazine as either monotherapy or polytherapy, 88 received olanzapine, 46 received clozapine, 39 received quetiapine, 32 received haloperidol, 26 received aripiprazole, 20 received flupentixol, 16 received risperidone, and 14 received paliperidone (Figure 1). The most common reason for stopping any antipsychotic treatment was akathisia, extra-pyramidal symptoms, and insomnia (1.6%) (Table 4).

Figure 1. Number of patients taking different types of antipsychotics throughout the observational period.*

*Patients taking multiple medications are counted at each drug; drugs with multiple occurrences within a patient are counted only once.

Effectiveness of treatment

The mean m-SAND score at baseline was 23.6 with an average 4.6 score on the m-SAND-P subscale and 19.1 on the m-SAND-N subscale (Table 5). A statistically significant 10-point LS mean change from baseline was observed at the end of the observational period on the m-SAND total score with an effect size (ES) of -2.5. The change from baseline was statistically significant from the first visit onwards (Figure 2). In terms of the two subscales, both m-SAND-P (LS mean change: -1.8, p-value <0.0001, ES: -1.6) and m-SAND-N (LS mean change: -8.3, p-value <0.0001, ES: -2.4) changed significantly over the 12 months. Importantly, patients also reported their negative symptoms to have improved as measured by the SNS (LS mean change -12-point in the SNS total score, p-value <0.0001, ES: -1.7) with significant improvement in all five subdomains from the first visit onwards (Figure 3). When comparing the views of patients versus doctors at baseline, patients rated alogia and avolition to be the most severe (based on the SNS), while doctors found affective blunting and then avolition to be the most problematic (based on the m-SAND-N). By the end of the observational period, patients had the highest self-reported scores in avolition and affective blunting. Similarly, physicians rated blunted affect, avolition, and anhedonia to be the most severe. These similarities between the ratings by the patients and doctors are confirmed by a Bland–Altman agreement plot as well, which shows that the difference between the mean changes from baseline to final visit in the SNS and SAND-N lies within the 95% confidence interval around the zero-bias line with doctors reporting a slightly greater improvement compared to patients in negative symptoms (Figure 4). Furthermore, according to the CGI-S scale, the participants were moderately ill at baseline (mean score: 4.3) and mildly ill at the end of the observational period (mean score: 3.0). This detected change was also significant (LS mean change: -1.3, p-value <0.0001, ES: -1.5). Indeed, the mean CGI-I score was 2.2 at the end of study, meaning much improvement. Finally, 54.3% of patients manifested disabilities according to the total PSP scores (scores between 31 and 70) and 45.7% poor functioning (scores under 30) at baseline (Table 5). By the end of the observational period, this changed to 92.6% “manifest disabilities” and only 7.4% “functioning is poor.” This was reflected on the subscales as well where statistically significant change was detected in all categories: socially useful activities (LS mean change: -1.4, p-value <0.0001, ES: -1.5), personal and social relationships (LS mean change: -1.7, p-value <0.0001, ES: -2.0), self-care (LS mean change: -1.5, p-value <0.0001, ES: -1.6), and disturbing and aggressive behaviour (LS mean change: -0.9, p-value <0.0001, ES: -1.9).

Table 5. Effectiveness of treatment

Abbreviations: CGI-I, Clinical Global Impressions – Improvement; CGI-S, Clinical Global Impressions – Severity; ES, effect size; LS, least squares; PSP, the Personal and Social Performance; m-SAND, modified Short Assessment of Negative Domains; m-SAND-N, modified Short Assessment of Negative Domains – negative symptom subscale; m-SAND-P, modified Short Assessment of Negative Domains – positive symptom subscale; SNS, Self-evaluation of Negative Symptoms; SD, standard deviation; SE, standard error.

* p-value <0.05.

** p-value <0.001.

*** p-value <0.0001.

Figure 2. Mean change from baseline in m-SAND total, positive subscale, and negative subscale scores by months. ***p-value <0.0001.

