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Exploring the co-occurrence of depression, anxiety and insomnia symptoms, diagnoses and treatments in primary care: observational study using UK primary care data

Published online by Cambridge University Press:  18 April 2024

Danielle Nimmons Open the ORCID record for Danielle Nimmons [Opens in a new window] ,
Juan Carlos Bazo-Alvarez ,
Christina Avgerinou ,
Joseph Hayes Open the ORCID record for Joseph Hayes [Opens in a new window] ,
David Osborn Open the ORCID record for David Osborn [Opens in a new window] ,
Claudia Cooper Open the ORCID record for Claudia Cooper [Opens in a new window] ,
Irene Petersen Open the ORCID record for Irene Petersen [Opens in a new window]  and
Kate Walters
Danielle Nimmons*
Affiliation:
Research Department of Primary Care and Population Health, University College London, UK
Juan Carlos Bazo-Alvarez
Affiliation:
Research Department of Primary Care and Population Health, University College London, UK
Christina Avgerinou
Affiliation:
Research Department of Primary Care and Population Health, University College London, UK
Joseph Hayes
Affiliation:
Division of Psychiatry, University College London, UK
David Osborn
Affiliation:
Division of Psychiatry, University College London, UK
Claudia Cooper
Affiliation:
Centre of Psychiatry and Mental Health, Wolfson Institute of Population Health, Queen Mary University London, UK
Irene Petersen
Affiliation:
Research Department of Primary Care and Population Health, University College London, UK
Kate Walters
Affiliation:
Research Department of Primary Care and Population Health, University College London, UK
*
Correspondence: Danielle Nimmons. Email: [email protected]
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Abstract

Background

Depression, anxiety and insomnia often co-occur. However, there is a lack of research regarding how they cluster and how this is related to medication used to treat them.

Aims

To describe the frequencies and associations between depression, anxiety and insomnia, and treatment for these conditions in primary care.

Method

A retrospective cohort study using UK electronic primary care records. We included individuals aged between 18 and 99 years old with one or more records suggesting they had a diagnosis, symptom or drug treatment for anxiety, depression or insomnia between 2015 and 2017. We report the conditional probabilities of having different combinations of diagnoses, symptoms and treatments recorded.

Results

There were 1 325 960 records indicative of depression, anxiety or insomnia, for 739 834 individuals. Depression was the most common condition (n = 106 117 records), and SSRIs were the most commonly prescribed medication (n = 347 751 records). Overall, individuals with a record of anxiety were most likely to have co-occurring symptoms and diagnoses of other mental health conditions. For example, of the individuals with a record of generalised anxiety disorder (GAD), 24% also had a diagnosis of depression. In contrast, only 0.6% of those who had a diagnosis of depression had a diagnosis or symptom of GAD. Prescribing of more than one psychotropic medication within the same year was common. For example, of those who were prescribed an SNRI (serotonin-norepinephrine reuptake inhibitor), 40% were also prescribed an SSRI (selective serotonin reuptake inhibitor).

Conclusions

The conditional probabilities of co-occurring anxiety, depression and insomnia symptoms, diagnoses and treatments are high.

Keywords

Anxiety or fear-related disordersdepressive disordersanti-anxiety drugsantidepressantsprimary care
Type
Paper
Information
BJPsych Open , Volume 10 , Issue 3 , May 2024 , e76
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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

Depression and anxiety are common mental disorders (CMD) with an increasing prevalence around the world.1 In 2019, the global age-standardised prevalence of a diagnosis of depression and anxiety was 3440.1 and 3779.5 per 100 000 people, respectively.1 However, many people experience symptoms that cannot be attributed to a single disorder and experience both anxiety and depression simultaneously (co-morbidity). The co-occurrence of these conditions results in high rates of co-morbidity compared to other psychiatric conditions.Reference Kessler, Chiu, Demler, Merikangas and Walters2

Anxiety, depression and insomnia, and treatments

There are clear overlaps between depression and anxiety. A review found 85% of people with depression experienced symptoms of anxiety, while 90% of individuals with anxiety experienced depressive symptoms.Reference Gorman3 A meta-analysis of 66 studies and 88 336 people demonstrated that all types of diagnosed anxiety predicted all types of later depressive disorders, and vice versa.Reference Jacobson and Newman4 In the Netherlands Study of Depression and Anxiety, a multi-site naturalistic cohort study (n = 1783), 67% of those with a depressive disorder had co-morbid anxiety, and 63% of those with anxiety also had co-morbid depression.Reference Lamers, van Oppen, Comijs, Smit, Spinhoven and van Balkom5

Furthermore, insomnia has a complex relationship with mental health disorders, and there is an overlap of symptoms.Reference Krystal6 Insomnia is a risk factor for, and symptom of, psychiatric conditions but can negatively impact the course and treatment of generalised anxiety disorder and depression. For example, untreated insomnia in depression is associated with depression relapse.Reference Krystal6 Despite their clustering, the conditional relationships between the three conditions is not well documented.

