Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-26T05:03:35.775Z Has data issue: false hasContentIssue false
  • English
  • Français

Prescription patterns in psychiatric compulsory care: polypharmacy and high-dose antipsychotics

Published online by Cambridge University Press:  16 August 2021

Katerina Kaikoushi Open the ORCID record for Katerina Kaikoushi [Opens in a new window] ,
Maria Karanikola Open the ORCID record for Maria Karanikola [Opens in a new window] ,
Nicos Middleton ,
Evanthia Bella  and
Andreas Chatzittofis
Katerina Kaikoushi
Affiliation:
School of Health Sciences, Department of Nursing, Cyprus University of Technology, Cyprus; and Cyprus mental Health Services, Famagusta, Cyprus
Maria Karanikola*
Affiliation:
School of Health Sciences, Department of Nursing, Cyprus University of Technology, Cyprus
Nicos Middleton
Affiliation:
School of Health Sciences, Department of Nursing, Cyprus University of Technology, Cyprus
Evanthia Bella
Affiliation:
Medical School, University of Cyprus, Cyprus
Andreas Chatzittofis
Affiliation:
Medical School, University of Cyprus, Cyprus; and Department of Clinical Sciences, Umeå University, Umeå, Sweden
*
Correspondence: Maria Karanikola. Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Background

Antipsychotic polypharmacy and prescription of high-dose antipsychotics are often used for the treatment of psychotic symptoms, especially in compulsory psychiatric care although there is lack of evidence to support this practice and related risks for patients.

Aims

We aimed to investigate prescription patterns in patients with psychosis under compulsory psychiatric treatment in Cyprus and to identify predictors for pharmaceutic treatment patterns.

Method

This was a nationwide, descriptive correlational study with cross-sectional comparisons, including 482 patients with compulsory admission to hospital. Sociodemographic and clinical data were collected. Psychotic symptoms were assessed with the Positive and Negative Syndrome Scale (PANSS). Prescribed medication patterns, including use of medication pro re nata (PRN, when required), were recorded.

Results

Antipsychotic polypharmacy with a PRN schema was reported in 33.2% (n = 160) of the participants. Polypharmacy without a PRN schema was reported in 5.6% (n = 27) of the participants. We found that 27.2% (n = 131) of the participants were prescribed high-dose antipsychotics without PRN included; and 39.2% (n = 189) prescribed high-dose antipsychotics with PRN included. In the logistic regression analyses, predictors for prescription of high-dose antipsychotics were male gender, positive psychiatric history, receiving state benefits and a negative history of substance use. Male gender was the only predictor for polypharmacy without a PRN schema whereas male gender, negative family psychiatric history, receiving state benefits and the total score on the positive symptoms PANSS subscale were predictors for polypharmacy with a PRN schema included.

Conclusions

A high frequency of polypharmacy and use of medication PRN beyond clinical guidelines has been reported for the first time in psychiatric compulsory care in Cyprus; revision in antipsychotic prescription is needed.

Keywords

Polypharmacyhigh-dose antipsychoticscompulsoryinvoluntary
Type
Papers
Information
BJPsych Open , Volume 7 , Issue 5 , September 2021 , e149
Check for updates
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 in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s), 2021. Published by Cambridge University Press on behalf of the Royal College of Psychiatrists

Background

Management of psychotic symptoms is a challenging clinical task and there is data showing that published treatment guidelines are not always followed by clinicians.Reference Remington, Addington, Honer, Ismail, Raedler and Teehan1 Research data regarding antipsychotic agents is mainly focused on monotherapy, effectiveness issues, optimisation of dosage, different routes of administration and pharmacokinetics, especially for long-acting medication.Reference Mendes, Azeredo-Lopes and Cardoso2 Monotherapy is not always achieved, and polypharmacy and prescription of high-dose antipsychotics are common practices in patients with psychotic symptoms.Reference Mendes, Azeredo-Lopes and Cardoso2Reference Martinho, Poças, Simões and Laureano4

Antipsychotic polypharmacy is defined as prescribing more than one antipsychotic substance, and is usually justified for the treatment of resistant schizophrenia; in brief periods of medication cross-titration; and mainly when therapeutics include clozapine.Reference McMillan, Jacobs, Wilson, Theodoros, Robinson and Anderson5 However, in everyday clinical practice, treatment regimens may include patterns of use that are beyond these guidelines, with polypharmacy becoming a global practice with an approximately 20% frequency of occurrence.Reference Gallego, Bonetti, Zhang, Kane and Correll3,Reference Lung, Lee, Chen, Chan, Chang and Hui6,Reference Razzouk, Kayo, Sousa, Gregorio, Cogo-Moreira and Cardoso7 Several reasons have been cited, such as treatment-resistant illness, side-effects as well as the preferences of patients or physicians.Reference Gallego, Bonetti, Zhang, Kane and Correll3,Reference Lung, Lee, Chen, Chan, Chang and Hui6,Reference Razzouk, Kayo, Sousa, Gregorio, Cogo-Moreira and Cardoso7 Indeed, a combination of multiple antipsychotics with high doses of antipsychotics may be prescribed for the remission of symptoms.Reference Carmona-Huerta, Castiello-de Obeso, Ramírez-Palomino, Duran-Gutiérrez, Cardona-Muller and Grover-Paez8

The practice of polypharmacy is, nevertheless, controversial, as there is scant data to support its effectiveness.Reference Lung, Lee, Chen, Chan, Chang and Hui6 In contrast, a wealth of empirical findings report risks arising from polypharmacy, including multiple side-effects, high mortality,Reference Carmona-Huerta, Castiello-de Obeso, Ramírez-Palomino, Duran-Gutiérrez, Cardona-Muller and Grover-Paez8 high frequency of readmissions associated with an inability to follow complex pharmacotherapy patterns – all leading to high costs in healthcare systems.Reference Kadra, Stewart, Shetty, MacCabe, Chang and Kesserwani9Reference Baker and Aebi11