Figure 3. Mean change from baseline in SNS subscores by months. ***p-value <0.0001.

Figure 4. Bland–Altman agreement plot: difference between SAND negative subscore and SNS total score (or change) versus their average scores are expressed as percentage of the corresponding max value.

Discussion

This was the first outpatient, longitudinal, prospective, multicentric cohort study in Slovakia that focused specifically on patients with schizophrenia and predominant negative symptoms. The aim was to do an epidemiologic assessment of the characteristics of negative symptoms, functionality status, disorder insight, and treatment patterns in this patient population throughout a 1-year observational period, along with evaluating the effectiveness of treatment approaches.

According to the results, throughout the 1-year observational period, there has been a significant improvement in all negative symptom domains. Importantly, this positive change was observed by both physicians and patients. As articulated in the most recent guidance by the EPA, including self-report measures is encouraged in negative symptom studies as they can further complement the observer-rated scales when assessing negative symptoms of schizophrenia [Reference Galderisi, Mucci, Dollfus, Nordentoft, Falkai and Kaiser17]. In the present case, results based on the SNS and the m-SAND-N scales indicated an agreement between patients and doctors regarding the changes in negative symptoms and highlighted some slight differences in terms of what subdomains of the negative construct are most affected. This comparison was only possible since the SNS and m-SAND-N scales measure the same negative symptom subdomains, the 5As (anhedonia, affective blunting, avolition, alogia, and asociality). It is important to note however that one negative symptom, blunted affect (the decreased expression of emotion), seemed to be the most difficult to treat since, both at baseline and at final visit, 93% of patients were described to exhibit it. Indeed, blunted affect is often unresponsive to treatment and is difficult to measure via rating scales as they are relatively insensitive to change [Reference Cohen, Morrison and Callaway24]. Nonetheless, according to both the SNS and m-SAND-N scales, the severity of blunted affect decreased significantly, suggesting that some improvement is still possible.

By the end of the study, patients also improved in their functioning, with fewer patients being unemployed and more working occasionally and significant changes in the PSP scores. This is not surprising given the fact that negative symptoms are known to impact everyday functioning [Reference Correll and Schooler7], and numerous studies reported a link between greater negative symptoms and reduced work functioning [Reference Hunter and Barry25, Reference Shamsi, Lau, Lencz, Burdick, DeRosse and Brenner26]. It is important to note however that even though there had been a reduction in the unemployment status, the proportion of patients being unemployed was still higher than what was reported in a study by Szkultecka-Dębek et al. in 2016 (53% vs. 14%) [Reference Szkultecka-Debek, Miernik, Stelmachowski, Jakovljevic, Jukic and Aadamsoo5]. Additionally, while Szkultecka-Dębek et al. reported 63% of Slovakian patients with schizophrenia to live on disability pension or retirement or employed on sick leave, in the current study, 84% had a disability due to psychiatric illness. Both aspects might be explained by the fact that the participants in the former study were not patients with PNS specifically. In terms of disability status, no improvement was found as the frequency of patients being disabled due to psychiatric illness increased. It is important to note however that in most social care systems [27, 28], schizophrenia is recognized as a qualified condition for disability benefits. Therefore, improvements in overall functioning due to successful treatment does not necessarily translate into a decline of financial support needed that is associated with disability status.

Besides employment and disability status, there was a change in the patients’ insight as well. Insight is defined as “the patient’s capacity to acknowledge some awareness of having an illness” [Reference Carpenter, Strauss and Bartko29] and has also been repeatedly reported to be associated with negative symptoms [Reference Joseph, Narayanaswamy and Venkatasubramanian30]. For instance, Kemp and Lambert found a correlation between negative symptoms and insight in subjects who improved with treatment [Reference Kemp and Lambert31]. This also seemed to be the case in the present study where alongside the improvement in negative symptoms, the proportion of patients with full insight doubled (from 20% to 45%) and the number of participants with no insight declined.