There is an overlap in indications for, and the use of, drug treatments in clinical practice for these conditions: selective serotonin reuptake inhibitors (SSRIs) are widely used for anxiety and depression, and other antidepressants (e.g. mirtazapine) are also used in sleep disorders.Reference Ellen, Selzer, Norman and Blashki7 Furthermore, commonly used hypnotics (benzodiazepines and Z-drugs) are associated with depression and anxiety as well as insomnia when used in the long term.8,Reference Agravat9

Understanding the interrelationship between anxiety and depression is important as, when combined, the conditions are often more severe, associated with a greater suicide risk, and are more disabling, compared with each disorder alone.Reference Tiller10 Their relationship to insomnia is also important as, while it is hard to determine if insomnia is primary or secondary in nature, it does lead to reduced productivity and increased healthcare costs.Reference Buysse11

Previous research in the area

There are few other studies using electronic health records (EHR) specifically exploring the frequencies of the co-occurrence of these CMDs and associated medications used to treat them. For example, a recent cohort EHR study based in the USA with 30 218 individuals found that anxiety disorders were significantly more common in treatment-resistant depression, compared with those without treatment-resistant depression (OR = 2.24; 95%CI = 2.06–2.44; P < 005).12 Evidence on the co-occurrence of CMDs and its implications is scarce, however. The aim of this study was therefore to describe the conditional probabilities of symptoms, diagnoses and treatments of depression, anxiety and insomnia, using UK primary care electronic health records; and how these conditions related to each other. We particularly focused on the associations between these conditions and medication commonly prescribed.

Method

Data source

The study was conceptualised in 2019. We used the IQVIA, formerly Quintiles and IMS Health, Inc Medical Research Data (IMRD), database, which includes de-identified data from The Health Improvement Network (THIN), an electronic Cegedim healthcare database containing anonymised data for 16 million registered individuals from 739 practices across the UK.Reference Adekkanattu, Olfson, Susser, Patra, Vekaria and Coombes13 The people included are broadly representative of the UK population in terms of age, gender, medical conditions and mortality.Reference Blak, Thompson, Dattani and Bourke14 Available routine individual-level data include: demographic details, diagnoses and symptoms, laboratory tests, area level social deprivation (using the Townsend score) and prescriptions issued by GPs. Clinical events are categorised using SNOMED or Read codes, a hierarchical coding system that captures clinical information.Reference Chisholm15 IMRD allows long-term individual follow-up, providing longitudinal data on clinical encounters and outcomes for individual people.Reference Sheehan, Hassiotis, Walters, Osborn, Strydom and Horsfall16

UK healthcare

Healthcare in the UK is free at the point of use for all residents as part of the National Health Service (NHS). Usually, the first point of contact is in primary care, which is delivered by GPs and other healthcare professionals (nurses, pharmacists and health visitors) within a practice. During consultations, information about individuals is collected for clinical purposes. More than 98% of the population are registered with a GP, and 90% of healthcare contacts occur in primary care,17 which is where most CMD management occurs. While some drug treatments might be initiated in secondary care, the vast majority is continued in primary care where the prescribing budget lies.

Study population

We included people aged between 18 and 99 who were registered with a GP for at least 1 year, from 1 April 2015 to 31 March 2017. All GP practices met standard criteria for acceptable mortality reporting (AMR) and acceptable computer usage (ACU). ACU is the date a practice was continuously entering on average at least two therapy records, one medical record and one additional health data record per patient per year;Reference Horsfall, Walters and Petersen18 and AMR is the date a practice has comparable age, gender and generalised mortality rates with the rest of the UK.Reference Maguire, Blak and Thompson19

We identified individuals with one or more records entered as a SNOMED/Read code in their GP electronic health records which suggested they had a diagnosis, symptom or drug treatment based on British National Formulary (BNF) codes for anxiety, depression, insomnia or mixed anxiety and depression.

We were interested in exploring diagnoses and prescribing in recent years (2015–2017) and compiled a SNOMED/Read code and drug code list for these conditions, in a process described in previous studies.Reference Davé and Petersen20 People could have more than one record of a condition/treatment but they were only counted once within the same category. If a person had a record of two different conditions/treatments in the time period, they were considered two separate events.

Study variables

We explored different case definitions of mental health variables using data available in IMRD and Read codes to develop inclusive code lists. For a case definition of CMD, the individual had to have at least one relevant Read code recorded during the study period. Each Read code corresponded to only one of these mental health conditions, considering a code list that was validated with a rigorous mixed method approach. In this approach, two GPs constructed a list of Read codes by screening the full Read code dictionary for suitable terms. The list was then refined through consultation between six clinical academic doctors (three GPs and three psychiatrists) who agreed on relevant Read codes. We classified them into subtypes related to diagnoses, symptoms or drug treatments for depression, generalised anxiety disorder (GAD), panic disorder, other/unspecified anxiety, mixed depression and anxiety, and insomnia. The quantitative process included an exploratory factor analysis, sensitivity analysis and correspondence analysis. The qualitative classification informed by the quantitative classification found a clear clustering of codes related to depression, anxiety and insomnia. This cross-validation ensured the code list was inclusive with improved classification. The details of these methods and the results are described elsewhere.Reference Bazo-Alvarez, Avgerinou, Nimmons, Hayes, Osborn and Cooper21

We divided prescribed medication into groups according to the BNF sub-chapters: Chapter 4.3.3 SSRI, Chapter 4.3.1 tricyclic antidepressants (TCA), Chapter 4.3.4 serotonin norepinephrine reuptake inhibitors (SNRI) and other antidepressants (e.g. mirtazapine), Chapter 4.1.2 benzodiazepines, Chapter 4.1.1 other anxiolytics (e.g. buspirone), Z-drugs and melatonin. We were interested in the prescribing of different psychotropic medication within the same year. TCA medications can be prescribed for multiple conditions, including neuropathic pain, insomnia and depression; we only included therapeutic doses for depression in our study, such as amitriptyline 50 mg or above. Medications were not included if their primary use was not for CMD; for example, propranolol was not included as its primary use is in cardiology.

