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Characteristics of high-dose benzodiazepine use: nationwide cohort study on new benzodiazepine users with 5-year follow-up

Published online by Cambridge University Press:  23 September 2024

Hanna Särkilä Open the ORCID record for Hanna Särkilä [Opens in a new window] ,
Heidi Taipale Open the ORCID record for Heidi Taipale [Opens in a new window] ,
Antti Tanskanen ,
Terhi Kurko ,
Tero Taiminen ,
Jari Tiihonen ,
Reijo Sund ,
Leena Saastamoinen ,
Jarmo Hietala Open the ORCID record for Jarmo Hietala [Opens in a new window]  and
Solja Niemelä Open the ORCID record for Solja Niemelä [Opens in a new window]
Hanna Särkilä*
Affiliation:
Department of Psychiatry, Clinical Institute, University of Turku, Turku, Finland Department of Psychiatry, Turku University Hospital, Turku, Finland
Heidi Taipale
Affiliation:
Department of Forensic Psychiatry, University of Eastern Finland, Niuvanniemi Hospital, Kuopio, Finland Department of Clinical Neuroscience, Karolinska Institutet, Stockholm, Sweden Research Unit, The Social Insurance Institution, Helsinki, Finland Center for Psychiatry Research, Stockholm City Council, Stockholm, Sweden
Antti Tanskanen
Affiliation:
Department of Forensic Psychiatry, University of Eastern Finland, Niuvanniemi Hospital, Kuopio, Finland Department of Clinical Neuroscience, Karolinska Institutet, Stockholm, Sweden
Terhi Kurko
Affiliation:
Research Unit, The Social Insurance Institution, Helsinki, Finland
Tero Taiminen
Affiliation:
Department of Psychiatry, Clinical Institute, University of Turku, Turku, Finland
Jari Tiihonen
Affiliation:
Department of Forensic Psychiatry, University of Eastern Finland, Niuvanniemi Hospital, Kuopio, Finland Department of Clinical Neuroscience, Karolinska Institutet, Stockholm, Sweden Center for Psychiatry Research, Stockholm City Council, Stockholm, Sweden
Reijo Sund
Affiliation:
School of Pharmacy, University of Eastern Finland, Kuopio, Finland
Leena Saastamoinen
Affiliation:
Information and Development Services, Finnish Medicines Agency, Helsinki, Finland
Jarmo Hietala
Affiliation:
Department of Psychiatry, Clinical Institute, University of Turku, Turku, Finland Department of Psychiatry, Turku University Hospital, Turku, Finland
Solja Niemelä
Affiliation:
Department of Psychiatry, Clinical Institute, University of Turku, Turku, Finland Department of Psychiatry, Turku University Hospital, Turku, Finland
*
Correspondence: Hanna Särkilä. Email: hanna.sarkila@varha.fi
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Abstract

Background

A nationwide register-based cohort study from Finland including 48 124 incident benzodiazepines and related drug (BZDR) users aged 18–65 years who initiated use in 2006 and were not dispensed BZDRs during 2004–2005. The follow-up was 5 years or until death, whichever occurred first.

Aims

To investigate sociodemographic and clinical factors associated with high-dose use of BZDRs (i.e. Z-drugs) among new BZDR users.

Method

The temporal BZDR dose was calculated as a point estimate every 6 months after initiation as defined daily doses (DDDs) per day, based on the PRE2DUP method (an approach based on mathematical modelling of personal drug purchasing behaviours). Sociodemographic and clinical factors associated with dose categories were studied using multinomial logistic regression.

Results

During the 5-year follow-up, very high-dose BZDR use was observed in 7.4% (n = 3557) and medium high-dose use in 25.5% (n = 12 266) of the users (corresponding to ≥30 mg and 10–29 mg in diazepam equivalents, respectively). Very high-dose use was more common among men compared with women (10.9% versus 4.6%). Very high-dose use patterns were especially observed in younger age groups (18- to 25-year-olds). Compared with oxazepam, initiating BZDR use with clonazepam (adjusted odds ratio 3.86, 95% CI 3.24–4.60), diazepam (2.05, 1.78–2.36) or alprazolam (1.76, 1.52–2.03) was associated with increased odds for very high-dose use. Both medium high-dose and very high-dose BZDR use were associated with a lower level of education. In all, 58% of very high-dose use occurred in BZDR users who received their first prescription from general practitioners.

Conclusions

Clinicians should be aware of the dose escalation risk especially when prescribing diazepam, alprazolam or clonazepam for psychiatric indications. If BZDRs are needed, our findings suggest favouring oxazepam.

Keywords

BenzodiazepinesZ-drugssociodemographic factorscomorbidityhigh-dose use
Type
Paper
Information
BJPsych Open , Volume 10 , Issue 5 , September 2024 , e158
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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
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of Royal College of Psychiatrists