High-dose here is defined as when the total daily dose of an antipsychotic exceeds the upper dose limit recommended by clinical guidelines (for example those of the European Medication Agency or the British National Formulary) according to the patient's age and the indication being treated.Reference Mendes, Azeredo-Lopes and Cardoso2, Reference Carmona-Huerta, Castiello-de Obeso, Ramírez-Palomino, Duran-Gutiérrez, Cardona-Muller and Grover-Paez8 Two practices related to prescription of high-dose antipsychotics have been identified. The first includes prescription of a single antipsychotic agent at a dose higher than the maximum recommended. The second practice regards the prescription of two or more antipsychotics, where the sum of the percentage of the maximum dosage of each agent corresponds to a total dose higher than 100%.Reference Mendes, Azeredo-Lopes and Cardoso2,Reference Carmona-Huerta, Castiello-de Obeso, Ramírez-Palomino, Duran-Gutiérrez, Cardona-Muller and Grover-Paez8 As in the case of polypharmacy, prescribing high-dose antipsychotic medications is a practice that is not supported by research data and it is also associated with multiple risks, such as the occurrence of extrapyramidal symptoms and increased cardiac problems.Reference Carmona-Huerta, Castiello-de Obeso, Ramírez-Palomino, Duran-Gutiérrez, Cardona-Muller and Grover-Paez8,Reference Ortiz-Orendain, Castiello-de Obeso, Colunga-Lozano, Hu, Maayan and Adams12,Reference Ray, Chung, Murray, Hall and Stein13

Compulsory psychiatric treatment under involuntary admission to hospital is provided when individuals facing severe mental health problems refuse medical treatment and risk assessment about their or others’ safety, supports this practice. According to the Compulsory Psychiatric Hospitalisation Act of the Republic of Cyprus, involuntary psychiatric admission to hospital is based on a psychiatrist's clinical judgement when there is present a severe psychiatric disorder characterised by violent and harmful antisocial behaviour, or when the mental capacity of a patient has deteriorated to such an extent that it makes the patient's detention necessary for the protection of himself/herself and/or his/her beloved ones.14

Compulsory treatment has been associated with increased risk for both polypharmacy and prescription of high-dose antipsychotics. Thus, it is deemed important to monitor this practice to improve the quality and safety of care during compulsory treatment. Previous studies on patterns of antipsychotic prescription have not always included key variables, such as medication provided pro re nata (PRN, when required) and other clinical data, such as the severity of psychotic symptoms.Reference Douglas-Hall and Whicher15,Reference Saito, Eng, Grosso, Ozinci and Van Meter16 PRN medication prescription is when timing of administration is left to the patient or clinician (nurse) as needed, or as the situation arises, in contrast to a scheduled medication plan.

Aims

The aim of this study was to investigate prescription patterns in patients with psychosis involuntarily admitted to hospital for compulsory treatment in Cyprus, with a focus on polypharmacy and prescription of high-dose antipsychotics as well as identification of possible predictors for these treatment patterns. These patterns have not been evaluated in Cyprus previously; a situation which is mirrored in several other national contexts.Reference Mendes, Azeredo-Lopes and Cardoso2Reference Martinho, Poças, Simões and Laureano4

Method

Study settings

This is a nationwide, descriptive correlational study with cross-sectional comparisons. The study took place at the Athalassa Psychiatric Hospital (APH), which is the only in-patient facility for compulsory psychiatric care in the Republic of Cyprus.

Study participants and data collection

Data collection took place from December 2016 to February 2018 using a census sampling method. Following the inclusion and exclusion criteria, all demographic and clinical data of the study target population (i.e. adults involuntarily admitted with psychotic symptomatology to the APH), were recorded.

The inclusion criteria were:

  1. (a) age between 18 to 65 years;

  2. (b) diagnosis of a mood disorders, or substance use-induced disorder or schizophrenia-spectrum and other psychotic disorders;

  3. (c) hospital admission of 3 days or longer;

  4. (d) signed informed consent for participation in the study.

Exclusion criteria included diagnoses of:

  1. (a) neurocognitive disorders, such as Alzheimer's disease or delirium;

  2. (b) intellectual disabilities;

  3. (c) developmental disorders; and

  4. (d) personality disorders, as in most cases individuals with personality disorders were admitted to hospital for less than 24 h.

There was a total of 761 admissions to the APH during the study period. There were 22 individuals who were not included because of the age criterion (n = 9 were younger than 18 years; n = 13 were older than 65 years) and 173 were excluded because of their diagnosis (personality disorders n = 152; intellectual disabilities n = 21). Additionally, 77 individuals did not provide informed consent, 2 individuals died during their admission and 5 individuals were not included because of incomplete data. The final sample consisted of 482 cases.

Assessment

Study participants were assessed independently by two members of the research team. The assessment took place within the first 72 h after admission with a duration of about 15–20 min. When participants’ native language was neither Greek nor English (4.3% of the participants), a translator supported the assessment process. Recorded assessment data were kept in patient's medical files, until signed informed consent was provided by them for inclusion in the present study. The informed consent was taken on the last day of hospital admission in order for the responders to have achieved an adequate level of illness insight, thus being able to fully understand the information given according to the research protocol. For the purposes of the analysis, only anonymised data were used.

A structured questionnaire was used for data collection, including the Positive and Negative Syndrome Scale (PANSS) for the assessment of the severity of psychotic symptoms,Reference Kay, Fiszbein and Opler17 sociodemographic data (gender, age, marital status, nationality, educational level, occupational status, receiving financial reimbursement, body mass index (BMI)) and clinical data (personal and family psychiatric history, substance use, main symptomatology during admission, psychiatric diagnosis and prescribed medication).

Main symptomatology during admission was categorised as follows:

  1. (a) non-adherence to pharmacotherapy and disorganised behaviour;

  2. (b) substance use and disorganised behaviour;

  3. (c) Suicidal/self-harming behaviour;

  4. (d) aggressive behaviour towards others;

  5. (e) disorganised behaviour not otherwise specified.