Input from people with lived experiences

A panel of people with lived experiences of anxiety and depression were involved in the interpretation of results and provided feedback on how results and conclusions were presented in this manuscript.

Statistical analysis

We calculated the relative frequencies of any record suggestive of depression, anxiety, insomnia or mixed anxiety and depression (diagnoses and symptoms), as well as for medication prescribed to treat these conditions. We explored how these related to each other. Using cross-tables, we reported as percentages the conditional probability of having a record of a mental health condition or drug treatment given another mental health condition or treatment, and vice versa. In this way, the cross-table demonstrates the correlation between certain recorded mental health (MH) conditions and treatments. For example, a cell in the cross-table can report that 24% of those who had a diagnosis or symptom of GAD also had a diagnosis of depression, whereas only 0.6% of those who had a diagnosis of depression had a diagnosis or symptom of GAD. This can be described as follows: out of 100 people identified as having GAD, 24 also had depression. Conversely, out of 1000 individuals with a diagnosis of depression, only 6 people had GAD. This example is highlighted in Table 2 and Supplementary Table 1 available at https://doi.org/10.1192/bjo.2024.20.

We counted each person only once for each different combination (e.g. depression symptom and GAD, or GAD and SSRI prescription) recorded in the study period, to avoid double-counting. There was also a hierarchy in which we recorded an individual as having a diagnosis rather than a symptom if they had both a record of a diagnosis and symptom of the same condition. There was no hierarchy in relation to conditions, therefore it was possible for an individual to have, for example, a record of anxiety and depression. For variables with low frequencies, e.g. panic disorder and panic attacks, we combined diagnosis and symptom.

As our primary analysis, we examined all individuals aged 18–99 years. In further supplementary analysis, we stratified analyses by age (below 50 and 50 and above) and gender to explore differences by these factors.

Ethical approval

The authors assert that all procedures contributing to this work comply with the ethical standards of the relevant national and institutional committees on human experimentation and with the Helsinki Declaration of 1975,22 as revised in 2008. Ethical approval was granted by the NHS South-East Multi-Centre Research Ethics Committee for scientific research in 2003. The IQVIA World Publications Scientific Review Committee granted scientific approval in December 2020 (SRC reference number: 20SRC057). All data were anonymised, and no individual's consent was required.

Transparency declaration

The manuscript is an honest, accurate and transparent account of the study being reported; no important aspects of the study have been omitted.

Results

Characteristics

There was a total of 1 325 960 records for 739 834 individuals who were included in the study between 2015 and 2017 (Table 1) with a record indicating CMD or insomnia (a diagnosis, symptom or treatment). The mean age of individuals with a condition was between 44 (s.d. 16.1) and 47 (s.d. 16.6) years for all conditions, except for those with insomnia, where there was a higher mean age of 55 (s.d. 18.7) years. In all, 53% of individuals had a recorded diagnosis or symptom of CMD, and 47% had a recorded prescription. A total of 212 934 (29%) individuals had a recorded depression disorder or symptom, 116 594 (16%) had a recorded anxiety disorder or symptom, 22 203 (3%) had a record for the combined code ‘mixed anxiety and depression’, and 35 438 (5%) had a recorded insomnia disorder or symptom. Women were more likely to have a diagnosis or symptom of CMD (59.7–69.7%) compared with men (30.3–40.3%).

Table 1 Record frequencies and characteristics

*% = (number of records (N)/total number of people (739 834)) ×100

GAD, generalised anxiety disorder; SSRI, selective serotonin reuptake inhibitors; SNRI, serotonin norepinephrine reuptake inhibitors; TCA, tricyclic antidepressants.

Although some people were prescribed more than one medication, 347 751 (47%) individuals had a recorded SSRI prescription, 110 998 (15%) an SNRI prescription, 180 582 (24%) a TCA prescription, 163 905 (22%) a benzodiazepine prescription and 110 309 (15%) a Z drug prescription. Women were more likely to have been prescribed medication compared with men; for example, 67.1% of TCA prescriptions were for women. However, unlike the other medications, people who were prescribed melatonin were more likely to be men (57.2%) and younger, with a mean age of 38 (s.d. 28.1) years, despite it being licensed for people over 55 with insomnia. This suggests that although people were more likely to have an insomnia record if they were older, younger individuals were more likely to be prescribed melatonin. For the other medications, the mean age was between 48 (s.d. 17) and 59 (s.d. 19) years.

Frequencies of treatments, diagnoses and symptoms for depression, anxiety and insomnia can be seen in Table 2 and confidence intervals seen in Supplementary Table 1. There are no big deviations in the 95% confidence intervals presented in Supplementary Table 1; therefore, the table presented in the main text seems to provide an accurate estimate of the conditional probabilities for this population. To simplify the data, they are presented in separate tables and shown in supplementary tables, one of all symptoms and diagnoses (Supplementary Table 2), one of all treatments (Supplementary Table 3) and one for each condition: insomnia (Supplementary Table 4), anxiety (Supplementary Table 5) and depression (Supplementary Table 6).