Benzodiazepines and related drugs (BZDRs) have been used since the 1960s,Reference Nielsen1,Reference Peng, Morford and Levander2 and their use is common in many countries.Reference Kurko, Saastamoinen, Tahkapaa, Tuulio-Henriksson, Taiminen and Tiihonen3,Reference Maust, Lin and Blow4 BZDRs enhance inhibitory gamma-aminobutyric acids (GABA) actions in the brain by allosteric modulation of the GABA-A receptor, and induce anxiolytic, sedating and muscle-relaxing effects as well as anticonvulsive effects. When introduced, BZDRs appeared to be less likely to cause adverse effects, but continuous use of BZDRs may lead into unwanted consequences, such as tolerance, dose escalation, use disorder, respiratory failure and problems in everyday functioning.Reference Airagnes, Lemogne, Renuy, Goldberg, Hoertel and Roquelaure5Reference Alessi-Severini, Bolton, Enns, Dahl, Chateau and Collins7 Even though previous studies on the potential benefits and harms of BZDR use are partly controversial,Reference Offidani, Guidi, Tomba and Fava8 many recommendations on the subject have been published over the years.Reference Maric, Latas, Andric Petrovic, Soldatovic, Arsova and Crnkovic9,Reference Takano, Ono, Yamana, Matsui, Matsumoto and Yasunaga10 A majority of them emphasise that the dose and duration of BZDR use should be kept as low and short as possible.Reference McGee, Proctor, Hart and Burman11

Despite the common use of BZDRs, we have very little high-quality knowledge of risk factors for BZDR dose escalation because the definitions of high-dose use differ and real-world data are not easily available in many countries.Reference Cloos, Lim Cow and Bocquet12 Many factors, such as young age, male gender, lower educational level, smoking and alcohol and other substance misuse have been associated with unrecommended high-dose BZDR use.Reference Maust, Lin and Blow4,Reference Fride Tvete, Bjorner and Skomedal13,Reference Schepis, Teter, Simoni-Wastila and McCabe14 However, less is known about factors associated with BZDR dose escalation.Reference Cheng, Siddiqui, Gossop, Kristoffersen and Lundqvist15

As BZDRs have many known neurobiological and pharmacologic properties that may potentially lead to misuse and physical dependence especially in high doses, the need for further studies is obvious to prevent BZDR-related adverse effects such as cognitive impairment and elevated risks for accidents (vehicle accidents, falls and other traumas). In high doses, BZDRs also pose a risk for toxicity, i.e. impaired coordination, anterograde amnesia, disinhibition, ataxia, vertigo, delirium and inattentiveness, and may lead to fatal overdoses especially when combined with other substances/medications.Reference Peng, Morford and Levander2 With this nationwide register-based follow-up study, our aim was thus to investigate the incidence of high-dose BZDR use as well as the sociodemographic and clinical characteristics associated with subsequent development of high-dose BZDR use, and in particular among new BZDR users. BZDRs are still widely used, and the starting point of the large observational study was to produce further information for clinicians for rational BZDR prescribing.

Method

The study population was collected from the Dispensations reimbursable under the National Health Insurance Scheme register, which is maintained by the Social Insurance Institution of Finland, and contains information on all reimbursed prescription drug purchases. The inclusion criteria for the present study were: (a) initiation of BZDRs during the year 2006, (b) no previous BZDR use from January 2004 until December 2005, and (c) age between 18 to 65 years at initiation. Those who initiated the use with clonazepam or clobazam for epilepsy indication were not included in this study. Those who did not continue BZDR use after the first purchase were excluded, as the dose could not be calculated for these persons. Thus, the final study sample included 48 124 individuals. The follow-up period of this sample was 5 years from the first BZDR purchase. Extremely high BZDR use was also examined in more detail in the >3–≥10 defined daily doses (DDDs)/day groups, as seen in Fig. 1.

Fig. 1 The highest measured dose in defined daily doses per day at any point during the 5-year follow-up period among those defined as high-dose users: (a) distribution by gender and (b) distribution of specific drugs used when the highest dose was observed by very high-dose categories. BZD, benzodiazepine; BZDR, benzodiazepines and related drug.

This study was based solely on register data and, according to Finnish legislation, no ethics approval or patient consent were needed. The register maintainers pseudonymised the register data before granting access to the researchers, and the study subjects were not contacted. The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) reporting guidelines were followed.

Outcome

For defining BZDR use from the Dispensations reimbursable under the National Health Insurance Scheme register, we used the Anatomical Therapeutic Chemical (ATC) classification system, in which the active substances are classified in a hierarchy with five different levels, and further divided into smaller groups based on their qualities and features.16

In this study, ATC levels and subgroups used were N03AE01, N05BA (excluding clobazam), N05CD, N05CF and N06CA01 (amitriptyline combined with chlordiazepoxide). Only orally administered dosage forms were included, except for oral suspensions (mainly used for epilepsy indication). BZDRs used in this study were diazepam, oxazepam, alprazolam, zopiclone, zolpidem, temazepam, clonazepam and polypharmacy (two or more drugs concomitantly). Because of the low number of users, the rest of the BZDRs were grouped as ‘all others’, including chlordiazepoxide, lorazepam, clobazam, nitrazepam and amitriptyline combined with chlordiazepoxide.

We used the PRE2DUP method (an approach based on mathematical modelling of personal drug purchasing behaviours)Reference Tanskanen, Taipale, Koponen, Tolppanen, Hartikainen and Ahonen17 to calculate the duration of BZDR use, i.e. when the use started and ended. For continuous BZDR use periods, we further calculated a temporal point estimate of dose every 6 months after initiation of use, in defined daily doses (DDDs, i.e. the assumed average maintenance dose per day for a drug used for its main indication in adults), summed from all concomitant specific BZDRs.18 This method also ensured that the frequency of purchases or survival bias (e.g. being alive for less than 1 year would skew the results when annually defined cumulative amounts are used) did not affect the result. The DDD reference value for clonazepam is for epilepsy indication (8 mg) and, thus, it was changed to 1 mg and was included only when purchased without special reimbursement for epilepsy (used for other than epileptic indications).