Psychiatric diagnoses were classified according to the following grouping:

  1. (a) schizophrenia,

  2. (b) other psychotic disorder from the spectrum of schizophrenia;

  3. (c) mood disorders;

  4. (d) other (anxiety disorders, psychotic disorders owing to a medical condition).

Regarding prescribed medication the following were recorded: active agent, total daily dose, route of administration, weekly dose of long-acting injectable (LAI) antipsychotics, active ingredients of other drug therapies, statim (STAT, immediately) and PRN schemas. As PRN prescription is a common practice and, in some cases, constitutes a large part of the prescribed medication schemas, it was deemed as important to assess its impact. Moreover, the prescribed dose of each antipsychotic was reported, and the equivalent percentage of the antipsychotic was calculated by converting its dose into the percentage of the maximum recommended daily dose for that agent according to the European Medicines Agency standards published in Maudsley prescribing guidelines.Reference Taylor, Barnes and Young18 For example, since the maximum recommended daily dose of olanzapine is 20 mg, a dose of 10 mg corresponds to the 50% of the daily recommended antipsychotic dose. Moreover, the sum of all percentages prescribed to each patient was calculated. A ‘high-dose prescription’ was considered when the sum of all the percentages of the antipsychotics prescribed to a patient exceeded 100%. Antipsychotic polypharmacy was considered to be present when co-prescription of more than one antipsychotic was detailed for a patient.Reference Barnes and Paton19

The study protocol was approved by the National Committee of Bioethics (EEBK/EP/2014/08), the Research Committee of the Ministry of Health (PN:5.34:01.7.3E) and the Personal Data Protection Officer (5.43.01.7.6 Ε, PN:0237/2014) of the Republic of Cyprus.

Data analysis

Frequencies were used to describe categorical variables, and the chi-square test for comparisons between groups. Following normality tests for continuous variables, comparisons between groups were based on parametric tests. Moreover, age was analysed aa a categorical variable to provide more accurate information regarding specific age groups associated with polypharmacy and/or prescription of high-dose antipsychotics.

Prescribed medication were categorised first-/second-generation antipsychotics, LAI antipsychotics, antidepressants, mood stabilisers, anticholinergics (benzodiazepines and tranquilisers) and frequencies were estimated for each category. The association of clinical and sociodemographic characteristics with polypharmacy (with and without PRN schema) and prescription of high-dose antipsychotics (with and without PRN schema) were assessed using chi-square tests.

Statistical significance in univariable tests was set to 0.05 or lower. Aiming to explore these associations after controlling for the potential confounding effect of other variables, odds ratio (and 95% CIs) of polypharmacy and prescription of high-dose antipsychotics for each of the sociodemographic and clinical characteristics were estimated in logistic regression models. Forward-stepwise multivariable logistic regression models were used to select the final set of variables (among a large number) associated with high doses of antipsychotics and antipsychotic polypharmacy (dependent variables, respectively) controlling for the potential confounding effect of the rest of the variables in the final model. For the multivariable model, statistical significance was set to 0.10 or lower. Data analysis was performed using the Statistical Package for Social Sciences (SPSS, Inc, Chicago, IL version 20.00).

Results

Sociodemographic and clinical characteristics

The final sample included 65.3% (315) men and 34.6% (167) women, of whom 55% were in the age group 35–65 years. The majority were Greek Cypriots (74.5%), not married (86.9%) and unemployed (77.5%). Nearly half (48.8%) were diagnosed with schizophrenia and an additional 26.1% with other related psychotic disorders. A total of 74.9% had a personal psychiatric history, 59.3% had had previous hospital admissions for compulsory psychiatric treatment in the APH and 44% had a history for substance use. The sociodemographic and clinical characteristics of the study participants are presented in Table 1.

Table 1 Demographic and clinical characteristics (n = 482)

The total mean score on the PANSS was 100.94 (score range 41–186, s.d. = 25.82) on the overall scale. With a mean of 29.32 (scale range 7–46, s.d.= 9.17) on the positive symptoms subscale, 21.03 (scale range 7–46, s.d. = 9.34) on the negative symptoms subscale and 50.59 (score range 24–88, s.d. = 12.12) on the general symptoms subscale.

Prescribed medication without including PRN

Antipsychotics were prescribed in 422 of the participants (87.6%). These were classified as first-generation antipsychotics (haloperidol, chlorpromazine, fluphenazine) and second-generation antipsychotics (olanzapine, amisulpride, risperidone, asenapine, ziprasidone, paliperidone), prescribed in 29.5% (n = 142) and 71.8% (n = 346) of participants, respectively.

The most frequent first-generation prescribed antipsychotics were haloperidol (23.2%) and zuclopenthixol (8.7%), whereas the most frequent second-generation prescribed antipsychotics were olanzapine (39.8%), risperidone (17.8%) and quetiapine (4.8%). Furthermore, the most frequent combination of antipsychotics included olanzapine and haloperidol (15.6%, n = 440).

LAI antipsychotics were prescribed in 18 participants (3.7%) and anticholinergics in 24.7% (n = 119) participants. Antidepressants were prescribed in 10.4% (n = 50) and mood stabilisers in 9.5% (n = 46) participants, with only 1 participant prescribed lithium. Benzodiazepines were prescribed in 53.5% (n = 258) of the participants and only 2.5% (n = 12) were prescribed tranquilisers (clomethiazole).

In 60 of the 482 participants, STAT medication was prescribed at the admission stage; antipsychotics were prescribed in 48 and benzodiazepines in 15 participants.

PRN medication

PRN medication was prescribed in 98.1% (n = 473) of the participants. In 27 participants, besides PRN, no other medication was prescribed. The great majority of PRN agents were antipsychotics (in 440 participants) in combination with anticholinergics (in 438 participants). Benzodiazepines were prescribed in 351 participants and tranquillisers (clomethiazole) in 91 participants. Finally, promethazine was prescribed in 63.5% (n = 306) of the participants.

Prescribed pharmaceutic agents and PRN schemas according to the participants’ diagnoses, are reported in Table 2.