In terms of typical treatment approaches in Slovakia, the present study showed that most patients received combination therapy (78% at final visit). Although it is not recommended by guidelines, polytherapy is quite common in everyday clinical practice [Reference Lin32]. Indeed, in a survey conducted in five European countries, polypharmacy rates were reported to increase from 19% to 27% between 2000 and 2015 [Reference Toto, Grohmann, Bleich, Frieling, Maier and Greil33]. Interestingly, various studies underline the superiority of polypharmacy compared to monotherapy, especially on parameters such as rehospitalization rates [Reference Tiihonen, Taipale, Mehtälä, Vattulainen, Correll and Tanskanen34] or total symptom reduction [Reference Galling, Roldán, Hagi, Rietschel, Walyzada and Zheng35]. In fact, clozapine combined with a D2 partial agonist antipsychotic medication was associated with the lowest risk of rehospitalization even compared to clozapine monotherapy [Reference Tiihonen, Taipale, Mehtälä, Vattulainen, Correll and Tanskanen34], the gold standard in treatment-resistant schizophrenia. Similarly, the most often used augmentation strategy in the present study was an atypical antipsychotic and cariprazine. This might be related to the unique mechanism of action of cariprazine and its efficacy on negative symptoms [Reference Németh, Laszlovszky, Czobor, Szalai, Szatmári and Harsányi15, Reference Rancans, Dombi, Mátrai, Barabássy, Sebe and Skrivele22, 36]. Additionally, recent evidence also endorsed the augmentation strategy of clozapine with cariprazine [Reference De Berardis, Rapini, Olivieri, Giardini, De Lauretis and Serroni37Reference Oloyede, Clark, Mace, Whiskey and Taylor40] by reporting good tolerability and safety, as well as further reduction in negative symptoms. [Reference Stahl14, Reference Hjorth41]

Cariprazine was the most popular medication as monotherapy too with 20% of participants being on cariprazine treatment alone at final visit. This is in line with the treatment algorithm by Cerveri et al [Reference Cerveri, Gesi and Mencacci42]. The results also provide confirmation to the claim that this algorithm has been adapted in Slovakia [Reference Bitter, Mohr, Raspopova, Szulc, Samochowiec and Micluia16]. Rancans et al. conducted a 16-week observational study on the effectiveness of cariprazine with PNS patients as well [Reference Rancans, Dombi, Mátrai, Barabássy, Sebe and Skrivele22]. The results of the observational study are comparable to this cohort study; participants in both studies were patients with PNS with a baseline CGI of moderate severity (present study: 4.3, Rancans et al.: 4.4), and the primary outcome measure was the SAND [Reference Rancans, Dombi, Mátrai, Barabássy, Sebe and Skrivele22] and the m-SAND [22]. In addition, it also shows that improvement in this symptom domain is slower and continuous with no plateauing of improvement at any point of the 12 months.

The present study has multiple limitations. First, due to the nature of the study design, results have limited internal validity due to probable selection and different biases such as observer bias, inter-rater bias, information bias, and measurement bias [Reference Leon43, Reference Cohen, Goto, Schreiber and Torp-Pedersen44]. Internal validity plays a crucial role in establishing the effectiveness of a treatment; it ensures that the observed effects are directly attributable to the treatment itself, rather than being influenced by other external factors [Reference Cohen, Goto, Schreiber and Torp-Pedersen44]. However, the primary objective of this study was not to establish efficacy, but to understand the typical treatment and symptom patterns of patients with schizophrenia and PNS in Slovakia. The second limitation is that the primary outcome measure of the study was a non-validated scale. Nonetheless, using standardized scales in real-life settings is often not feasible, and thus, to better mimic real-life settings, the m-SAND was utilized [Reference Rancans, Dombi, Mátrai, Barabássy, Sebe and Skrivele22]. Although the m-SAND scale is not validated, it is based on the CGI-S scale, which is known to have good inter-rater reliability among clinicians [Reference Busner and Targum21, Reference Rancans, Dombi, Mátrai, Barabássy, Sebe and Skrivele22]. Future research should aim to further investigate what combinations are the most effective in improving PNS as we have seen that besides cariprazine, most patients took an additional antipsychotic medication as well.