Here, because of the lack of the exact definition for high-dose BZDR use,Reference Kurko, Saastamoinen, Tahkapaa, Tuulio-Henriksson, Taiminen and Tiihonen3,Reference Cloos, Lim Cow and Bocquet12,Reference Zandstra, Furer, van de Lisdonk, van't Hof, Bor and van Weel19 we used a three-class variable with (a) low dose (<1.0 DDDs/day), (b) medium high dose (1.0–<3.0 DDDs/day) and (c) very high dose (≥3.0 DDDs/day). Thus, the utilised measure for high dose, i.e. 1000 DDDs dispensed during 365 days, was reversed to ≥3 DDDs/day (approximating the same amount in daily dose, as 1000 DDDs/365 days = 2.7 DDDs per day, which was rounded up to the nearest whole number). In diazepam equivalent doses, 10 mg of diazepam converts to 1 DDD. The approximate equivalent doses to 10 mg diazepam are given in Supplementary Table 1 available at https://doi.org/10.1192/bjo.2024.780, and are based on the research of Professor Ashton.Reference Ashton20

The dose category defined for each person was the highest dose that person used in any of the ten time points, measured at 6-month intervals during the 5-year follow-up. For the extremely high BZDR doses, we used categories >3–≥10 DDDs/day.

Sociodemographic variables

For sociodemographic information, register data from the Finnish Centre for Pensions, Social Insurance Institution of Finland and Statistics Finland were used. The study included users aged 18–65 years, with age categories 18–25, 26–35, 36–45, 46–55 and 56–65 years.

Information on social benefits was used to indicate varying life circumstances at the baseline. The Finnish social security system includes various forms of financial support and benefits, which are meant to ensure that everyone has equal opportunities in working life and society. These data were based on registers maintained by the Social Insurance Institution of Finland and defined as receiving social assistance, labour market subsidy, basic unemployment allowance, national pension, study grants, maternity allowance, paternity allowance, parental allowance and child home care allowance during the year 2005. The Finnish Centre for Pensions provided information on disability pensions, which was measured at the time of BZDR initiation. Information on social benefits was pooled and used as a two-class variable (no/yes) in the multivariate analyses.

Educational level was defined as the highest level the person had completed by the year 2005 and was categorised into three groups: primary and lower secondary education (primary school or less), general upper secondary education/vocational education and training (high school or technical school) and higher education (university). Categories for occupations were defined by utilising the Classification of Occupations from Statistics Finland,21 where occupational social class is used as a proxy for socioeconomic position. Data were divided to six bigger categories: ‘managerial/professional’ as groups 1–3 (managers, professionals, technicians and associate professionals), ‘office worker’ as group 4 (clerical support workers), ‘farming/forestry’ as group 6 (skilled agricultural, forestry and fishery workers), ‘sales/industry/cleaning’ as groups 5, 7, 8, 9 (service and sales workers, craft and related trades workers, plant and machine operators and assemblers, and elementary occupations) and ‘unknown’ as group X (unknown).

Psychiatric disorders

The cohort's potential psychiatric disorders including substance use disorder (SUD) were collected from the Care Register for the Health Care maintained by the Finnish Institution for Health and Welfare, diagnosis recorded in the Disability Pension register, and the Special Reimbursement register maintained by the Social Insurance Institution of Finland. The Special Reimbursement register offered information on people who were granted a special refund for drugs due to certain diagnosed chronic diseases. The information on the special refunds was used as a proxy for the condition. The data were then gathered, utilising the International Classification of Diseases (ICD-10) diagnoses, the Anatomical Therapeutic Chemical (ATC)-codes and special reimbursement codes.

Statistical methods

The data were analysed using the IBM SPSS software version 27. Dose groups were compared using the χ 2 test for categorical variables and t-tests for continuous variables. Multinomial logistic regression was used to estimate odds ratios for medium high-dose and very high-dose users compared with low-dose users. The results are reported as unadjusted and adjusted odds ratios with 95% CI. Data management was conducted with statistical analysis software (SAS) 9.4. Gender, age, level of education, psychiatric disorders including SUD, and social benefits and disability pension status were used as covariates.

Results

Sociodemographic characteristics

The study cohort included 48 124 individuals (44.4% male, mean age 45.8, s.d. 12.2). The formation of the study sample is presented in more detail in the flowchart in Fig. 2. During the 5-year follow-up, 25.5% (n = 12 266) of the study population were defined as medium high-dose users, i.e. their highest measured dose at any time point during the follow-up was 1.0–<3.0 DDDs/day. Very high-dose BZDR use (≥3 DDDs/day) occurred in 7.4% (n = 3557) of the study population. During the 5-year follow-up, 12.9% (n = 460) of those with very high-dose use had a register-based diagnosis of benzodiazepine use disorder, i.e. ICD-10 diagnosis F13. The respective prevalence was 0.2% (n = 80) among the low-dose-users and 1.4% (n = 167) among the medium high-dose users. Supplementary Table 4 shows the timing of dose escalation more precisely, in every 0.5 years up to 5 years.

Fig. 2 Cohort criteria.

DDDs, defined daily doses.

Very high-dose use was more common among men compared with women (10.9% versus 4.6%, P < 0.001). Use of less than 0.5 DDDs/day was more common among women, while very high-dose use of ≥3.5 DDDs/day (based on the highest measured dose in any point of the follow-up period) was clearly more common among men compared with women (8.6% versus 3.6%). In the men's group, the dose was significantly higher (mean 1.24, s.d. 1.43) compared with the women's group (mean 0.83, s.d. 1.05).