Table 2 Prescribed medication and pro re nata (PRN, when required) prescribed medication according to psychiatric diagnosis (n = 482)

SSRIs, Selective Serotonin Reuptake Inhibitors; SNRIs, Serotonin and Norepinephrine Reuptake Inhibitors; NaSSA, Noradrenergic and Specific Serotonergic Antidepressant.

Polypharmacy and prescription of high-dose antipsychotics

Only 5.6% (n = 27) of the participants were prescribed with more than one antipsychotic when PRN was not included (polypharmacy–PRN not included). When PRN was included (Polypharmacy–PRN included), polypharmacy rates increased to 33.2% (n = 160).

A total of 27.2% (n = 131) of the participants were classified as prescribed ‘high-dose antipsychotics–PRN not included’ (range 0–1520%, mean 157.44%, s.d. = 309.07%). When PRN was included in the therapeutic pattern, 39.2% (n = 189) of the participants were classified as prescribed ‘high-dose antipsychotics–PRN included’ (range 0–1640%, mean 194.81%, s.d. = 311.81%).

Clinical characteristics of patients with polypharmacy and prescription of high-dose antipsychotics

Tables 3 and 4 present the sociodemographic and clinical characteristics in relation to polypharmacy and prescription of high-dose antipsychotics (with or without PRN included) in those prescribed antipsychotics (n = 440), respectively. Male gender (P = 0.0008) and low BMI (underweight status) (P = 0.014) were positively and statistically significantly associated with polypharmacy–PRN not included. Regarding polypharmacy–PRN included, positive associations were observed with male gender, low BMI (underweight status), Greek-Cypriot nationality, primary education only, unemployment status, positive history of compulsory hospital admissions and personal psychiatric history (all P < 0.05) (Table 3).

Table 3 Polypharmacy and sociodemographic and clinical characteristics in the study participants (n= 482)

PRN, pro re nata (when required).

Table 4 High-dose antipsychotics and sociodemographic and clinical characteristics in the study participants (n = 482)

PRN, pro re nata (when required).

Male gender, age between 35 and 65 years, low BMI (underweight status), Greek-Cypriot nationality, primary education only, unemployment status, diagnosis of schizophrenia, previous compulsory hospital admission, personal psychiatric history and positive history of substance use were all significantly positively associated with the prescription of high-dose antipsychotics– PRN not included (all P < 0.05). Male gender, age between 35 and 65 years, low BMI (underweight status), Greek-Cypriot nationality, primary education only, unemployment status, diagnosis of schizophrenia, previous compulsory hospital admission and personal psychiatric history were all significantly positively associated with prescription of high-dose antipsychotics– PRN included (all P < 0.05) (Table 4).

Association of sociodemographic and clinical characteristics with polypharmacy and prescription of high-dose antipsychotics

Table 5 presents the predictors of polypharmacy (with and without PRN included) and prescription of high-dose antipsychotics (with and without PRN included) as estimated in multivariable stepwise logistic regression analyses. Positive personal psychiatric history, male gender, receiving state benefits and negative history of substance use were associated with prescription of high-dose antipsychotics, both with and without PRN included. For instance, men were 2.2–2.6 times more likely to be prescribed with high-dose antipsychotics, without and with PRN included, even after accounting for the other variables in the model.

Table 5 Adjusted odds ratios (and 95% CI) of high doses of antipsychotics and polypharmacy, with and without pro re nata (PRN) medication included by clinical and sociodemographic characteristics, as estimated in multivariable stepwise logistic regression models (n = 440)

aOR, adjusted odds ratio; PANSS, Positive and Negative Syndrome Scale.

Primary education only was also a predictor of prescription of high-dose antipsychotics with PRN included, with an adjusted odds ratio (OR) of 2.3 (95% CI 1.3–4.2) compared with people with tertiary education. Male gender was the only predictor of polypharmacy with PRN not included. When PRN was included, male gender, negative family psychiatric history, receiving state benefits and total score on the PANSS positive symptoms subscale were all statistically significantly associated with an increased likelihood of polypharmacy (Table 5). In terms of the PANSS positive symptoms subscale, there appeared to be a 1.049 (95% CI 1.024−1075) higher likelihood of polypharmacy with PRN included per unit increase in PANSS score.

Discussion

Main findings

In this nationwide study, medication prescription patterns were investigated in patients under compulsory psychiatric care; with approximately one out of three (33.2%) meeting the criteria for polypharmacy and 39.2% of them meeting the criterion for prescription high-dose antipsychotics (including PRN). This is the first study in the Republic of Cyprus exploring prescription patterns of antipsychotics.

Comparison with findings from other studies

The findings are in line with the literature reporting that although efforts have been made through guidelines to avoid prescription of high-dose antipsychotics and polypharmacy,Reference McGorry, Killackey and Lambert20,Reference Kreyenbuhl, Buchanan, Dickerson and Dixon21 this remains a common practice. Compulsory psychiatric treatment has been associated with both polypharmacy and prescription of high-dose antipsychotics in several studies.Reference Mendes, Azeredo-Lopes and Cardoso2,Reference McMillan, Jacobs, Wilson, Theodoros, Robinson and Anderson5,Reference Lelliott, Paton, Harrington, Konsolaki, Sensky and Okocha22

The present study suggest that polypharmacy is because of the use of medications PRN; mainly haloperidol, almost universally prescribed to all patients. This may suggest that the use of PRN medication is mainly targeted at sedation and management of dysfunctional behaviours in in-patients (such as agitation, violent reactions) rather than having a therapeutic effect.Reference Mendes, Azeredo-Lopes and Cardoso2 Similar findings were observed in the study by Mendes et al,Reference Mendes, Azeredo-Lopes and Cardoso2 where approximately half of the participants were prescribed with ‘as required’ antipsychotics. Nevertheless, this issue deserves more attention in future research.

