Consumption of psychotropic medicines at a referral hospital in Namibia: findings and implications

Abstract

Setting:

In Namibia, the burden of mental illnesses is estimated at 25.6% and is expected to double by 2025. Few studies in sub-Saharan Africa estimate the consumption rates of psychotropic medicines as a proxy of irrational use.

Aim:

The consumption rate of psychotropic medicines at a referral hospital was determined.

Methods:

A hospital-based retrospective medicine utilization analysis of Facility Electronic Stock Card (FESC) psychotropic medication was conducted at Intermediate Hospital Katutura over a 7 year period, 2011–2017. Data on consumption and expenditure on psychotropic medicines were abstracted from FESC and analysed using descriptive statistics in SPSS v22. The main outcomes were consumption rates, daily Defined Dose, (DDD) and/or expenditure.

Results:

Of the 580 351,4 DDD of psychotropic medicines consumed, 84% were anti-psychotics, 9.2% anti-depressants and 6.8% anxiolytics. Anti-psychotics (48.8%) and anxiolytics (47.9%) had the highest consumption by cost relative to anti-depressants (3.3%). The most consumed antidepressants were imipramine (62%) by DDD and fluoxetine (55.8%) by cost. The most consumed anti-psychotics were chlorpromazine (74.6%) by DDD and haloperidol (68.4%) by cost respectively. Diazepam (79.4%) and hydroxyzine (94.2%) were most consumed sedative-hypnotics by DDD and cost respectively.

Conclusion:

The consumption of new psychotropics contributes to higher costs. There is need for cost-effectiveness analysis of new versus conventional psychotropics to optimize treatment, outcomes and costs.

Introduction

Mental and behavioral disorders such as depression, schizophrenia and anxiety disorders are prevalent worldwide^1–6 and are an increasing public health burden Namibia⁷. The World health organization (WHO) estimates that mental illnesses account for 12 % of the global burden of disease in comparison to malaria, tuberculosis, and HIV/AIDS which together account for 8.2%.^8,9 Moreover, the prevalence of mental illnesses among adults (i.e. above 18 years) globally is estimated at 10 %.¹⁰ The public health burden is greatest among low and middle-income countries such as Namibia. In Namibia, the prevalence of mental illnesses is estimated at 25.6%¹¹ and is expected to double by 2025. The main drivers of mental illnesses in Namibia have been attributed to abuse of illicit drugs and alcohol, chronic infections as well as socio-economic factors among others⁷. The main intervention to reduce the burden of mental illnesses globally and in Namibia is the integration in mental health care in primary health care.¹² However, the main barrier to inequitable access to mental services in these countries, is limited health workforce, i.e. psychiatrists and mental health nurses as well as skills transfer^13,14. In Namibia, the universal access to mental health care services such as pharmacotherapy, psychotherapy and psychosocial rehabilitation, among others has significant improved the quality of care for the mentally ill^15–17. Nevertheless the use of psychotropics (i.e. antipsychotics, antidepressants, mood stabilizers and sedative-hypnotics have been associated with adverse effects, poor medication compliance, heath care financial burden¹⁸ and interference with normal functioning¹⁹. Recently there has been conflicting data on the benefits and/or effectiveness of antidepressants^20–23 and sedative-hypnotics²⁴ yet they remain widely used in Namibia. This is a concern as it exposes patients to ineffective treatments at leads to poor outcomes and drains the health care budgets in these resource constrained LMIC⁷.

In addition the development of new psychotropic (i.e. medicines used to treat symptoms of mental disorders) agents in last decades, such as atypical antipsychotics (e.g. clozapine and quetiapine), and Selective Serotonin Reuptake Inhibitors (SSRIs, e.g. fluoxetine and paroxetine), has led to better disease prognosis and increased costs¹⁹. There are increasing shift towards the use of antipsychotics based on a continuum of potential adverse effects rather than atypical or typical classifications²⁵. Nonetheless, increased burden of mental illness and integration of new psychotropics in the essential medicines lists of Namibia has been paralleled with increased expenditure on mental health care to the already resource-constrained governments in LMIC¹⁹. The expenditure on psychotropic medication may be reduced by use of generic that have become readily available at reduced costs²⁶.

Consequently, the aim of the study was assess the consumption of psychotropic medicine in public health care at a national referral hospital in Namibia. This will provide preliminary benchmark on the trend on consumption os psychiatric medication as a proxy to assessment of their rational use to guide strategic planning for the public health sector.