The distribution of BZDR use in extremely high doses by gender and age is presented more closely in Fig. 1a. Associations between the first dispensed BZDR and BZDR combinations in extremely high-dose BZDR use are presented in Fig. 1b and in Table 1. Initiating with two or more BZDRs, i.e. polypharmacy, was common in extremely high-dose BZDR use. Extremely high-dose BZDR use was clearly associated with initiating with clonazepam and alprazolam, and the most common combinations of BZDRs in extremely high-dose use were diazepam-temazepam and diazepam-zopiclone.

Table 1 Highest measured dose in defined daily doses per day and its associations to first dispensed benzodiazepines and related drugs

The associations between sociodemographic factors and BZDR dose group adjusted with gender, age, level of education, psychiatric disorders including SUD, and social benefits and disability pension status are presented in Table 2. The mean age in the very high-dose user group was 36.9 (s.d. 12.76), in the medium high-dose user group 46.4 (s.d. 11.93) and in low-dose user group 47.3 (s.d. 11.65). Very high-dose use manifested clearly in younger age groups. Of the 18- to 25-year-olds, 25.4% had very high-dose use at some point of the 5-year follow-up.

Table 2 Associations between sociodemographic background, psychiatric morbidity and subsequent BZDR dose in a 5-year follow-up results of multinomial logistic regression analyses

BZDR, benzodiazepines and related drugs; DDDs, defined daily doses.

a. Gender, age, level of education, psychiatric disorders including substance use disorder, and social benefits and disability pension status were used as covariates. n = 48 124.

b. Receipt of social benefits, including basic social assistance, labour market subsidy, basic unemployment allowance, national pension and study grants, maternity allowance, paternity allowance, parental allowance and child home care allowance during the year 2005.

Both medium high-dose and very high-dose BZDR use were associated with a lower level of education. This was evident for the very high-dose users in particular: 51.8% had completed only primary and lower secondary education. The respective figures for medium high-dose users and low-dose users were 36.2 and 27.1%. As for the occupational information, the number of persons with unknown profession information was notable. Compared with low-dose BZDR use, social benefits and being on disability pension were more common among medium high-dose and very high-dose BZDR users. In total, 62.8% of the very high-dose users received social benefits, and 15.8% were on disability pension.

As seen in Table 2, the psychiatric conditions most commonly associated with very high-dose BZDR use were SUD, depression and schizophrenia. Compared with low-dose use, the risk for very high-dose use was elevated also among BZDR users who were diagnosed with either bipolar disorder or attention-deficit hyperactivity disorder.

Antidepressant and BZDR combinations are presented in Supplementary Table 3. The prevalence of antidepressant use was 22.9% among low-dose users, 30.0% medium high-dose users and 34.6% among very high-dose users, medium high-dose versus low-dose odds ratio (95% CI) 1.44 (1.38–1.51) and very high-dose versus low-dose odds ratio (95% CI) 1.78 (1.65–1.91).

All SUDs were associated with an increased risk for both medium high-dose and very high-dose use of BZDRs, the associations being more pronounced for very high-dose BZDR use. Compared with low-dose BZDR use, very high-dose use was more prevalent among incident BZDR users with a polysubstance use disorder diagnosis (ICD-10 code F19) (0.2% versus 6.8%; odds ratio = 30.78, 95% CI = 23.32–40.63; data not shown in tables). Previous diagnosis of substance misuse was defined as ICD-10 diagnoses from F10 to F19 and are seen in more detail in Supplementary Table 2.

Associations between BZDR use and the first BZDR prescriber are presented in Table 3. BZDRs were mostly initiated by general medicine physicians or those with no specialty, with the total of 26 001 (54.0% of) cases. However, compared with general medicine/no specialty practitioners, the risk for very high-dose BZDR use was the highest among those with a psychiatrist as the first prescriber, and the risk decreased if the prescriber was a neurologist or occupational medicine physician. In the medium high-dose user group, however, the prescriber was most commonly either a psychiatrist or a neurologist.

Table 3 Associations between the incident prescribers’ specialty and subsequent BZDR dose – results of multinomial logistic regression analyses

BZDR, benzodiazepines and related drugs; DDDs, defined daily doses.

a. Gender, age, level of education, psychiatric comorbidity including substance use disorder, and social benefits and disability pension status were used as covariates. n = 48 124.

Table 4 presents the associations between the active BZDR substance and subsequent BZDR dose. In all dose groups, the BZDRs most commonly purchased first were zopiclone, followed by zolpidem and oxazepam in the low-dose and medium high-dose groups. Among those who initiated with polypharmacy, i.e. initiated with more than one BZDR, 23.4% used BZDR in very high doses at some point in the 5-year follow-up period. With clonazepam initiation, 17.9% of the overall use was in the very high-dose group. With diazepam and alprazolam initiations, the figures were 13.6 and 12.5%, respectively.

Table 4 Associations between first dispensed benzodiazepine and subsequent BZDR dose. Results of multinomial logistic regression analyses

BZDR, benzodiazepines and related drugs; DDDs, defined daily doses.

a. Gender, age, level of education, psychiatric comorbidity including substance use disorder, and social benefits and disability pension status were used as covariates. n = 48 124.

Compared with oxazepam, initiating BZDR use with clonazepam, diazepam or alprazolam was associated with an increased risk for very high-dose BZDR use. This was evident also after adjustments for gender, age, level of education, psychiatric disorders including SUD, and social benefits and disability pension status.