Table 2 Depression, anxiety and insomnia: cross-table of treatments, diagnoses and symptoms

GAD, generalised anxiety disorder; SSRI, selective serotonin reuptake inhibitors; SNRI, serotonin norepinephrine reuptake inhibitors; TCA, tricyclic antidepressants.

Highlighted examples highlight 24% of those who had a diagnosis or symptom of generalised anxiety disorder (GAD) also had a diagnosis of depression, whereas only 0.6% of those who had a diagnosis of depression had a diagnosis or symptom of GAD.

Association between diagnoses and symptoms

Of the individuals who had a record of a depression diagnosis, 0.6% also had a record of GAD (highlighted in yellow in Supplementary Table 2). However, of those with a record of GAD, 24% also had a diagnosis of depression. The same was seen for panic disorder and mixed depression and anxiety. Of those people who had a depression diagnosis record, 1 and 10% also respectively had a record of panic disorder or mixed depression and anxiety (highlighted in green in Supplementary Table 2). However, 18% of those with a record of panic disorder and 50% of those with a record of mixed anxiety and depression also had a diagnosis of depression. A similar pattern was seen for insomnia: of those who had a record of a depression diagnosis, 1% also had a record of insomnia. However, of those with a record of insomnia, 14% also had a diagnosis of depression (highlighted in blue in Supplementary Table 2).

Individuals with a record of anxiety were more likely to also have records of symptoms and diagnoses of other mental health conditions, compared to depression and insomnia. Those people with GAD and panic disorder were more likely to also have a symptom of another subtype of anxiety or unspecified anxiety symptom record, compared with depression and insomnia. For example, of those people with a record of panic disorder, 25% also had a record of symptoms of unspecified anxiety. However, of those who had depressive symptoms, only 10% had a record of symptoms of unspecified anxiety disorder, and this was 2% for those with a record of insomnia (highlighted in purple in Supplementary Table 2).

Prescribing of medications for depression, anxiety and insomnia

Prescribing of different psychotropic medication within the same year was high. SSRIs were the most likely medications to be prescribed in addition to a prescription of another medication, but were also widely used alone. For example, of those people who had an SSRI prescription, only 0.9% had a prescription of ‘other anxiolytic’ (e.g. buspirone), which is highlighted in green in Supplementary Table 3. However, of those who had a prescription of ‘other anxiolytic’, 63% also had a prescription of an SSRI (highlighted in purple in Supplementary Table 3).

‘Other anxiolytics’ and ‘other antidepressants’ were more likely to be prescribed with other medication in the same year. For example, of those people who had an ‘other anxiolytic’ prescription, 63% had a SSRI, 41% had an SNRI, 44% a benzodiazepine and 32% a Z drug (highlighted in purple in Supplementary Table 3). Of those who had an ‘other antidepressant’ prescription, 40% had a SSRI, 32% had an SNRI, 36% a benzodiazepine and 27% a Z drug (highlighted in blue in Supplementary Table 3).

Associations according to specific conditions

Supplementary Table 4 shows (highlighted in purple) that Z drugs appeared to be most likely prescribed given an insomnia diagnosis (50%). While given an insomnia diagnosis, 29% of people were prescribed an SSRI and 5% were prescribed melatonin.

A benzodiazepine appeared most likely to be prescribed given a record of an anxiety diagnosis or symptom (highlighted in blue in Supplementary Table 5). Of those people who had panic disorder or GAD, 30 and 27% had a benzodiazepine prescription, respectively. For those who had an insomnia or depression diagnosis, this was 26 and 15%, respectively (highlighted in blue in Supplementary Tables 4 and 6). Furthermore, hypnotics (benzodiazepines and Z drugs) prescribing appeared to be high in all conditions. For example, for those with a depression diagnosis, 29% were prescribed either a benzodiazepine or Z drugs (in bold and underlined in Supplementary Table 6). For those with recorded insomnia, this was 80% (in bold and underlined in Supplementary Table 4).

Given a depression or anxiety diagnosis or symptom, an SSRI appeared most likely to be prescribed (Supplementary Table 5 and 6). For example, for those people with a depression diagnosis, 68% also had an SSRI prescription, while this was 59% for GAD, 47% for panic disorder and 48% for other/unspecified anxiety diagnoses. These examples are highlighted in yellow in Supplementary Tables 5 and 6.

TCAs appeared to be most likely prescribed in insomnia (21%). There was a similar proportion of TCA prescribing in anxiety and depression disorders and symptoms, ranging from 12.3% for symptoms of depression and 11.3% in mixed depression and anxiety. These examples are highlighted in green in Supplementary Tables 4–6.

Differences according to age

Differences according to age can be seen in Tables 3 and 4, confidence intervals are shown in Supplementary Tables 7 and 8. In most cases the 95% confidence intervals presented in Supplementary Tables 7 and 8 are small, and there are no big deviations; therefore, the tables presented in the main text seem to provide an accurate estimate of the conditional probabilities for this population. Those people aged 50 years old or younger with CMD and insomnia were more likely prescribed an SSRI, compared with individuals over 50 years old (Tables 3 and 4). For example, in those with GAD, 63% of younger people were prescribed an SSRI, compared with 52% in those older than 50 (highlighted in purple in Tables 3 and 4). On the other hand, those people aged older than 50 with CMD appear to be more likely prescribed an SNRI or TCA, compared with younger individuals. For example, in those with GAD, 20% of individuals aged 50 or younger were prescribed an SNRI, compared to 27% in older individuals (highlighted in blue).