Methods and Materials

Study design and population

A facility-based retrospective medicine utilization anlaysis determined the rates of consumption of psychotropic medication at Windhoek's regional referral hospital, Katutura State Hospital, Windhoek. The target population included all medicine stock records (i.e. the Facility Electronic Stock Cards, FESC) for psychotropic medications. The accessible population were consumption data on psychotropic medication, ordered and issued from the main pharmacy of Katutura hospital to in-patient and outpatient units of the hospital for the review period 2011–2017. The study only included psychotropic medicines recommended for use in the Namibia essential medicine list (Nemlist)²⁷ and the Namibia Standard Treatment Guidelines (NSTG)²⁸ as the main reference document for psychotropic medicines used at public health facilities. The main study variables were the psychotropic medication, dosage/units dispensed as well as the dosage formulations. The study excluded records with missing data on the main outcome, i.e. consumption by dose ordered or issued (mg) and/or price.

Mental Health Program in Namibia

The National Mental Health Program for Namibia is implemented under the Disability Prevention and Rehabilitation Division in the Primary Health Care Directorate of the Ministry of Health and Social Services. The program was launched in 1995 with the responsibility to promote mental health, prevent mental disorders, treat and rehabilitate affected individuals and families and aims to improve the standard of mental health care through a comprehensive Mental Health Care services and building of the capacity on mental health of all health care providers as well as the introduction of a strong community based mental health care program. The mental health program is currently headed by a qualified psychiatric nurse. In addition, the mental health programme is mandated to foster policy formulation, strategic planning, technical support to all levels, implementation, monitoring and evaluation of the mental health activities including planning for human resource training.

Specialized mental health services in Namibia are currently accessible at Windhoek Mental Health Care Centre (i.e. the national referral hospital), in form of outpatient and inpatient services to adults and children, with a civil psychiatry bed capacity of one hundred and twenty four beds (124); The Forensic psychiatric Service, located in the same Centre and has eighty four (84) beds, and an outpatient clinic that provides service to a minimum of 45 patients on Monday and Wednesdays, and; The Oshakati Psychiatric Unit in Oshakati intermediate Hospital which serves Oshana, Oshikoto, Omusati and Ohangwena regions, with a bed capacity of 80 beds, but admits up to ninety (90) patients per day, and a large outpatient clinic that provides service to a minimum of 100 patients per day. Altogether, the units have 173 range of professionals.

The Pharmaceutical Management information system (PMIS) of the hospital estimates that over 500 units (tablets, capsules, injectables) of psychotropics are dispensed every year at the facility.

Data collection procedures

Data on the type of psychotropic medication, amount ordered or issue (mg, i.e. milligram) and cost (N$, i.e. Namibian dollars) were abstracted from the Facility Electronic Stock Card (FESC) using an abstraction tool (Appendix A). The FESC is a desktop software that assists proper maintenance and monitoring of stock position and automated reporting to the MoHSS Pharmaceutical Information Dashboard introduced in 2015. FESC allows health facilities to effectively monitor stock level of essential commodities, stock taking, ordering and monthly stock reporting. In addition, FESC has option to upload monthly stock report and order book to dashboard, and this data can be used by regional warehouses for order for supply. The data abstraction tool was pre-tested and validated on two psychotropic drugs (i.e.Diazepam and Lorazepam) at Intermediate Hospital Katutura. The data were collected retrospectively (2011–2017) by the researcher (MK) over a three-month period, February-April 2018 at the Katutura Hospital Main Pharmacy. The data were subsequently validated by the research team (MK, DK and EU) for accuracy and completeness against the manual stock cards.

Data analysis

The collected data were entered in Epidata v3.1 for management (i.e. screening for errors, missing data and sorting in classes by antipsychotic drug). The main outcomes were the consumption of psychotropic medicines by Daily Defined Dose (i.e. DDD, that refers to the assumed average maintenance dose in mg per day for a drug used for its main indication in adults for each psychotic medicine) and price in Namibian dollars (N$) for the six-year period, 2011–2017. The covariates were the classes of and dosage forms of the psychotropic drugs. Data was then exported to SPSS v22 for quantitative statistical analysis. The World health organization Anatomical Therapeutic Chemical/ Daily defined Dose^29,30 (WHO-ATC/DDD, i.e. a standardized system for reporting on consumption of medicines world-wide in order to improve drug quality use) Classification System was then employed to calculate the drugs defined doses for each psychotropic medicine. Subsequently, the total DDD consumption per class of psychotropic was determined as well as for each individual drug comprised in the class. The same procedure was replicated for consumption by cost of the medicines and class. We did not include any denominator as only targeted use in one mntal health care center was conducted.