Discussion

The harmful consequences and adverse effects of inadequate high-dose BZDR use, such as cognitive and memory impairment, increased risk of trauma and other accidents, and the risk of tolerance and use disorder, as well as lower quality of life, have been shown in many studies.Reference Blanco, Han, Jones, Johnson and Compton22 Our findings, utilising national data on all reimbursed prescription drug purchases in Finland, indicate that a high proportion, up to 10% of young men using BZDRs end up using them in very high doses periodically, i.e. ≥3.0 DDDs/day. Initiating BZDR use with clonazepam, diazepam or alprazolam associates with an increased risk for very high-dose use, compared with initiating BZDR use with oxazepam. In all, 58% of very high-dose use occurred in BZDR users who received their first prescription from general practitioners. These findings underline that careful consideration should be taken when initiating these medications.

Risk for BZDR dose escalation: psychiatric disorders and clinical factors

When initiating BZDRs, certain risk factors should be evaluated. Our results emphasise previous findingsReference Votaw, Geyer, Rieselbach and McHugh6 suggesting that especially being male and young age, having a lower level of education and psychiatric disorders including SUD, associate with an increased risk for very high-dose BZDR use, although using BZDRs in general seems to be common in all age groups and genders.Reference Kurko, Saastamoinen, Tahkapaa, Tuulio-Henriksson, Taiminen and Tiihonen3,Reference Blanco, Han, Jones, Johnson and Compton22,Reference Sidorchuk, Isomura, Molero, Hellner, Lichtenstein and Chang23

We found that bipolar disorder and SUD were most associated with very high-dose use of BZDRs compared with low-dose use. All psychiatric conditions except ADHD were associated with very high-dose use. Although BZDRs have their place in the short-term management of, for example, anxiety, psychotic symptoms and alcohol withdrawal, the available evidence does not support long-term or high-dose BZDR use.Reference Panes, Verdoux, Fourrier-Réglat, Berdaï, Pariente and Tournier24,Reference Ogawa, Takeshima, Hayasaka, Tajika, Watanabe and Streiner25 On the contrary, very high-dose BZDR use has been associated with, for example, neurological and systemic adverse effects in people with schizophreniaReference Tor, Ng, Yong, Sim, Xiang and Wang26 and also adverse effects in treating depressionReference Zhong, Wang, Zhang, Ungvari, Ng and Chiu27 and anxiety.Reference Chen, Liu, Chang, Lai, Wang and Yang28 In addition, although some previous studies suggest that benzodiazepine misuse is not exclusive to SUD populations,Reference McHugh, Peckham, Björgvinsson, Korte and Beard29 we found that all specific SUDs were associated with an increased risk for both medium high-dose and very high-dose use of BZDRs.

Our study shows that the largest group, 58% of very high-dose use, occurred with BZDR users who received their first prescription from general practitioners. In addition, compared with other specialties, psychiatrists seemed to be more likely to initiate BZDR treatment resulting in very high-dose BZDR use. As many psychiatric conditions have been traditionally treated with BZDRs,Reference Bushnell, Rynn, Crystal, Gerhard and Olfson30 this seems logical. Acknowledging this, paying attention to current guidelines31 seems extremely important for preventing long-term use and dose escalation in the future.Reference Agarwal and Landon32 To help clinicians avoid these unwanted results, guidelines and recommendations, such as ‘Smart to avoid recommendations’ (in Finnish) and ‘Do not do recommendations’ from the National Institute for Health and Care Excellence (NICE), have instructions to not routinely offer benzodiazepines to treat, for example, social anxiety disorder in adults, and have been revised recently.

Risk for BZDR dose escalation: choice of initial BZDR

According to our findings, initiating BZDR use with oxazepam possesses a lower risk for dose escalation compared with diazepam, alprazolam and clonazepam. Alprazolam and diazepam, which are high-potency and quickly eliminating BZDRs, potentially cause more severe withdrawal syndrome than other BZDRs when trying to give up the medication. Diazepam and alprazolam have known misuse potential, and they are commonly available in illegal markets.Reference Zaami, Graziano, Tittarelli, Beck and Marinelli33 Although clonazepam has a long elimination half-life,Reference Chouinard34 it is a high-potency BZDR like diazepam and alprazolam. In our study, clonazepam is also associated with increased risk for very high-dose use compared with oxazepam. Our findings add to the previous but limited clonazepam studies indicating that also clonazepam users have a high risk of developing long-term BZDR use and dose escalation.Reference Alessi-Severini, Bolton, Enns, Dahl, Chateau and Collins7 Clonazepam also possesses a misuse riskReference Frauger, Pauly, Pradel, Rouby, Arditti and Thirion35 and can, alone or in combination with other psychoactive substances, lead to adverse outcomes, such as cognitive impairment and aggravation of many psychiatric disorders.Reference Dokkedal-Silva, Berro, Galduróz, Tufik and Andersen36

Strengths and limitations

The main strength of our study is that it has good generalisability, as it included a large nationwide cohort of adults initiating BZDR use. BZDR prescribing policies (and addictions overall) have varied and spread out in the past years, but the problems related to these medications are still, to a somewhat large extent, the same as in 2006–2011. However, this may affect the data and can be considered as something of a limitation. Our classification of BZDRs included the whole range of benzodiazepine-related substances and correlating factors, which has not been explored previously to this extent. In addition, the information sources and study population as well as the utilised methods (such as PRE2DUP) in our study are quite unique and comprehensive because of the Social Insurance Institution's register data and the advanced Finnish healthcare system.