Table 3 Depression, anxiety and insomnia: relative frequency of treatments and diagnoses/symptoms, according to age (younger than 50 years old)

GAD, generalised anxiety disorder; SSRI, selective serotonin reuptake inhibitors; SNRI, serotonin norepinephrine reuptake inhibitors; TCA, tricyclic antidepressants.

Purple highlighted example shows of the younger people with GAD, 63% were prescribed an SSRI.

Blue highlighted example shows of the younger people with GAD, 20% were prescribed an SNRI.

Green highlighted example shows of the younger people with panic disorder, 26% were prescribed benzodiazepines.

Yellow highlighted examples show of the younger people with symptoms of unspecified anxiety, 20% had a benzodiazepine prescription.

Table 4 Depression, anxiety and insomnia: relative frequency of treatments and diagnoses/symptoms, according to age (older than 50 years old)

GAD, generalised anxiety disorder; SSRI, selective serotonin reuptake inhibitors; SNRI, serotonin norepinephrine reuptake inhibitors; TCA, tricyclic antidepressants.

Purple highlighted example shows of the older people with GAD, 52% were prescribed an SSRI.

Blue highlighted example shows of the older people with GAD, 27% were prescribed an SNRI.

Green highlighted example shows of the older people with panic disorder, 38% were prescribed a benzodiazepine.

Yellow highlighted examples show of the older people with symptoms of unspecified anxiety, 30-31% had a benzodiazepine prescription.

Benzodiazepines were more commonly prescribed for older individuals; for older people with panic disorder, 38% were prescribed a benzodiazepine, compared with 26% of younger people with the same condition (highlighted in green). However, benzodiazepines were not the most commonly prescribed medication in older people with a record of insomnia, but they were frequently issued for those with a record of ‘other/ unspecified anxiety’ symptoms and diagnoses, and panic disorder. In those people aged 50 or younger with symptoms of unspecified anxiety, 20% had a benzodiazepine prescription, compared with 30–31% in those older than 50 (highlighted in yellow).

Differences according to gender

There were no big differences seen between men and women. Given a diagnosis or symptom of depression, anxiety or insomnia, there appear to be no meaningful gender differences in the probability of receiving treatment with psychotropic medication, and also the co-occurrence of CMD.

Discussion

Summary

This is the first study outlining the associations between GP diagnostic and symptom recording of depression, anxiety and insomnia, and drug prescribing for these conditions over a two-year period. People with a record of anxiety appeared more likely to also have symptoms/diagnoses of other anxieties, depression or insomnia, compared with individuals with a record of depression or insomnia. People with depression were more likely to have a sole diagnosis or symptom of depression and not have co-occurring mental health conditions. Prescribing of different medications within the same year was common, especially if there was a record of ‘other anxiolytic’ e.g. buspirone and ‘other antidepressant’ e.g. mirtazapine, perhaps reflecting that these might commonly be second-line treatments following treatment with an SSRI. Finally, there was high prescribing of hypnotics across all conditions.

Comparison with existing literature

Anxiety appeared more likely to co-exist with other mental health conditions, compared with depression and insomnia. This is in contrast to a previous meta-analysis which found a bi-directional relationship of equal measure between anxiety and depression,Reference Jacobson and Newman4 although not all included studies represented the general population, and some were in specialised settings. Symptoms of anxiety and depression overlap but form separate diagnoses in the International Classification of Diseases/Diagnostic and Statistical Manual of Mental Disorders (ICD/DSM). However, compared with depression, anxiety can be underdiagnosed or misdiagnosed and therefore remains untreated, especially in older people where it can be viewed by healthcare professionals as normal.Reference Frost, Beattie, Bhanu, Walters and Ben-Shlomo23,Reference McCrone, Dhanasiri, Patel, Knapp and Lawton-Smith24 Our results could therefore be due to anxiety being under-recognised and unaddressed in some individuals with depression, resulting in additional or worsening depression and anxiety. If these people do not receive appropriate treatment, it can result in frequent use of both primary and secondary care services.Reference Buszewicz and Chew-Graham25

We also found the frequency of prescribing for some medication to be high, in particular SSRIs in people taking other medications. Individuals may be prescribed one class of drug following side effects or the treatment failure of another. It is known that access to psychological therapies is variable (e.g. for those people with long-term conditions) with potentially long waiting times.26 The use of different drug classes by the same individual may reflect unmet need in the management of anxiety and depression and a lack of access to recommended non-pharmacological treatments. Improved access to psychological therapies could reduce the need for prescribed medication. This could reduce harmful side-effects and interactions between medications, which is especially relevant to older people.27 However, psychological treatments are not well recorded in primary care, and it is possible that individuals may receive therapy as well as medication.

Hypnotic prescribing was high in all conditions, and especially benzodiazepine prescribing in GAD and panic disorder, despite their well-known harmful side-effects.Reference Ellen, Selzer, Norman and Blashki7,8 Although it is recommended that benzodiazepines should be used for short-term use, our analyses cannot tell whether they are used for long-term use. Due to time constraints, GPs may feel there is a lack of alternatives and are overwhelmed by the psychosocial problems of their patients.Reference Anthierens, Habraken, Petrovic and Christiaens28 There are around 300 000 long-term benzodiazepine users in the UK,Reference Davies, Rae and Montagu29 and high prescribing rates were associated with increased misuse.Reference Hibell B and Guttormsson30 Although benzodiazepines are effective in short-term use, long-term users are recommended to slowly reduce benzodiazepine use over time, but this can take over a year.Reference Baandrup, Ebdrup, Rasmussen, Lindschou, Gluud and Glenthøj31 This could explain why there is prescribing of more than one class of medication, as doctors try to de-prescribe benzodiazepines, replacing it with alternatives.