Ethical considerations

Ethical approval was granted by the institutional review boards of the Faculty of Health Sciences, University of Namibia, Ministry of Health and Social Services and Katutura Intermediate Hospital. The requirement for consent was waivered by the review boards as the study did not directly deal with human subjects or their records. In no way did the study do any harm and did not pose any form of threat to the people, community or the country at large. Nonetheless all data were not shared to a third party unless directly involved in the study. The data collected contained in an encrypted device and only be accessible to a limited number of people who are involved in the research.

Results

Consumption of psychotropic classes by DDD and Cost

Table 1 demonstrates the consumption of psychotropic classes by total DDD and expenditure (N$). Of the three (3) classes of psychotropic (i.e. anti-psychotics, antidepressants and sedative-hypnotics) medication, 580 351.4 DDDs were consumed over the seven-year period. The consumption by DDDs was highest with antipsychotics (84%) compared to antidepressants (9.2%) and sedative-hypnotics (3.3%). The expenditure associated consumption for all psychotropic medication over the seven-year period was N$1 613 287.52. The expenditure (N$) was highest with antipsychotics (48.8%), followed by anxiolytics (47.9%), then antidepressants (3.3%) (Table 1).

Table 1:

Consumption of psycholeptics classes by DDD and Cost

Psychotropics	Consumption Rates
(WHO/ATC class)	DDD (mg/day, %)	Cost (N$, %)
All classes	580 351.4 (100)	1,613,287.52 (100)
Antidepressants (ATC N06A)	53 242.9 (9.2)	53,222.16 (3.3)
Antipsychotic medicines (ATC N05A)	487 445.8 (84)	787,406.30 (48.8)
Anxiolytic medicines (ATC N05B)	39 662.7 (6.8)	772,659.10 (47.9)

Figure1 shows the consumption of psycholeptics class by DDD and Cost, and Figure 2 shows percentage consumption of psycholeptics class by DDD and Cost, according to Table 1.

Figure 1:

Consumption of psycholeptics class by DDD and Cost

Figure 2:

Percentage consumption of psycholeptics class by DDD and Cost

Consumption of psychotropic agent by DDD and Cost

Table 2 consist of consumption of psycholeptics by DDD and Cost of the individual drugs per class. Among antidepressants, TCA had the highest DDD consumption of 68.4% than SSRI (31.6%). By cost, SSRI had the highest consumption (55.8%) then the TCA with 44.2%. imipramine was the highly consumed (62%) by DDD, followed by fluoxetine (51.0%) and amitriptyline (6.4%). Fluoxetine was the most highly consumed by price (55.8%), then amitriptyline (41.2%) and lastly imipramine (3.0%).

Table 2:

Consumption of individual psychotropic agent by DDD and Cost

Psychotropic (ATC)	Consumption of psycholeptics drugs
	DDD (mg/d, %)	Cost (N$,%)
Antidepressants
SSRI	16821.7 (31.6)	29706.68 (55.8)
TCA	36421.2 (68.4)	23515.48 (44.2)
TCA
Amitriptyline (N06AA09)	3421.2 (6.4)	21911.9 (41.2)
Imipramine (N06AA02)	33000 (62.0)	1603.58 (3.0)
SSRI
Fluoxetine (N06B03)	16821.7 (51.0)	29706.68 (55.8)
Antipsychotics
Typical antipsychotics	426279.1 (87.5)	747377.6 (94.9)
Atypical antipsychotics	61166.7 (12.5)	40028.73 (5.1)
Typical
Chlorpromazine (N05AA01)	363840 (74.6)	126,897.70 (16.1)
Droperidol (N05AD08)
Fluphenazine (N05AB02)	3000 (0.6)	4,404.14 (0.6)
Flupenthixol (N05AF01)	525 (0.1)	29,230.55 (3.7)
Haloperidol (N05AD01)	2070 (0.4)	19,203.07 (2.4)
Prochlorperazine (N05AB04)	45085 (9.2)	538,526.50 (68.4)
Thioridazine (N05AC02)
Zuclopenthixol acetate	8 (0.0016)	2,973.15 (0.4)
(N05AF05)	11666.7 (2.4)	1,311.38 (0.2)
	83.3 (0.017)	24,831.09 (3.2)
Atypical
Clozapine (N05AH02)
Sulpiride (N05AL01)
	10666.7 (2.2)	6,372.8 (0.8)
	50500 (10.4)	33,655.93 (4.3)
Anxiolytics
Benzodiazepines	39565.3 (99.8)	770,606.30 (99.7)
Non-benzodiazepines	97.3 (0.2)	2,052.77 (0.3)
Benzodiazepine
Diazepam (N05BA01)	31582 (79.6)	727,690.40 (94.2)
Lorazepam (N05BA06)	7040 (17.7)	11,150.63 (1.4)
Midazolam (N05CD08)	943.3 (2.5)	31,765.22 (4.1)
Non-benzodiazepines
Hydroxyzine (N05BB01)	97.3 (0.2)	2,052.77 (0.3)

Of the antipsychotics, typical anti-psychotics consumed 87.5% DDD while the atypical, 12.5%. Cost consumption was also high with typical anti-psychotics (94.9%) than the atypical antipsychotics (5.1%). With the typical anti-psychotics, highly consumed DDD was seen with chlorpromazine (74.6%), with the lowest DDD consumption being 0.00016% of Chlorpromazine. The rest of the typical antipsychotic drugs showed a DDD consumption of less than 10% (droperidol (0.6%), fluphenazine (0.1%), flupenthixol (0.4%), haloperidol (9.2%), thioridazine (2.4%), zuclopenthixol acetate (0.017%)). Haloperidol took up the most cost of 68.4% compared to other typical antipsychotic drugs and thioridazine being the least consumed (0.2%). The atypical antipsychotics, sulpiride (10.4%) surpassed clozapine (.1%) in DDD consumption and also with the cost (sulpiride 4.3% and clozapine 0.8%).

Of the sedative-hypnotics, benzodiazepines had the highest consumption by DDD (99.8%) compared to other sedative-hypnotics (0.2%). Benzodiazepines also had the higher cost consumption of 99.7% compared to 0.3% of Non-Benzodiazepines. Of the Benzodiazepines, Diazepam had the highest DDD consumption of 79.6%, followed by Lorazepam (17.7%) and Midazolam (2.5%). By cost, diazepam had the highest consumption of 94.2% respectively, then Midazolam with 4.1%, and lastly lorazepam with 1.4%. Hydroxyzine, the only non-benzodiazepine sedative-hypnotic accounted for 0.2% DDD and 0.3% of the total costs (Table 2).

Total number of indications of psychotropic classes in Namibia Standard Treatment Guidelines

Table 3 shows the number of indications for the individual drugs of the psycholeptics classes according to and as indicated in the current Namibian Standard Treatment Guidelines. Antipsychotics comprised 25.5% of total indication, which is below antidepressants making up 31.9% of the total indications and anxiolytics which is the highest with 42.6%. Figure 3 represents results of Table 3.

Table 3:

Total number of indications of psychotropic classes in Namibia Standard Treatment Guidelines

Psychotropic	Number of indications
Antidepressants 15 (31.9%)
Antipsychotics 12 (25.5%)
Anxiolytics 20 (42.6%)

Figure 3:

Total percent of psychotropic classes indications in Namibia Standard Treatment Guideline

Table 4:

Indications of psychotropic medicines in Namibia Standard Treatment Guidelines

	Indication	Number of indications
Antidepressants
Amitriptyline	Depressive disorder	6
	Migraine headache
	Pain in children
	Neuropathic pain
	Post-hepatic neuralgia
	Varicella zoster or herpes zoster
Fluoxetine	Premature ejaculation	5
	Panic disorder
	Depression
	Schizophrenia
	Menopause
Imipramine	Schizophrenia Anxiety	5
	Depression
	Panic disorder
	Premature ejaculation
Antipsychotics
Chlorpromazine	Schizophrenia	2
	Rabies
Clozapine	Depression	1
Droperidol	-	0
Fluphenazine	Schizophrenia	1
Flupenthixol	Schizophrenia	1
Haloperidol	Acute Alcohol withdrawal syndrome	5
	Delirium Tremens
	Manic Depression
	Schizophrenia
	Opioid poisoning nausea and vomiting
Prochlorperazine	-	0
Sulpiride	Schizophrenia	2
	Inadequate Lactation
Thioridazine	-	0
Zuclopenthixol acetate	-	0
Anxiolytics
Diazepam	Myoclonus	11
	Tetanus
	Status epilepticus
	Eclampsia convulsion
	Muscle spasms
	Heat stroke
	Delirium
	Infant and children convulsions
	Manic episode
	Aggressiveness and restlessness
Hydroxyzine	Aggressiveness	4
	Urticaria
	Eczema
	Prolonged labour
Lorazepam	Aggressiveness	3
	Bipolar mood disorder
	Anxiety
Midazolam	Status epilepticus	2
	Cardiac arrhythmia

Discussion

The study set to determine the consumption of psychotropic medicines by DDD and cost in order to provide a benchmark for strategic guidance for their rational use in a LMIC setting. In this study we found the consumption of psychotropic drugs by DDDs and costs to be highest for anti-psychotics relative to antidepressants and anxiolytics. Similarly, data from the Scotland and much later with the United states of America suggest that several types of psychiatric medication, notably anti-psychotics, have consistently ranked among the costliest classes of prescription drugs in the past few years and cost has risen faster than cost of other drugs.^26,31 The high consumption by DDD could be attributed to the new and increasing emergence of psychiatric disorders³². Cost of anti-psychotics is influenced by the increasing number of new drugs, which as a rule are more expensive. Another factor influencing rise in antipsychotic drug cost is the prolonged life expectancy along the growing share of chronic diseases in pharmacotherapy and treatment in general⁶. According to the STG, anti-psychotics in total account only for 25% of indications, with schizophrenia being the common indication, compared to anxiolytics with 43% indications and anti-depressants with 32% relatively. This contravenes the increased antipsychotic consumption based on indication.

In this study we found that chlorpromazine, a typical/first generation antipsychotic is indicated for cases with acute schizophrenia and the maintenance phase in the management of with mania, due to its pronounced sedative effects⁷. According to STG, chlorpromazine is an alternative to the thioxanthenes (flupenthixol) or fluphenazine if they are unavailable. Thus stock outs of flupenthixol and/or fat the facility could have attributed to increased consumption of chlorpromazine consumption by DDD) compared DDD compared to the two thioxanthenes which are costly. Haloperidol was the most costly anti-psychotic medication, accounting for up 68.4% of total expenditure. According to the DDD, Haloperidol consumed 9.2% following Sulpiride after Chlorpromazine, however, Haloperidol is not solely indicated for schizophrenia but also indicated for the off-label use of Attention-Deficit Hyperactivity Disorder in children⁷ rapid sedation in acutely agitated patients¹⁰ and substance abuse including alcohol withdrawal syndrome and opioid poisoning nausea and vomiting⁷. Haloperidol appears to be prescribed in a wide variety of situations including, schizophrenia, bipolar disorders, Attention Deficit Hyperactivity Disorder, among others, hence the high utilization and expenditure compared to chlorpromazine, and Sulpiride. On the other hand, although droperidol, propchlorperazine, thioridazine, and zuclopenthixol acetate, were utilized at the facility, they did not appear to have any indication in the standard treatment guideline.

The anti-depressants account for the second most consumed class by DDD (9.2%) according to the study. This finding is consistent with data from a South African stud¹¹. Anti-depressant utilization can further be expected to increase due to increasing awareness of depression and other mental disorders among the general public, improved publication of practice guidelines to diagnose and treat depression, longer treatment course, and the development of efficient screening tools for depression in primary care.^1,33 Among the antidepres antidepressants, imipramine was the most consumed TCA (62% of the DDDs) and fluoxetine (51% of DDDs) for the SSRs. SSRIs are considered to be the first choice of therapy for depressive disorders in Namibia due to a better safety profile (i.e. Smaller intrinsic toxicity) and better tolerability18. On the other hand, Tricyclic antidepressants are designated as the second choice drugs in Namibia and should be prescribed only under strict psychiatric supervision.^34,35 Our findings are contrary to the recommendations of the Namibia treatment guidelines, and to other studies where low cost generic SSRIs are preferred in treatment of depressive illnesses 35 where SSRI were being consumed more than TCAs and it is therefore safe to say this is an indication of good clinical prescribing practices. Imipramine is not only indicated for depression but also schizophrenia affective disorder associated with depression, and premature ejaculation⁷ and this would account for its possible high DDD consumption. Fluoxetine, following closely behind Imipramine, could signify an awakening existence of quality antidepressant prescription. Amitriptyline low DDD consumption could possibly be due to its lower preference to Imipramine, with this finding being consistent with data where Imipramine pamoate group had significantly earlier rising times, and a trend toward better quality of sleep as well as better side effect profile than Amitriptyline⁷ Fluoxetine (SSRI), however, had the highest consumption by cost followed by Amitriptyline (TCA) appreciating an SSRI cost-effectiveness than for a TCA as seen in UK.¹⁹.