In modern psychiatry, striving for patient-centred care, the practice of ‘one size fits all’ seems to be established in the case of Cyprus, a pharmacotherapy pattern that needs to be further investigated. Nevertheless, the rate of polypharmacy without a PRN schema was 5.6%, which appears to be among the lowest reported in the literature. Polypharmacy rates range widely across different countries; for instance, a rate of around 17% has been reported in the UK and Australia,Reference Kadra, Stewart, Shetty, MacCabe, Chang and Kesserwani9,Reference Mace and Taylor23 32% in ItalyReference Santone, Bellantuono, Rucci, Picardi, Preti and De Girolamo24 and 41.6–70.5% in Portugal.Reference Mendes, Azeredo-Lopes and Cardoso2,Reference Martinho, Poças, Simões and Laureano4

Interpretation of our findings

A systematic review and meta-analysis of 147 studies on polypharmacy reported that the median rate of antipsychotic polypharmacy was 19.6%.Reference Gallego, Bonetti, Zhang, Kane and Correll3 Polypharmacy in individuals with mental health problems has been associated with diagnoses of severe mental disorders, including psychosis.Reference Correll and Gallego25 As expected, this diagnosis is common in patients involving involuntary hospital admissions, along with limited response to medication treatment and inadequate insight about disease;Reference Sim, Su, Fujii, Yang, Chong and Ungvari26 characteristics that were also present among participants in the present study. Indeed, polypharmacy was positively associated with the PANSS positive symptoms subscale score. The present findings also demonstrated that polypharmacy was associated with male gender, positive personal psychiatric history, receiving state benefits, positive history of involuntary hospital admissions and positive history of substance use. These factors have been previously associated with a worse prognosis in patients with psychosis.Reference El Abdellati, De Picker and Morrens27

Moreover, the reported low rate of polypharmacy when PRN schema was not included (5.6%), may imply that PRN schemas are not used as indicated in published guidelines (i.e. as circumstances require),Reference Remington, Addington, Honer, Ismail, Raedler and Teehan1,Reference Taylor, Barnes and Young18 but rather as part of the formal pharmacotherapy plan. Additionally, such an extensive use of PRN schemas may suggest that these are not primarily used for their therapeutic effect but as a form of chemical restraint towards aggressiveness during hospital admissions; a practice previously reported.Reference Mendes, Azeredo-Lopes and Cardoso2 Nevertheless, there is no robust evidence that PRN use in patients with psychosis is effective or even beneficial; a recent review reported lack of randomised controlled trials on the subject, or any other evidence to support this practice.Reference Douglas-Hall and Whicher15 In fact, the review underlined caution on PRN use and highlighted patients’ consent on this, a status compromised in compulsory psychiatric care.

Furthermore, the present findings reported a rate of 27.2% of prescription of high-dose antipsychotics–PRN not included; that increased to 39.2% when PRN schemas were included. These rates are much higher compared with the East Asia region (6.5%)Reference Sim, Su, Fujii, Yang, Chong and Ungvari26 and other countries, such as the UK (6.8%),Reference Kadra, Stewart, Shetty, MacCabe, Chang and Kesserwani9,Reference Santone, Bellantuono, Rucci, Picardi, Preti and De Girolamo24 Australia (20.5%)Reference McMillan, Jacobs, Wilson, Theodoros, Robinson and Anderson5 and the Netherlands (25.5%).Reference Barbui, Nosè, Mazzi, Thornicroft, Schene and Becker28 Only two studies, one German and one Portuguese, have reported higher rates of prescription of high-dose antipsychotics (42.5%, 51.4%, respectively),Reference Martinho, Poças, Simões and Laureano4,Reference Barbui, Nosè, Mazzi, Thornicroft, Schene and Becker28 as the results of the present study show; and in another study in Portugal, prescription of high-dose antipsychotics was 13.8% when PRN was not included, and 49.2% when PRN was included.Reference Mendes, Azeredo-Lopes and Cardoso2 Overall, a high frequency of prescription of high-dose antipsychotics may also support the hypothesis that PRN schemas are mainly used as a means of chemical restraint, unfortunately leading to high total daily doses of antipsychotics, compromising quality and patient safety.

In this study, those unemployed and receiving state benefits, and with primary education only appeared to be more likely to be prescribed with high-dose antipsychotics, as previously reported.Reference Mendes, Azeredo-Lopes and Cardoso2 This may imply that this group of patients is either inadequately socially adjusted or supported, and/or is presenting with more severe symptomatology, probably as a result of low adherence to therapy. Data show that those with stable social support systems and higher education report increased medication adherence; thus, they are less prone to relapse and being prescribed with high-dose antipsychotics and involuntary hospital admissions for compulsory treatment.Reference Barkhof, Meijer, de Sonneville, Linszen and de Haan29 Moreover, one may argue that clinicians may rely on enhanced medication schemas in the absence of a functional social network, or effective community mental health services.

Individuals with a negative history of substance use had a lower risk being prescribed high-dose antipsychotics. This might be explained by the fact that, substance-induced psychotic symptoms most of the times decline rapidly; thus, antipsychotic medication is not titrated to high dosage.Reference Paudel, Dahal, Mathias, Arjyal and Markovic30

Individuals with a positive history of involuntary psychiatric hospital admissions were more frequently prescribed high-dose antipsychotics. Indeed, a history of previous compulsory psychiatric treatments suggests a longer disease duration, which usually requires higher doses of antipsychotics to manage symptoms adequately.Reference Baker and Aebi11 The finding that those participants with a negative family history were more frequently prescribed two or more antipsychotics may be explained by a delayed approach to mental health services because of a lack of mental health literacy and knowledge, or stigma;Reference Okasha, Zaki, Meguid, El-Missiry, Sabry and Ismaeil31 it is expected that those who are more familiar with psychiatric symptoms may reach mental health services earlier if they experience relevant symptoms. Nevertheless, there might be additional confounding factors not explored, such as duration of untreated psychosis or age of onset.Reference Okasha, Zaki, Meguid, El-Missiry, Sabry and Ismaeil31