Older people with CMD appeared to be less commonly prescribed SSRIs and more commonly prescribed SNRIs and TCAs, compared with those under 50 years, although the National Institute for Health and Care Excellence (NICE) recommend the SSRIs should be the first line.32 This could reflect treatment failure of SSRIs and reflect prescribing patterns in the UK, where clinicians may be more aware of certain SSRI side-effects in the elderly, e.g. hyponatraemia, while SNRIs may be regarded to be safer.Reference Bhogle and Holland33

It was surprising to find TCA prescribing to be higher in older people, given that TCAs are not considered as safe as SSRIs and SNRIs, due to side-effects including sedation and orthostatic hypotension.Reference Robertson, Bertolini, Meader, Davies, Barbui and Gilbody34 TCAs can be prescribed for multiple symptoms, such as depression, insomnia and neurological pain and may be more favoured in older adults, as shown by a cohort study of primary care data that included 60 746 people aged 65 years and older with depression, which compared outcomes of SSRI, TCA, MAOI and other antidepressants. They found a similar side-effect profile for all drugs.Reference Coupland, Dhiman, Barton, Morriss, Arthur and Sach35 Our results may reflect legacy prescriptions, where medication should be discontinued after a certain period. Legacy pharmacy is prevalent, accounting for 46% of people taking antidepressants in a primary care study (3766 out of 8119 people).Reference Mangin, Lawson, Cuppage, Shaw, Ivanyi and Davis36

Strengths and limitations

To the best of our knowledge, this is the largest population-based study to date describing the association between different common mental disorders, insomnia and the probability of drug prescribing for these conditions. We used a rigorous cross-validation process to define each condition, with input from six clinicians (GPs and psychiatrists). These included a wide range of diagnoses, symptoms and treatment codes as markers to fully capture these conditions. This is a broader approach than previous research, and we believe it better reflects how common mental disorders are recorded in primary care. For example, an individual may be prescribed an SSRI and have symptoms of depression recorded but not have a depression diagnosis. We stratified by broad age bands for this exploratory analysis, and further work could explore in more detail if there are differences by narrower age categories.

Our results are also limited by what information has been entered in the medical records by healthcare professionals. It is likely that sometimes common mental disorders are recognised and discussed in consultations but not recorded, due to issues such as stigma or wanting to avoid the use of labels of mental disorder, e.g. where the problem is felt to be largely social in origin or to avoid additional workload by giving individuals mental health diagnoses.Reference Corrigan and Watson37 We used a national sample from the UK, and findings may not be applicable outside the UK with different healthcare systems.

We used just one record of a prescription to indicate a mental health condition, which does not guarantee that the medication prescribed has been collected from the pharmacy and used; however, it is likely to reflect an underlying mental health condition that triggered the initiation of the medication. It may be that the decision to prescribe medication drives the recording of symptoms and diagnoses, and that those where no treatment is prescribed are more likely to go undiagnosed in their healthcare records. Another limitation is that medications may be prescribed for other conditions not captured in this study, for example, benzodiazepines which are prescribed in other conditions such as epilepsy, leading to an overestimation of some of the figures. Moreover, we excluded a few medications that are often prescribed for other reasons, e.g. low doses of amitriptyline which are prescribed for depression, insomnia and pain. Finally, it was not possible to measure the appropriateness of the drug prescribing with the data that was available; to answer this, a different study design would have been required.

Implications for practice and research

Co-occurrence of different common mental health conditions and insomnia is high, particularly for those people with recorded anxiety diagnoses and symptoms. This is important, as there is far less research conducted in anxiety compared to depression,Reference Frost, Nair, Aw, Gould, Kharicha and Buszewicz38 and future research should therefore focus on why anxiety is more likely to be co-morbid compared with depression. Given a recorded diagnosis or symptom, the probability of a prescription of a related drug treatment, e.g. an antidepressant, anxiolytic or hypnotic, is very high (up to 67%), and prescribing of different psychotropic medications within the same time period is widespread. This highlights the burden of these conditions for individuals that present to primary care and have their condition recognised and recorded. Further research by our team will include investigating interrelationships with other mental health conditions and medications, such as severe mental illness and antipsychotics. Beyond that, future research could investigate how associations of co-occurring mental health conditions and prescriptions relate to outcomes. It would be useful to identify if resources, services or treatment options need to be tailored or developed to manage the large number of people with co-occurring mental health conditions. In addition, future research could investigate the appropriateness of prescribing for CMD in primary care, explore reasons for deviation from treatment guidelines and explore the balance between risks and benefits when these deviations occur. We explored the years 2015–17, before the COVID-19 pandemic, and future research could compare co-occurring CMD from 2020 and differences since the pandemic. Finally, to understand if there are meaningful differences according to demographics, such as age, tests for interactions could be conducted.

In conclusion, there is a high proportion of recorded co-occurring anxiety, depression and insomnia symptoms and diagnoses in primary care. Given a recorded diagnosis or symptom of depression, anxiety or insomnia in primary care, the probability of a related drug treatment is high, with prescribing of multiple psychotropic medications in the same year being common. This highlights the high burden of these conditions for those people who have common mental disorders identified and recorded in primary care.