Of the anxiolytic class, Diazepam accounted for most of the group's consumption by DDD (79.6%) and cost (94.2%). This data is similar to Australia but contradictory for South Africa. Among the benzodiazepines prescription, more tendency to choose a drug is given to one with short half-life³⁶ Diazepam, however, contravenes this as it has a longer half-life and is associated with abuse potential because of its rapid onset of action²⁸. An alternative is the metabolite Oxazepam which is preferred over its parent drug Diazepam due to lesser extent of causing dependence³⁷. Due to the relative unavailability of Oxazepam, Diazepam consumption can be attributed to this as well as its many indications including heat stroke as results show. Lorazepam followed Diazepam on DDD and it has a short half-life³⁸ which would suggest a noticeable information, and to a small extend, compliance to current prescription trends. Midazolam followed Diazepam on Cost and this was not the case in the US which found Midazolam more cost-effective than Diazepam in treatment of status epilepticus treatment³⁹. Hydroxyzine, an antihistamine with sedative effects and an alternative to benzodiazepine prescription³⁹ was the least consumed by DDD and price. As it is used as an alternative, it is less likely to be indicated for anxiety and more of its antihistaminic effect, and this could reason its consumption based on the study.

Limitations

This study is constrained by several limitations. First, data collected and obtained only included individual medicines used in this study. There might be other psycholeptics the hospital pharmacy dispenses and where therefore not included in the study as the data received was already sorted. This limited the ability to obtained representable enough data and draw more conclusions. Second, we were unable to examine a policy consumption trend analysis as data obtained presented with missing information. Example, 2009/10 did not have unit cost price and 2013/2014 drugs' strengths where absent and could not be recovered. Therefore, medicines of these financial years were omitted which is likely to lead to an underestimation and possible reduced concreteness of the findings. Third, some drugs are used for non-psychiatric purposes, such as Diazepam for heat stroke and Amitriptyline for neuropathic pain, while others are not non-psycholeptics specifically anihistamine Hydroxyzine. Nevertheless, the analysis made by the study is the first to examine consumption of psycholeptics although it does not include all the classes.

Conclusion

Psycholeptics are known for their deleterious adverse effects such as suicide for antidepressants (Fluoxetine), dependence and abuse among others, if not consumed with caution. Typical antipsychotics are more likely to cause extra-pyramidal side effects compared to the newer atypical second generation antipsychotics, and are thus preferred as first choice of therapy. Initial comparative clinical trials for atypical antipsychotics used higher doses of haloperidol to exaggerate that extrapyramidal adverse effects were higher with atypical antipsychotics. However, most anti-psychotic in the study are solely first generation indicating a lack of improvement in the quality of antipsychotic prescription despite concreted evidence. We conclude that psychiatric medications particularly newer anti-psychotics are prescribed, which is against recommendations of the Namibia Standard treatment guidelines, this contributes to the high costs associated with of anti-psychotic medication. The expenditure on psychiatric medication due use of more expensive drugs should be reduced when patients with mental health problems with low cost generics. Further research is ultimately needed to ascertain the prescribing patterns of psychiatric medication to clearly the patient level determinants. In addition mechanisms are required to curtail the prescription of psychotropic medications that are not indicated in the treatment guidelines and whose efficacy, safety, and effectiveness has not been established in the Namibian population. Therefore, there is a call for a shift towards the review of current prescribing policies and systems to promote the rational utilization of psychiatric medication.

Conflict of interest

None declared.