Conclusion

In conclusion, with the right treatment strategy, it is possible to improve PNS as well as everyday functioning in outpatients with schizophrenia. One of the most used antipsychotic medications in this patient population was cariprazine, which had been utilized both alone and in combination with other antipsychotics. This strategy is in line with the treatment algorithm for negative symptoms in schizophrenia suggested by Cerveri et al., which recommends cariprazine as a first-line medication for the treatment of negative symptoms [Reference Cerveri, Gesi and Mencacci42]. It is also important to note that the improvement in negative symptoms was continuous throughout the one-year observation with no plateauing at any point, suggesting that patience is key in negative symptom treatment.

Supplementary material

The supplementary material for this article can be found at http://doi.org/10.1192/j.eurpsy.2024.1757.

Data availability statement

The data that support the findings of this study are available from the corresponding author, Z. B. Dombi, upon reasonable request.

Financial support

The authors declare that this study received funding from Gedeon Richter Slovakia. The funder had the following involvement in the study: support to data collection.

Ethical standard

The cohort study received approval by the Ethics Committee of the Košice Self-Governing Region (3618/2020/ODDZ-07169), and informed written consent was obtained from all participants.

Competing interest

Z. B. Dombi, K. Acsai, V. Dzurilla, and Á. Barabássy are employees of Gedeon Richter Plc., the originator company of cariprazine. J. Dragašek received honoraria or consultation fees outside of this work from Gedeon Richter Slovakia.