Findings relating to the type of antipsychotics prescribed

The most frequently prescribed antipsychotics herein were olanzapine, risperidone, quetiapine, haloperidol and zuclopenthixol. Similarly, previous studies have shown that olanzapine, risperidone and quetiapine are the most frequently prescribed second-generation antipsychotics,Reference Wheeler A, Hu, Profitt, McMillan and Theodoros32 whereas haloperidolReference Martinho, Poças, Simões and Laureano4 and zuclopenthixolReference Mendes, Azeredo-Lopes and Cardoso2 are the most frequently prescribed first-generation antipsychoticsReference Mendes, Azeredo-Lopes and Cardoso2,Reference Martinho, Poças, Simões and Laureano4 in those involuntarily admitted for psychiatric treatment. Moreover, in line with the present results, previous data show that the most frequent combination of antipsychotics included one first-generation antipsychotic and one second-generation antipsychotic.Reference Mendes, Azeredo-Lopes and Cardoso2

Findings relating to BMI

The association of low BMI with prescription of high-dose antipsychotics in this study is in contrast with previous data showing a positive association between increased BMI and prescription of high-dose antipsychotics;Reference Connolly and Taylor33 this relationship was explained on the basis of weight gain as a side-effect of increased doses of antipsychotics.Reference Rummel-Kluge, Komossa, Schwarz, Hunger, Schmid and Lobos34 The relationship needs to be further explored.

Findings relating to LAI and clozapine

There were additional interesting findings in the present study, such as under-prescription of LAI antipsychotics (3.7%); yet this is in line with the guidelines for the prescription of LAI antipsychotics (except monthly administration of paliperidone), which are licensed for maintenance therapy instead of controlling acute psychiatric conditions. Moreover, use of LAI antipsychotics require an adequate trial of oral therapy before administration.Reference Pierre, Mocrane, Philippe, Sebastien, Sylvie and Ludovic35

Only one patient was prescribed clozapine, an antipsychotic with an indication for the treatment of resistant schizophrenia. This might be explained by the fact that clozapine requires a strict initiation and titration protocol for administration, thus making it difficult to be initiated within the first 72 h after involuntary hospital admission for compulsory treatment.Reference Flanagan, Lally, Gee, Lyon and Every-Palmer36 In contrast, data on community treatment orders, as a form of compulsory treatment of individuals diagnosed with a mental illness in the community, show that first-generation LAI antipsychotics and clozapine are associated with antipsychotic polypharmacy, and oral second-generation antipsychotics and LAI risperidone are both associated with prescription of high-dose antipsychotics.Reference Gisev, Bell and Chen37

Implications

Recommendations derived from this study may include the revision of the PRN practice in psychiatric compulsory care, especially in relation to haloperidol and its combination with anticholinergics, as well as following international guidelines.Reference Essock, Schooler, Stroup, McEvoy, Rojas and Jackson38 Indeed, a review regarding PRN practice revealed a lack of documentation on PRN prescription as well as relevant adverse reactions.Reference Vaismoradi, Vizcaya Moreno, Sletvold and Jordan39 Tools for decision-making and national guidelines for PRN administration including monitoring are also needed, as well as education and training of healthcare professionals. Furthermore, investment in depot and clozapine clinics in the community may contribute to a decrease in relapse rates, and therefore of involuntary hospital admissions in people with psychotic symptoms; individuals who are prescribed with LAI antipsychotics and clozapine seems to have lower relapse rates.Reference Remington, Addington, Honer, Ismail, Raedler and Teehan1,Reference McMillan, Jacobs, Wilson, Theodoros, Robinson and Anderson5,Reference Taylor, Barnes and Young18 Additionally, non-pharmacological strategies, such as verbal and non-verbal de-escalation of aggressiveness, along with relevant education, should be provided.Reference El Abdellati, De Picker and Morrens27,Reference Vaismoradi, Vizcaya Moreno, Sletvold and Jordan39

Polypharmacy results in risks with adherence to therapy because of the complexity of medication schemas.Reference Lung, Lee, Chen, Chan, Chang and Hui6 The goal is to identify the lowest therapeutic dose of medication to minimise side-effects without compromising effectiveness in terms of relapse prevention.Reference Baker and Aebi11,Reference Ortiz-Orendain, Castiello-de Obeso, Colunga-Lozano, Hu, Maayan and Adams12 Finally, the universal prophylactic use of anticholinergic medication in patients treated with antipsychotics needs to be further researched.

Strengths and limitations

The most important strength of this study was the examination of prescription patterns in a relatively large census sample of patients under compulsory treatment in the referral in-patient facility in Cyprus. Moreover, this is the first study nationally to describe prescription patterns with a focus on antipsychotics and hence it provides a much-needed baseline time point for future assessment of progress. Important demographic and clinical variables including diagnostics and the assessment of psychotic symptoms were taken into consideration, which is an additional strength of the present study.

Limitations include the cross-sectional design and lack of data regarding cross-titration during switching, length of hospital admissions, the pharmacotherapy relating to the management of side-effects and other practices justifying polypharmacy such as short-term use of an oral antipsychotic when starting a LAI. Additionally, information on previous clozapine use, which would justify polypharmacy, or high doses of antipsychotics, was not available.

It should be noted that during the study several pharmaceutic agents were not available at APH, such as the relatively new LAI antipsychotics (olanzapine, paliperidone, aripiprazole), a situation that may have influenced prescription patterns. An additional limitation regards the categorisation of the main symptomatology during participants admission. However, the categorisation applied was in line with the documentation applied in acute mental health services in Cyprus. Moreover, the fact that the length of involuntary hospital admission has not been recorded is an additional limitation. Future studies need to address this variable as well.

In conclusion, the present findings demonstrate suboptimal practices relating to antipsychotic prescription in the most vulnerable psychiatric patients, i.e. those under compulsory psychiatry care. Specifically, we described a high frequency of polypharmacy and PRN schemas, which are not consistent with clinical guidelines. These provide evidence of the need to revise antipsychotic prescription practices, aiming to improve safety and quality of care. The goal is to shift from antipsychotic polypharmacy to monotherapy without affecting either psychiatric symptoms severity or the frequency of relapse.

Data availability

No data are available. Not applicable.