Using prescription registers as the data source also has its limitations. The actual indications for BZDR use except epilepsy were lacking. When it comes to very high-dose use and specifically inadequate use of BZDRs, medications can also be bought from illegal markets without a doctor's prescription.Reference Maust, Lin and Blow4,Reference Schepis, Teter, Simoni-Wastila and McCabe14,Reference McCabe, Veliz, Boyd and Schulenberg37,Reference Hulme, Bright and Nielsen38 Hence, our information on the actual amounts of BZDRs used is not entirely comprehensive. The fact that some smaller packages are not reimbursed also affects adversely the data coverage. The correlation of a medication's actual use and its purchase is also questionable, but as some studies show, this is a minor concern.Reference Haukka, Suvisaari, Tuulio-Henriksson and Lönnqvist39

Certain diagnoses, especially those related to anxiety and substance use, can be somewhat underreported and underdiagnosed among clinicians and, therefore, these estimates may be misleadingly low as we lacked data from primary care. Clinical experience suggests that these comorbidities are much more common than our study suggests.Reference Votaw, McHugh, Vowles and Witkiewitz40 The fact that the exact indications of prescribed BZDRs were not available may also cause some inaccuracies.

Conclusions

Our findings from this nationwide register-linkage study implicate that using benzodiazepines above the recommended dose is alarmingly common among people continuing benzodiazepine use after the first BZDR medication purchase. Although BZDRs have many useful qualities in clinical use, their adverse effects relating to high-dose use are indisputable. Certain subgroups, such as young male individuals with comorbid SUD, should be specially noticed as a potentially risky subgroup. Clinicians should be aware of the risk for dose escalation when initiating BZDR use with diazepam, alprazolam or clonazepam. Our findings also suggest favouring oxazepam over the aforementioned BZDRs.

Supplementary material

Supplementary material is available online at https://doi.org/10.1192/bjo.2024.780

Data availability

H.S. and H.T. had full access to all of the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. The data that support the findings of this study are available from the Finnish government agencies, but restrictions apply to the availability of these data, which were used under licence for the current study and so are not publicly available.

Author contributions

Concept and design: all authors. Acquisition, analysis or interpretation of data: H.S., H.T., A.T., T.T., J.T., R.S., L.S. and J.H. Drafting of the manuscript: H.S., H.T., A.T., T.K., T.T., S.N. and J.H. Critical revision of the manuscript for important intellectual content: H.S., H.T., S.N., J.H., T.K., J.T., R.S., J.H. and T.T. Statistical analysis: H.S., H.T. and A.T. Funding obtained: H.S. and J.H. Administrative, technical or material support: H.T., A.T., T.K., L.S., R.S. and J.H. Supervision: S.N., J.H. and H.T.

Funding

This study was funded by a grant from The Finnish Foundation for Alcohol Studies, Turku Psychiatric services (grant 603459) and Turku University Hospital (grant P3704). The funders had no role in the design and conduct of the study; collection, management, analysis and interpretation of the data; preparation, review and approval of the manuscript; or the decision to submit the manuscript for publication.

Declaration of interest

H.S. reported receiving personal fees from Duodecim, HUS Psychiatry, the Finnish Association for Substance Abuse Prevention, and the Finnish Society of Addiction Medicine. H.T., A.T. and J.T. reported participating in research projects funded by grants from Janssen-Cilag and Eli Lilly to their employing institution outside the submitted work. H.T. reported receiving grants and personal fees from Gedeon Richter, Janssen, Lundbeck and Otsuka. T.T. reported receiving personal fees from AstraZeneca, Bayer, Bristol-Myers Squibb, Efeko, Eisai, Eli Lilly, GlaxoSmithKline, Janssen-Cilag, Lundbeck, Nexstim, Orion, Pfizer, Schering-Plough and UCB. J.T. reported receiving lecture fees from Eli Lilly, Evidera, Janssen-Cilag, Lundbeck, Otsuka, Mediuutiset, Sidera and Sunovion outside the submitted work and is a consultant to HLS Therapeutics, Orion and WebMed Global. L.S. reported receiving grants from the Social Insurance Institution of Finland outside the submitted work. S.N. reported personal fees from Lundbeck and Shire-Takeda outside the submitted work. J.H. reported receiving research grants from the Social Insurance Institution of Finland and personal fees from Lundbeck, Orion and Otsuka during the conduct of the study. No other disclosures were reported.