References

Moreno-Küstner, B, Martín, C, Pastor, L. Prevalence of psychotic disorders and its association with methodological issues. A systematic review and meta-analyses. PLoS One. 2018;13(4), e0195687. doi:10.1371/journal.pone.0195687.CrossRefGoogle ScholarPubMed
Vos, T, Abajobir, AA, Abbafati, C, Abbas, KM, Abate, KH, Abd-Allah, F, et al. Global, regional, and national incidence, prevalence, and years lived with disability for 328 diseases and injuries for 195 countries, 1990-2016: a systematic analysis for the Global Burden of Disease Study 2016. Lancet. 2017;390(10100), 12111259. doi:10.1016/S0140-6736(17)32154-2.CrossRefGoogle Scholar
Nielsen, RE, Banner, J, Jensen, SE. Cardiovascular disease in patients with severe mental illness. Nat Rev Cardiol. 2021;18(2), 136145. doi:10.1038/s41569-020-00463-7.CrossRefGoogle ScholarPubMed
He, Y, Tanaka, A, Kishi, T, Li, Y, Matsunaga, M, Tanihara, S, et al. Recent findings on subjective well-being and physical, psychiatric, and social comorbidities in individuals with schizophrenia: a literature review. Neuropsychopharmacol Rep. 2022;42(4), 430436. https://doi.org/10.1002/npr2.12286.CrossRefGoogle ScholarPubMed
Szkultecka-Debek, M, Miernik, K, Stelmachowski, J, Jakovljevic, M, Jukic, V, Aadamsoo, K, et al. Schizophrenia causes significant burden to patients’ and caregivers’ lives. Psychiatr Danub. 2016;28(2), 104110.Google ScholarPubMed
Opler, LA, Hwang, MY. Schizophrenia: a multidimensional disorder. Psychiatr Ann. 1994;24:491–5. doi:10.3928/0048-5713-19940901-12.CrossRefGoogle Scholar
Correll, CU, Schooler, NR. Negative symptoms in schizophrenia: a review and clinical guide for recognition, assessment, and treatment. Neuropsychiatr Dis Treat. 2020;16, 519534. doi:10.2147/NDT.S225643.CrossRefGoogle ScholarPubMed
Barabassy, A, Szatmári, B, Laszlovszky, I, Németh, G. Negative symptoms of schizophrenia: constructs, burden, and management. In Psychotic disorders - an update; IntechOpen, Rijeka, 2018. doi:10.5772/intechopen.73300.CrossRefGoogle Scholar
Marder, SR, Galderisi, S. The current conceptualization of negative symptoms in schizophrenia. World Psychiatry. 2017;16(1), 1424. doi:10.1002/wps.20385.CrossRefGoogle ScholarPubMed
García-Fernández, L, Romero-Ferreiro, V, Sánchez-Pastor, L, Dompablo, M, Martínez-Gras, I, Espejo-Saavedra, JM, et al. Impact of negative symptoms on functioning and quality of life in first psychotic episodes of Schizophrenia. J Clin Med. 2022;11(4), 983. doi:10.3390/jcm11040983.CrossRefGoogle ScholarPubMed
D’Anna, G, Zarbo, C, Cardamone, G, Zamparini, M, Calza, S, Rota, M, et al. Interplay between negative symptoms, time spent doing nothing, and negative emotions in patients with schizophrenia spectrum disorders: results from a 37-site study. Schizophrenia 2023;9(1), 63. doi:10.1038/s41537-023-00372-x.CrossRefGoogle Scholar
Novick, D, Montgomery, W, Cheng, Y, Moneta, V, Haro, J. Impact of negative symptoms on quality of life in patients with Schizophrenia. Value Health. 2015;18(7), PA836A837. doi:10.1016/j.jval.2015.09.351.CrossRefGoogle Scholar
Szkultecka-Debek, M, Miernik, K, Stelmachowski, J, Jakovljević, M, Jukić, V, Aadamsoo, K, et al. Treatment patterns of schizophrenia based on the data from seven central and eastern European countries. Psychiatr Danub. 2016;28(3), 234242.Google ScholarPubMed
Stahl, SM. Mechanism of action of cariprazine. CNS Spectr. 2016;21:123–7. doi:10.1017/S1092852916000043.CrossRefGoogle ScholarPubMed
Németh, G, Laszlovszky, I, Czobor, P, Szalai, E, Szatmári, B, Harsányi, 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. doi:10.1016/S0140-6736(17)30060-0.CrossRefGoogle ScholarPubMed