Supplementary material

Supplementary material is available online at https://doi.org/10.1192/bjo.2024.20

Data availability

The data that support the findings of this study are openly available in Zenodo at https://doi.org/10.5281/zenodo.10535386.

Author contributions

D.N. made substantial contributions to the conception, acquisition and interpretation of data for the work; and drafted the work. J.C.B.-A. made substantial contributions to the conception, acquisition, analysis and interpretation of data for the work. C.A. made substantial contributions to the conception, acquisition and interpretation of data for the work. D.O., J.H. and C.C. made substantial contributions to the conception and interpretation of data for the work. I.P. and K.W. made substantial contributions to the conception or design of the work, and the acquisition and interpretation of data for the work. J.C.B.-A., C.A., D.O., J.H., C.C., I.P. and K.W. reviewed it critically for important intellectual content. All the authors approved the final version to be published, and agree to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.

Funding

D.N. is funded by the Alzheimer's Society Clinical Training Fellowship programme (Grant 584, AS-CTF-21-001). The study was funded by the National Institute for Health and Care Research Applied Research Collaboration (ARC) North Thames. The views expressed are those of the authors and not necessarily those of the NIHR or the Department of Health and Social Care. The funders had no involvement in the study design; in the collection, analysis, and interpretation of data; in the writing of the report; or in the decision to submit the paper for publication.

Declaration of interests

None.