References

Nielsen, S. Benzodiazepines. Curr Top Behav Neurosci 2017; 34: 141–59.CrossRefGoogle ScholarPubMed
Peng, L, Morford, KL, Levander, XA. Benzodiazepines and related sedatives. Med Clin North Am 2022; 106(1): 113–29.CrossRefGoogle ScholarPubMed
Kurko, TA, Saastamoinen, LK, Tahkapaa, S, Tuulio-Henriksson, A, Taiminen, T, Tiihonen, J, et al. Long-term use of benzodiazepines: definitions, prevalence and usage patterns – a systematic review of register-based studies. Eur Psychiatry 2015; 30(8): 1037–47.CrossRefGoogle ScholarPubMed
Maust, DT, Lin, LA, Blow, FC. Benzodiazepine use and misuse among adults in the United States. Psychiatr Serv 2019; 70(2): 97106.CrossRefGoogle ScholarPubMed
Airagnes, G, Lemogne, C, Renuy, A, Goldberg, M, Hoertel, N, Roquelaure, Y, et al. Prevalence of prescribed benzodiazepine long-term use in the French general population according to sociodemographic and clinical factors: findings from the CONSTANCES cohort. BMC Public Health 2019; 19(1): 566–8.CrossRefGoogle ScholarPubMed
Votaw, VR, Geyer, R, Rieselbach, MM, McHugh, RK. The epidemiology of benzodiazepine misuse: a systematic review. Drug Alcohol Depend 2019; 200: 95114.CrossRefGoogle ScholarPubMed
Alessi-Severini, S, Bolton, JM, Enns, MW, Dahl, ME, Chateau, D, Collins, DM, et al. Sustained use of benzodiazepines and escalation to high doses in a Canadian population. Psychiatr Serv 2016; 67(9): 1012–8.CrossRefGoogle Scholar
Offidani, E, Guidi, J, Tomba, E, Fava, GA. Efficacy and tolerability of benzodiazepines versus antidepressants in anxiety disorders: a systematic review and meta-analysis. Psychother Psychosom 2013; 82(6): 355–62.CrossRefGoogle ScholarPubMed
Maric, NP, Latas, M, Andric Petrovic, S, Soldatovic, I, Arsova, S, Crnkovic, D, et al. Prescribing practices in Southeastern Europe – focus on benzodiazepine prescription at discharge from nine university psychiatric hospitals. Psychiatry Res 2017; 258: 5965.CrossRefGoogle ScholarPubMed
Takano, A, Ono, S, Yamana, H, Matsui, H, Matsumoto, T, Yasunaga, H, et al. Factors associated with long-term prescription of benzodiazepine: a retrospective cohort study using a health insurance database in Japan. BMJ Open 2019; 9(7): e029641.CrossRefGoogle ScholarPubMed
McGee, N, Proctor, JL, Hart, AM, Burman, M. Reconsidering benzodiazepines and Z-drug prescriptions: responsible prescribing and deprescribing. J Nurse Pract 2021; 17(1): 7683.CrossRefGoogle Scholar
Cloos, J-M, Lim Cow, CYS, Bocquet, V. Benzodiazepine high-doses: the need for an accurate definition. Int J Methods Psychiatr Res 2021; 30(4): e1888.CrossRefGoogle ScholarPubMed
Fride Tvete, I, Bjorner, T, Skomedal, T. Risk factors for excessive benzodiazepine use in a working age population: a nationwide 5-year survey in Norway. Scand J Prim Health Care 2015; 33(4): 252–9.CrossRefGoogle Scholar
Schepis, TS, Teter, CJ, Simoni-Wastila, L, McCabe, SE. Prescription tranquilizer/sedative misuse prevalence and correlates across age cohorts in the US. Addict Behav 2018; 87: 2432.CrossRefGoogle ScholarPubMed
Cheng, S, Siddiqui, TG, Gossop, M, Kristoffersen, ES, Lundqvist, C. Sociodemographic, clinical and pharmacological profiles of medication misuse and dependence in hospitalised older patients in Norway: a prospective cross-sectional study. BMJ Open 2019; 9(9): e031483.CrossRefGoogle ScholarPubMed
WHO Collaborating Centre for Drug Statistics (WHOCC). Structure and Principles. Norwegian Institute of Public Health, 2022 (https://www.whocc.no/atc/structure_and_principles/ [cited 28 Oct 2021]).Google Scholar
Tanskanen, A, Taipale, H, Koponen, M, Tolppanen, AM, Hartikainen, S, Ahonen, R, et al. From prescription drug purchases to drug use periods – a second generation method (PRE2DUP). BMC Med Inform Decis Mak 2015; 15: 21-z.CrossRefGoogle ScholarPubMed
World Health Organization (WHO). Defined Daily Dose (DDD). WHO, n.d. (https://www.who.int/tools/atc-ddd-toolkit/about-ddd [cited 30 Aug 2021]).Google Scholar
Zandstra, SM, Furer, JW, van de Lisdonk, EH, van't Hof, M, Bor, JHJ, van Weel, C, et al. Different study criteria affect the prevalence of benzodiazepine use. Soc Psychiatry Psychiatr Epidemiol 2014; 37(3): 139–44.CrossRefGoogle Scholar
Ashton, H. The treatment of benzodiazepine dependence. Addiction 1994; 89(11): 1535–41.CrossRefGoogle ScholarPubMed
Statistics Finland. Classification of Occupations. Statistics Finland, 2010 (https://stat.fi/en/luokitukset/ammatti/ammatti_1_20100101/?code=4&name=Clerical support workers [cited 31 Aug 2021]).Google Scholar
Blanco, C, Han, B, Jones, CM, Johnson, K, Compton, WM. Prevalence and correlates of benzodiazepine use, misuse, and use disorders among adults in the United States. J Clin Psychiatry 2018; 79(6): 18m12174.CrossRefGoogle ScholarPubMed
Sidorchuk, A, Isomura, K, Molero, Y, Hellner, C, Lichtenstein, P, Chang, Z, et al. Benzodiazepine prescribing for children, adolescents, and young adults from 2006 through 2013: a total population register-linkage study. PLoS Med 2018; 15(8): e1002635.CrossRefGoogle Scholar