Bitter, I, Mohr, P, Raspopova, N, Szulc, A, Samochowiec, J, Micluia, IV, et al. Assessment and treatment of negative symptoms in Schizophrenia—a regional perspective. Front Psychiatry. 2022;12, 820801. doi:10.3389/fpsyt.2021.820801.CrossRefGoogle ScholarPubMed
Galderisi, S, Mucci, A, Dollfus, S, Nordentoft, M, Falkai, P, Kaiser, S, et al. EPA guidance on assessment of negative symptoms in Schizophrenia. Eur Psychiatry. 2021;64(1), e23. doi:10.1192/j.eurpsy.2021.11.CrossRefGoogle ScholarPubMed
Reddy, M. Insight and psychosis. Indian J Psychol Med. 2015;37(3), 257260. doi:10.4103/0253-7176.162909.CrossRefGoogle ScholarPubMed
Dollfus, S, Mach, C, Morello, R. Self-evaluation of negative symptoms: a novel tool to assess negative symptoms. Schizophr Bull. 2016;42(3), 571578. doi:10.1093/schbul/sbv161.CrossRefGoogle ScholarPubMed
White, S, Dominise, C, Naik, D, Killaspy, H. The reliability of the personal and social performance scale – informing its training and use. Psychiatry Res. 2016;243. https://doi.org/10.1016/j.psychres.2016.06.047.Google ScholarPubMed
Busner, J, Targum, SD. The clinical global impressions scale: applying a research tool in clinical practice. Psychiatry (Edgmont). 2007;4(7), 2837.Google ScholarPubMed
Rancans, E, Dombi, ZB, Mátrai, P, Barabássy, Á, Sebe, B, Skrivele, I, et al. The effectiveness and safety of cariprazine in schizophrenia patients with negative symptoms and insufficient effectiveness of previous antipsychotic therapy: an observational study. Int Clin Psychopharmacol. 2021;36(3), 154161. doi:10.1097/YIC.0000000000000351.CrossRefGoogle ScholarPubMed
Jelastopulu, E, Giourou, E, Merekoulias, G, Mestousi, A, Moratis, E, Alexopoulos, EC. Correlation between the Personal and Social Performance scale (PSP) and the Positive and Negative Syndrome Scale (PANSS) in a Greek sample of patients with schizophrenia. BMC Psychiatry. 2014;14, 197. doi:10.1186/1471-244X-14-197.CrossRefGoogle Scholar
Cohen, AS, Morrison, SC, Callaway, DA. Computerized facial analysis for understanding constricted/blunted affect: initial feasibility, reliability, and validity data. Schizophr Res. 2013;148(1-3), 111116. doi:10.1016/j.schres.2013.05.003.CrossRefGoogle ScholarPubMed
Hunter, R, Barry, S. Negative symptoms and psychosocial functioning in schizophrenia: neglected but important targets for treatment. Eur Psychiatry. 2012;27(6), 432436. doi:10.1016/j.eurpsy.2011.02.015.CrossRefGoogle ScholarPubMed
Shamsi, S, Lau, A, Lencz, T, Burdick, KE, DeRosse, P, Brenner, R, et al. Cognitive and symptomatic predictors of functional disability in schizophrenia. Schizophr Res. 2011;126(1-3), 257264. doi:10.1016/j.schres.2010.08.007.CrossRefGoogle ScholarPubMed
gov.uk. When a mental health condition becomes a disability, https://www.gov.uk/when-mental-health-condition-becomes-disability; 2023 [accessed 5 January 2024].Google Scholar
Disability Benefits Center. Schizophrenia and Social Security Disability; 2023.Google Scholar
Carpenter, WT, Strauss, JS, Bartko, JJ. Flexible system for the diagnosis of schizophrenia: report from the WHO International Pilot Study of Schizophrenia. Science. 1973;182(4118), 12751278. doi:10.1126/science.182.4118.1275.CrossRefGoogle ScholarPubMed
Joseph, B, Narayanaswamy, J, Venkatasubramanian, G. Insight in schizophrenia: relationship to positive, negative and neurocognitive dimensions. Indian J Psychol Med. 2015;37(1), 511. doi:10.4103/0253-7176.150797.CrossRefGoogle ScholarPubMed
Kemp, RA, Lambert, TJR. Insight in schizophrenia and its relationship to psychopathology. Schizophr Res. 1995;18(1), 2128. doi:10.1016/0920-9964(95)00018-6.CrossRefGoogle ScholarPubMed
Lin, SK. Antipsychotic polypharmacy: a dirty little secret or a fashion? Int J Neuropsychopharmacol. 2021;23(2), 125131. doi:10.1093/IJNP/PYZ068.CrossRefGoogle Scholar