Acknowledgments

The research team would like to thank all the participants of this study. We would also like to acknowledge all healthcare professionals at the Athalassa Psychiatric Hospital who supported the data collection procedure.

Author contributions

This study is part of the PhD work of K.K., who participated in study design, data collection, data analysis and drafted the manuscript. N.M. participated in study design, data analysis and interpretation of the results. A.C. participated in study design, data interpretation and preparation of the final manuscript. E.B. participated in data collection and data interpretation. M.K. participated in study design, data analysis, interpretation of data and preparation of the final manuscript; she was also the supervisor of K.K.. All authors have read and approved the final manuscript.

Funding

This research was funded by the Cyprus University of Technology.

Declaration of interest

The authors declare no conflict of interest.

References

Remington, G, Addington, D, Honer, W, Ismail, Z, Raedler, T, Teehan, M. Guidelines for the pharmacotherapy of schizophrenia in adults. Can J Psychiatry 2017; 62: 604–6.CrossRefGoogle ScholarPubMed
Mendes, JC, Azeredo-Lopes, S, Cardoso, G. Patterns of antipsychotics’ prescription in Portuguese acute psychiatric wards: a cross-sectional study. Psych Res 2016; 246: 142–8.CrossRefGoogle Scholar
Gallego, J, Bonetti, J, Zhang, J, Kane, HM, Correll, CU. Prevalence and correlates of antipsychotic polypharmacy: a systematic review and meta-regression of global and regional trends from the 1970s to 2009. Schizophr Res 2012; 138: 1828.CrossRefGoogle ScholarPubMed
Martinho, S, Poças, A, Simões, M, Laureano, C. Antipsychotic polypharmacy and high-dose antipsychotics in involuntary patients: a seven-year audit of discharge prescriptions in an acute care unit. Psych Quarterly 2020; 92: 14.CrossRefGoogle Scholar
McMillan, SS, Jacobs, S, Wilson, L, Theodoros, T, Robinson, G, Anderson, C, et al. Antipsychotic prescribing for vulnerable populations: a clinical audit at an acute Australian mental health unit at two-time points. BMC Psychiatry 2017; 17: 110.CrossRefGoogle ScholarPubMed
Lung, SLM, Lee, HME, Chen, YHE, Chan, KWS, Chang, WC, Hui, LMC. Prevalence and correlates of antipsychotic polypharmacy in Hong Kong. Asian J Psychiatry 2018; 33: 113–20.CrossRefGoogle ScholarPubMed
Razzouk, D, Kayo, M, Sousa, A, Gregorio, G, Cogo-Moreira, H, Cardoso, AA, et al. The impact of antipsychotic polytherapy costs in the public health care in Sao Paulo, Brazil. PLoS One 2015; 10: e0124791.CrossRefGoogle ScholarPubMed
Carmona-Huerta, J, Castiello-de Obeso, S, Ramírez-Palomino, J, Duran-Gutiérrez, R, Cardona-Muller, D, Grover-Paez, F, et al. Polypharmacy in a hospitalized psychiatric population: risk estimation and damage quantification. BMC Psychiatry 2019; 19: 110.CrossRefGoogle Scholar
Kadra, G, Stewart, R, Shetty, H, MacCabe, JH, Chang, CK, Kesserwani, J, et al. Antipsychotic polypharmacy prescribing and risk of hospital readmission. Psychopharm 2018; 235: 281–9.CrossRefGoogle ScholarPubMed
Baandrup, L, Sørensen, J, Lublin, H, Nordentoft, M, Glenthoj, B. Association of antipsychotic polypharmacy with health service cost: a register-based cost analysis. Eur J Health Econ 2012; 13: 355–63.CrossRefGoogle ScholarPubMed
Baker, J, Aebi, C. Comparison of readmission data between different categories of antipsychotic drugs at a state psychiatric hospital in Oregon. Ment Health Clin 2018; 23: 124–30.Google Scholar
Ortiz-Orendain, J, Castiello-de Obeso, S, Colunga-Lozano, L, Hu, Y, Maayan, N, Adams, C. Antipsychotic combinations for schizophrenia. Coch Database 2018; 44: 1527.Google Scholar
Ray, WA, Chung, CP, Murray, KT, Hall, K, Stein, CM. Atypical antipsychotic drugs and the risk of sudden cardiac death. N Engl J Med 2009; 360: 225–35.CrossRefGoogle ScholarPubMed
Cyprus Ministry of Health. Medical and Public Services. Psychiatric Hospitalization Act of 1997. Republic of Cyprus, 1997 (http://www.cylaw.org/nomoi/enop/non-ind/1997_1_77/division-ddda25858d-76ae-444f-bdcb-7ec0370dd1be.html).Google Scholar
Douglas-Hall, P, Whicher, EV. ‘As required’ medication regimens for seriously mentally ill people in hospital. Cochrane Database 2015; 12: CD003441.Google Scholar
Saito, E, Eng, S, Grosso, C, Ozinci, Z, Van Meter, A. Pro re nata medication use in acute care adolescent psychiatric unit. J Child Adoles Psychopharm 2020; 30: 250–60.CrossRefGoogle ScholarPubMed
Kay, SR, Fiszbein, A, Opler, LA. The positive and negative syndrome scale (PANSS) for schizophrenia. Schizophr Bull 1987; 13: 261–76.CrossRefGoogle Scholar
Taylor, DM, Barnes, TR, Young, AH. The Maudsley Prescribing Guidelines in Psychiatry. John Wiley & Sons, 2018.Google Scholar
Barnes, T, Paton, C. Antipsychotic polypharmacy in schizophrenia: benefits and risks. CNS Drugs 2011; 25: 383–99.CrossRefGoogle ScholarPubMed
McGorry, P, Killackey, E, Lambert, T. Royal Australian and New Zealand College of psychiatrists clinical practice guidelines for the treatment of schizophrenia and related disorders. Aust N Z J Psych 2005; 39: 130.Google Scholar
Kreyenbuhl, J, Buchanan, RW, Dickerson, FB, Dixon, LB. The schizophrenia patient outcomes research team (PORT): updated treatment recommendations 2009. Schizophr Bull 2010; 36: 94103.CrossRefGoogle ScholarPubMed