Panes, A, Verdoux, H, Fourrier-Réglat, A, Berdaï, D, Pariente, A, Tournier, M. Use of benzodiazepines non-compliant with guidelines in patients with psychiatric and non-psychiatric chronic disorders. Gen Hosp Psychiatry 2020; 65: 21–7.CrossRefGoogle ScholarPubMed
Ogawa, Y, Takeshima, N, Hayasaka, Y, Tajika, A, Watanabe, N, Streiner, D, et al. Antidepressants plus benzodiazepines for adults with major depression. Cochrane Database Syst Rev 2019; 2019(6): CD001026.Google Scholar
Tor, PC, Ng, TP, Yong, KH, Sim, K, Xiang, YT, Wang, CY, et al. Adjunctive benzodiazepine treatment of hospitalized schizophrenia patients in Asia from 2001 to 2008. Int J Neuropsychopharmacol 2011; 14(6): 735–45.CrossRefGoogle ScholarPubMed
Zhong, XM, Wang, F, Zhang, Q, Ungvari, GS, Ng, CH, Chiu, HFK, et al. Concurrent benzodiazepine use in older adults treated with antidepressants in Asia. Int psychogeriatrics 2019; 31(5): 685–91.CrossRefGoogle ScholarPubMed
Chen, YT, Liu, CY, Chang, CM, Lai, YM, Wang, BH, Yang, TY, et al. Perceptions, clinical characteristics, and other factors associated with prolonged and high daily dose of benzodiazepine use among patients with anxiety or depressive disorders. J Affect Disord 2020; 271: 215–23.CrossRefGoogle ScholarPubMed
McHugh, RK, Peckham, AD, Björgvinsson, T, Korte, FM, Beard, C. Benzodiazepine misuse among adults receiving psychiatric treatment. J Psychiatr Res 2020; 128: 33–7.CrossRefGoogle ScholarPubMed
Bushnell, GA, Rynn, MA, Crystal, S, Gerhard, T, Olfson, M. Simultaneous benzodiazepine and SSRI initiation in young people with anxiety disorders. J Clin Psychiatry 2021; 82(6): 37519.CrossRefGoogle ScholarPubMed
National Institute for Health and Care Excellence (NICE). Generalised Anxiety Disorder and Panic Disorder in Adults: Management. NICE Clinical Guidelines, No. 113. Nice, 2019 (https://www.ncbi.nlm.nih.gov/books/NBK552847/ [cited 14 Dec 2022]).Google Scholar
Agarwal, SD, Landon, BE. Patterns in outpatient benzodiazepine prescribing in the United States. JAMA Netw Open 2019; 2(1): e187399.CrossRefGoogle ScholarPubMed
Zaami, S, Graziano, S, Tittarelli, R, Beck, R, Marinelli, E. BDZs, designer BDZs, and Z-drugs: pharmacology and misuse insights. Curr Pharm Des 2021; 28(15): 1221–9.CrossRefGoogle Scholar
Chouinard, G. Issues in the clinical use of benzodiazepines: potency, withdrawal, and rebound. J Clin Psychiatry 2004; 65(Suppl 5): 712.Google ScholarPubMed
Frauger, E, Pauly, V, Pradel, V, Rouby, F, Arditti, J, Thirion, X, et al. Evidence of clonazepam abuse liability: results of the tools developed by the French centers for evaluation and information on pharmacodependence (CEIP) network. Fundam Clin Pharmacol 2011; 25(5): 633–41.CrossRefGoogle ScholarPubMed
Dokkedal-Silva, V, Berro, LF, Galduróz, JCF, Tufik, S, Andersen, ML. Clonazepam: indications, side effects, and potential for nonmedical use. Harv Rev Psychiatry 2019; 27(5): 279–89.CrossRefGoogle ScholarPubMed
McCabe, SE, Veliz, P, Boyd, CJ, Schulenberg, JE. Medical and nonmedical use of prescription sedatives and anxiolytics: adolescents’ use and substance use disorder symptoms in adulthood. Addict Behav 2017; 65: 296301.CrossRefGoogle ScholarPubMed
Hulme, S, Bright, D, Nielsen, S. The source and diversion of pharmaceutical drugs for non-medical use: a systematic review and meta-analysis. Drug Alcohol Depend 2018; 186: 242–56.CrossRefGoogle ScholarPubMed
Haukka, J, Suvisaari, J, Tuulio-Henriksson, A, Lönnqvist, J. High concordance between self-reported medication and official prescription database information. Eur J Clin Pharmacol 2007; 63(11): 1069–74.CrossRefGoogle ScholarPubMed
Votaw, VR, McHugh, RK, Vowles, KE, Witkiewitz, K. Patterns of polysubstance use among adults with tranquilizer misuse. Subst Use Misuse 2020; 55(6): 861–70.CrossRefGoogle ScholarPubMed
Figure 0

Fig. 1 The highest measured dose in defined daily doses per day at any point during the 5-year follow-up period among those defined as high-dose users: (a) distribution by gender and (b) distribution of specific drugs used when the highest dose was observed by very high-dose categories. BZD, benzodiazepine; BZDR, benzodiazepines and related drug.

Figure 1

Fig. 2 Cohort criteria.DDDs, defined daily doses.

Figure 2

Table 1 Highest measured dose in defined daily doses per day and its associations to first dispensed benzodiazepines and related drugs

Figure 3

Table 2 Associations between sociodemographic background, psychiatric morbidity and subsequent BZDR dose in a 5-year follow-up results of multinomial logistic regression analyses

Figure 4

Table 3 Associations between the incident prescribers’ specialty and subsequent BZDR dose – results of multinomial logistic regression analyses

Figure 5

Table 4 Associations between first dispensed benzodiazepine and subsequent BZDR dose. Results of multinomial logistic regression analyses

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