Toto, S, Grohmann, R, Bleich, S, Frieling, H, Maier, HB, Greil, W, et al. Psychopharmacological treatment of Schizophrenia over time in 30 908 inpatients: data from the AMSP study. Int J Neuropsychopharmacol. 2019;22(9), 560573. doi:10.1093/IJNP/PYZ037.CrossRefGoogle Scholar
Tiihonen, J, Taipale, H, Mehtälä, J, Vattulainen, P, Correll, CU, Tanskanen, A. Association of antipsychotic polypharmacy vs monotherapy with psychiatric rehospitalization among adults with Schizophrenia. JAMA Psychiatry. 2019;76(5), 499507. doi:10.1001/jamapsychiatry.2018.4320.CrossRefGoogle ScholarPubMed
Galling, B, Roldán, A, Hagi, K, Rietschel, L, Walyzada, F, Zheng, W, et al. Antipsychotic augmentation vs. monotherapy in schizophrenia: systematic review, meta-analysis and meta-regression analysis. World Psychiatry. 2017;16(1), 7789. doi:10.1002/wps.20387.CrossRefGoogle ScholarPubMed
De Berardis, D, Rapini, G, Olivieri, L, Giardini, A, De Lauretis, I, Serroni, N, et al. Cariprazine add-on in inadequate clozapine response: a report on two cases. Clin Psychopharmacol Neurosci. 2021;19:174–8. doi:10.9758/CPN.2021.19.1.174.CrossRefGoogle Scholar
Darriba, HB. Combined use of clozapine and cariprazine in treatment-resistant schizophrenia, is it a good choice? Eur Psychiatry. 2021;64(Suppl 1), S798S799. doi:10.1192/j.eurpsy.2021.2111.CrossRefGoogle Scholar
Pappa, S, Kalniunas, A, Sharma, H, Raza-Syed, A, Kamal, M, Larkin, F. Efficacy and safety of cariprazine augmentation in patients treated with clozapine: a pilot study. Ther Adv Psychopharmacol. 2022;12, 20451253221132087. doi:10.1177/20451253221132087.CrossRefGoogle ScholarPubMed
Oloyede, E, Clark, I, Mace, S, Whiskey, E, Taylor, D. Clozapine augmentation with cariprazine for negative symptoms: a case series and literature review. Ther Adv Psychopharmacol. 2022;12:19.CrossRefGoogle ScholarPubMed
Hjorth, S. The more, the merrier…? Antipsychotic polypharmacy treatment strategies in schizophrenia from a pharmacology perspective. Front Psychiatry. 2021;12, 760181. doi:10.3389/fpsyt.2021.760181.CrossRefGoogle ScholarPubMed
Cerveri, G, Gesi, C, Mencacci, C. Pharmacological treatment of negative symptoms in schizophrenia: Update and proposal of a clinical algorithm. Neuropsychiatr Dis Treat. 2019;15, 15251535. doi:10.2147/NDT.S201726.CrossRefGoogle ScholarPubMed
Leon, AC. Evaluation of psychiatric interventions in an observational study: issues in design and analysis. Dialogues Clin Neurosci. 2011;13(2), 191198. doi:10.31887/dcns.2011.13.2/aleon.CrossRefGoogle Scholar
Cohen, AT, Goto, S, Schreiber, K, Torp-Pedersen, C. Why do we need observational studies of everyday patients in the real-life setting? Eur Heart J, Suppl. 2015;17, Issue suppl_D, July 2015, D2D8. doi:10.1093/eurheartj/suv035.CrossRefGoogle Scholar
Figure 0

Table 1. Patient characteristics

Figure 1

Table 2. Functionality and insight

Figure 2

Table 3. Primary and secondary negative symptoms

Figure 3

Table 4. Treatment approaches

Figure 4

Figure 1. Number of patients taking different types of antipsychotics throughout the observational period.**Patients taking multiple medications are counted at each drug; drugs with multiple occurrences within a patient are counted only once.

Figure 5

Table 5. Effectiveness of treatment

Figure 6

Figure 2. Mean change from baseline in m-SAND total, positive subscale, and negative subscale scores by months. ***p-value <0.0001.

Figure 7

Figure 3. Mean change from baseline in SNS subscores by months. ***p-value <0.0001.

Figure 8

Figure 4. Bland–Altman agreement plot: difference between SAND negative subscore and SNS total score (or change) versus their average scores are expressed as percentage of the corresponding max value.

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