Lelliott, P, Paton, C, Harrington, M, Konsolaki, M, Sensky, T, Okocha, C. The influence of patient variables on polypharmacy and combined high dose of antipsychotic drugs prescribed for in-patients. Psychiatr Bull 2002; 26: 411–24.CrossRefGoogle Scholar
Mace, S, Taylor, D. Reducing the rates of prescribing of antipsychotic high dose and polypharmacy on psychiatric inpatient and intensive care units: results of a 6-year quality improvement programme. Ther Adv Psychopharmacol 2014; 5: 412.CrossRefGoogle Scholar
Santone, G, Bellantuono, C, Rucci, P, Picardi, A, Preti, A, De Girolamo, G. Patient characteristics and process factors associated with antipsychotic polypharmacy in a nationwide sample of psychiatric inpatients in Italy. Pharmacoepidemiol Drug Saf 2011; 20: 441–9.CrossRefGoogle Scholar
Correll, CU, Gallego, JA. Antipsychotic polypharmacy. a comprehensive evaluation of relevant correlates of a long-standing clinical practice. Psychiatr Clin North Am 2012; 35: 661–81.CrossRefGoogle ScholarPubMed
Sim, K, Su, HC, Fujii, S, Yang, SY, Chong, MY, Ungvari, G, et al. High-dose antipsychotic use in schizophrenia: a comparison between the 2001 and 2004 research on East Asia psychotropic prescription (REAP) studies. Br J Clin Pharmacol 2009; 67: 110–7.CrossRefGoogle ScholarPubMed
El Abdellati, K, De Picker, L, Morrens, M. Antipsychotic treatment failure: a systematic review on risk factors and interventions for treatment adherence in psychosis. Front Neuro 2020; 14: 1019.CrossRefGoogle ScholarPubMed
Barbui, C, Nosè, M, Mazzi, MA, Thornicroft, G, Schene, A, Becker, T, et al. Persistence with polypharmacy and excessive dosing in patients with schizophrenia treated in four European countries. Int Clin Psychopharmacol 2006; 21: 355–62.CrossRefGoogle ScholarPubMed
Barkhof, E, Meijer, CJ, de Sonneville, LM, Linszen, DH, de Haan, L. Interventions to improve adherence to antipsychotic medication in patients with schizophrenia–a review of the past decade. European Psych 2012; 27: 918.CrossRefGoogle ScholarPubMed
Paudel, S, Dahal, R, Mathias, J, Arjyal, S, Markovic, L. Evaluation of risk factors for antipsychotic polypharmacy in inpatient psychiatry units of a community hospital: a retrospective analysis. Community Ment Health J 2019; 55: 750–4.CrossRefGoogle ScholarPubMed
Okasha, T, Zaki, N, Meguid, MAE, El-Missiry, M, Sabry, W, Ismaeil, MK, et al. Duration of untreated psychosis in an Egyptian sample: sociodemographic and clinical variables. Int J Soc Psychiatry 2016; 62: 661671.CrossRefGoogle Scholar
Wheeler A, J, Hu, J, Profitt, C, McMillan, SS, Theodoros, T. Is higher psychotropic medication burden associated with involuntary treatment under the Mental Health Act? A four-year Australian cohort study. BMC Psychiatry 2020; 20: 110.CrossRefGoogle ScholarPubMed
Connolly, A, Taylor, D. Factors associated with non-evidence-based prescribing of antipsychotics. Therap Adv Psychopharm 2014; 4: 247–56.CrossRefGoogle ScholarPubMed
Rummel-Kluge, C, Komossa, K, Schwarz, S, Hunger, H, Schmid, F, Lobos, CA, et al. Head-to-head comparisons of metabolic side effects of second generation antipsychotics in the treatment of schizophrenia: a systematic review and meta-analysis. Schizophr Res 2010; 123: 225–33.CrossRefGoogle ScholarPubMed
Pierre, ML, Mocrane, A, Philippe, C, Sebastien, G, Sylvie, L, Ludovic, S. Guidelines for the use and management of long-acting injectable antipsychotics in serious mental illness. BMC Psychiatry 2013; 13: 340.Google Scholar
Flanagan, RJ, Lally, J, Gee, S, Lyon, R, Every-Palmer, S. Clozapine in the treatment of refractory schizophrenia: a practical guide for healthcare professionals. British Med Bull 2020; 135: 73.CrossRefGoogle ScholarPubMed
Gisev, N, Bell, JS, Chen, TF. Factors associated with antipsychotic polypharmacy and high-dose antipsychotics among individuals receiving compulsory treatment in the community. J Clin Psychopharmacol 2014; 34: 307–12.CrossRefGoogle Scholar
Essock, SM, Schooler, NR, Stroup, TS, McEvoy, JP, Rojas, I, Jackson, C, et al. Effectiveness of switching from antipsychotic polypharmacy to monotherapy. Am J Psychiatry 2011; 168: 702–8.CrossRefGoogle ScholarPubMed
Vaismoradi, M, Vizcaya Moreno, F, Sletvold, H, Jordan, S. PRN medicines management for psychotropic medicines in long-term care settings: a systematic review. Pharmacy 2019; 7: 157–71.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 Demographic and clinical characteristics (n = 482)

Figure 1

Table 2 Prescribed medication and pro re nata (PRN, when required) prescribed medication according to psychiatric diagnosis (n = 482)

Figure 2

Table 3 Polypharmacy and sociodemographic and clinical characteristics in the study participants (n= 482)

Figure 3

Table 4 High-dose antipsychotics and sociodemographic and clinical characteristics in the study participants (n = 482)

Figure 4

Table 5 Adjusted odds ratios (and 95% CI) of high doses of antipsychotics and polypharmacy, with and without pro re nata (PRN) medication included by clinical and sociodemographic characteristics, as estimated in multivariable stepwise logistic regression models (n = 440)

Submit a response

eLetters

No eLetters have been published for this article.