References

GBD 2019 Mental Disorders Collaborators. Global, regional, and national burden of 12 mental disorders in 204 countries and territories, 1990-2019: a systematic analysis for the global burden of disease study 2019. Lancet Psychiatry 2022; 9(2): 137–50.CrossRefGoogle Scholar
Kessler, RC, Chiu, WT, Demler, O, Merikangas, KR, Walters, EE. Prevalence, severity, and comorbidity of 12-month DSM-IV disorders in the national comorbidity survey replication. Arch Gen Psychiatry 2005; 62(6): 617–27.CrossRefGoogle ScholarPubMed
Gorman, JM. Comorbid depression and anxiety spectrum disorders. Depress Anxiety 1996; 4: 160–8.3.0.CO;2-J>CrossRefGoogle ScholarPubMed
Jacobson, NC, Newman, MG. Anxiety and depression as bidirectional risk factors for one another: a meta-analysis of longitudinal studies. Psychol Bull 2017; 143: 1155–200.CrossRefGoogle ScholarPubMed
Lamers, F, van Oppen, P, Comijs, HC, Smit, JH, Spinhoven, P, van Balkom, AJ, et al. Comorbidity patterns of anxiety and depressive disorders in a large cohort study: the Netherlands study of depression and anxiety (NESDA). J Clin Psychiatry 2011; 72(3): 341–8.CrossRefGoogle Scholar
Krystal, AD. Psychiatric disorders and sleep. Neurol Clin 2012; 30: 1389–413.CrossRefGoogle ScholarPubMed
Ellen, S, Selzer, R, Norman, T, Blashki, G. Depression and anxiety: pharmacological treatment in general practice. Aust Fam Physician 2007; 36: 222–8.Google ScholarPubMed
NICE. Insomnia management. NICE, 2020 (https://cks.nice.org.uk/topics/insomnia/management/ [cited 5 Jan 2021]).Google Scholar
Agravat, A. ‘Z’-hypnotics versus benzodiazepines for the treatment of insomnia. Prog Neurol Psychiatry 2018; 22: 26–9.CrossRefGoogle Scholar
Tiller, JWG. Depression and anxiety. Med J Aust 2013; 199: S28S31.CrossRefGoogle ScholarPubMed
Buysse, DJ. Insomnia. JAMA 2013; 309: 706–16.CrossRefGoogle ScholarPubMed
The Health Improvement Network. What is THIN® data? The Health Improvement Network, n.d. (https://www.the-health-improvement-network.com/en/ [cited 5 Jan 2021]).Google Scholar
Adekkanattu, P, Olfson, M, Susser, LC, Patra, B, Vekaria, V, Coombes, BJ, et al. Comorbidity and healthcare utilization in patients with treatment resistant depression: a large-scale retrospective cohort analysis using electronic health records. J Affect Disord 2023; 324: 102–13.CrossRefGoogle ScholarPubMed
Blak, B, Thompson, M, Dattani, H, Bourke, A. Generalisability of the health improvement network (THIN) database: demographics, chronic disease prevalence and mortality rates. J Innov Heal Informatics 2011; 19(4): 251–5.CrossRefGoogle ScholarPubMed
Chisholm, J. The read clinical classification. Br Med J 1990; 300: 1092.CrossRefGoogle ScholarPubMed
Sheehan, R, Hassiotis, A, Walters, K, Osborn, D, Strydom, A, Horsfall, L. Mental illness, challenging behaviour, and psychotropic drug prescribing in people with intellectual disability: UK population based cohort study. Br Med J 2015; 351: h4326.CrossRefGoogle ScholarPubMed
Information Centre. General Personal Medical Services: England 1998–200. Information Centre, 2009 (https://digital.nhs.uk/data-and-information/publications/statistical/general-and-personal-medical-services/1998-2008).Google Scholar
Horsfall, L, Walters, K, Petersen, I. Identifying periods of acceptable computer usage in primary care research databases. Pharmacoepidemiol Drug Saf 2013; 22: 64–9.CrossRefGoogle ScholarPubMed
Maguire, A, Blak, BT, Thompson, M. The importance of defining periods of complete mortality reporting for research using automated data from primary care. Pharmacoepidemiol Drug Saf 2009; 18: 7683.CrossRefGoogle ScholarPubMed
Davé, S, Petersen, I. Creating medical and drug code lists to identify cases in primary care databases. Pharmacoepidemiol Drug Saf 2009; 18: 704–7.CrossRefGoogle ScholarPubMed
Bazo-Alvarez, JC, Avgerinou, C, Nimmons, D, Hayes, J, Osborn, D, Cooper, C, et al. Defining common mental health conditions within primary care data: a validation study with a mixed qualitative and quantitative approach. Int J Methods Psychiatr Res, in press.Google Scholar
World Medical Association. World Medical Association Declaration of Helsinki: ethical principles for medical research involving human subjects. JAMA 2013; 310(20): 2191–4.CrossRefGoogle Scholar
Frost, R, Beattie, A, Bhanu, C, Walters, K, Ben-Shlomo, Y. Management of depression and referral of older people to psychological therapies: a systematic review of qualitative studies. Br J Gen Pract 2019; 69: e171 LPe181.CrossRefGoogle ScholarPubMed
McCrone, P, Dhanasiri, S, Patel, A, Knapp, M, Lawton-Smith, S. Paying the price: the cost of mental health care in England to 2026, The King's Fund, 2008 (https://www.kingsfund.org.uk/insight-and-analysis/reports/paying-price-mental-health-cost).Google Scholar
Buszewicz, MJ, Chew-Graham, C. Improving the detection and management of anxiety disorders in primary care. Br J Gen Pract 2011; 61(589): 489–90.CrossRefGoogle ScholarPubMed
NHS, Adult Improving Access to Psychological Therapies programme. NHS, n.d. (https://www.england.nhs.uk/mental-health/adults/iapt/ [cited 22 Jan 2021]).Google Scholar
Royal College of Psychiatrists. Position Statement on Antidepressants and Depression. Royal College of Psychiatrists, 2019 (https://www.rcpsych.ac.uk/docs/default-source/improving-care/better-mh-policy/position-statements/ps04_19—antidepressants-and-depression.pdf?sfvrsn=ddea9473_5).Google Scholar
Anthierens, S, Habraken, H, Petrovic, M, Christiaens, T. The lesser evil? Initiating a benzodiazepine prescription in general practice: a qualitative study on GPs’ perspectives. Scand J Prim Health Care 2007; 25: 214–9.CrossRefGoogle ScholarPubMed
Davies, J, Rae, TC, Montagu, L. Long-term benzodiazepine and Z-drugs use in England: a survey of general practice. Br J Gen Pract 2017; 67: e609 LPe613.CrossRefGoogle Scholar
Hibell B, AS, Guttormsson, U. The 2011 ESPAD Report: Substance use among students in 36 European countries. Swedish Council for Information on Alcohol and Other Drugs, 2012 (http://www.espad.org/sites/espad.org/files/The_2011_ESPAD_Report_FULL_2012_10_29.pdf).Google Scholar
Baandrup, L, Ebdrup, BH, Rasmussen, , Lindschou, J, Gluud, C, Glenthøj, BY. Pharmacological interventions for benzodiazepine discontinuation in chronic benzodiazepine users. Cochrane Database Syst Rev 2018; 3: CD011481CD011481.Google ScholarPubMed
NICE. Management of Depression. NICE, 2020 (https://cks.nice.org.uk/topics/depression/management/new-or-initial-management/ [cited 5 Feb 2021]).Google Scholar
Bhogle, M, Holland, J. Sertraline and mirtazapine as geriatric antidepressants. Psychiatr Danub 2013; 25: 8690.Google Scholar
Robertson, L, Bertolini, F, Meader, N, Davies, SJC, Barbui, C, Gilbody, S, et al. Antidepressants for major depression disorder in older people: a network meta-analysis. Cochrane Database Syst. Rev 2019; 9: 34.Google Scholar
Coupland, CAC, Dhiman, P, Barton, G, Morriss, R, Arthur, A, Sach, T, et al. A study of the safety and harms of antidepressant drugs for older people: a cohort study using a large primary care database. NIHR Health Technol Asses 2011; 15(28).Google ScholarPubMed
Mangin, D, Lawson, J, Cuppage, J, Shaw, E, Ivanyi, K, Davis, A, et al. Legacy drug-prescribing patterns in primary care. Ann Fam Med 2018; 16(6): 515–20.CrossRefGoogle ScholarPubMed
Corrigan, PW, Watson, AC. Understanding the impact of stigma on people with mental illness. World Psychiatry 2002; 1: 1620.Google ScholarPubMed
Frost, R, Nair, P, Aw, S, Gould, RL, Kharicha, K, Buszewicz, M, et al. Supporting frail older people with depression and anxiety: a qualitative study. Aging Ment Health 2020; 24(12): 1977–84.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 Record frequencies and characteristics

Figure 1

Table 2 Depression, anxiety and insomnia: cross-table of treatments, diagnoses and symptoms

Figure 2

Table 3 Depression, anxiety and insomnia: relative frequency of treatments and diagnoses/symptoms, according to age (younger than 50 years old)

Figure 3

Table 4 Depression, anxiety and insomnia: relative frequency of treatments and diagnoses/symptoms, according to age (older than 50 years old)

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