Studies meeting the following eligibility criteria were included:

• 1)

  Quantitative studies published after the year 2000 to reflect evidence from the same decade as changes in primary mental healthcare provision and the introduction of national institute of health and care and excellence (NICE) guidance.

• 2)

  Adults aged 16 and over, due to some adult primary care services working with this age.

• 3)

  Patients with respiratory/cardiac disease, diabetes and MUS including IBS, CFS, fibromyalgia and chronic pain were included (fitting with LTC-IAPT criteria).

• 4)

  Interventions delivered one to one, (in person or over the telephone) due to this being the main mode of delivery within primary care (Perfect, Jackson, Pybis, & Hill, 2016).

• 5)

  Quantitative studies from IAPT services or any trial recruiting participants from primary care settings (e.g., GP referral).

• 6)

  Studies including quantitative mental health outcomes; primary physical health outcomes will also be noted.

• 7)

  Studies conducted within the UK and written in English.

Studies were excluded if they were qualitative in nature, conducted outside the UK, published before the year 2000, were delivered or recruited outside of a primary care setting (e.g., specialist clinics) and/or did not include mental health outcomes. Any papers including group or online interventions were also excluded, papers including children aged under the age of 16 and did not provide a breakdown of results by age, or those with an LTC/MUS that is not treated by LTC-IAPT were also excluded.

The following databases were searched: MEDLINE, EMBASE, PsycINFO, CINAHL and the Cochrane Library. Reference lists of selected articles were scanned for relevant studies and key authors in the field were contacted. A search for grey literature through online search engines and of the NICE evidence database was completed in order to address publication bias.

Search terms and Boolean phrases were identified (see Appendix A) through a scoping of search terms within relevant articles. The search was last run on 12/05/20 and built-in limiters were used to restrict searches to adult participants, human participants, any journal type, journals published in the English language and published after the year 2000.

The flow of information throughout the phases of the SR was documented (Fig. 1). Title and abstract screening were completed by the primary reviewer and full texts were double screened. Discrepancies were resolved by a third reviewer and studies were included following a mutual agreement.

Fig. 1.

Flow chart for search and identification of relevant research, PRISMA flowchart (Moher, 2009).

(0,37MB).

Data was extracted by two independent reviewers based upon the PICO for the review using a standardised data extraction form (Appendix B). See Table 2 for extracted data including standardised difference in mean scores and calculated effect sizes. Quality assessments were made using the effective public health practice project (EPHPP) tool which was developed for the purpose of SRs addressing public health interventions (Thomas, Ciliska, Dobbins, & Micucci, 2004) and holds applicability to designs other than randomised control trials (RCTs) (Armijo-Olivo, Stiles, Hagen, Biondo, & Cummings, 2012). The quality of the studies was rated as weak, moderate or strong by two reviewers. A third reviewer was required to quality assess one publication due to discrepancies between the original reviewers. The quality assessment ratings indicate that, overall, four were rated as methodologically strong, two as moderate and two as weak. The ratings for each study, broken down by category, can be seen in Table 1.

Synthesis of the results for the purpose of meta-analysis was not possible due to heterogeneity across studies (Eysenck, 1995). As such, a narrative synthesis approach was used through structuring the results based on the quality of the research, the PRISM checklist was utilised and guidance provided by the Cochrane Reviewers and Communication Review Group was taken into account (Ryan, 2013).

The observational cohort studies utilised patient records from patients seeking support from primary care services which produced moderate quality for selection bias. All RCTs had recruited patients on a large scale from multiple GP practices across localities, however one of the studies had low take up rates from those identified as eligible. Two studies compared CBT to usual care which makes it difficult for valid inferences to be made about the specific functions of the intervention in improving outcomes (Wampold, 2001). Future studies should aim to replicate the use of electronic registers to as best comprehensively identify those with LTCs/MUS over multiple GP practice locations and use active control groups by comparison.

Quality assessment around blinding is more appropriate for RCTs; there is a need for patients to be aware of the purpose of the study in order for engagement and consent to be given when research is conducted into the effectiveness of psychological interventions. Within observational cohort studies, the referral process into psychological therapy does not allow blinding to take place which may therefore artificially reduce the overall quality rating of these studies.

Out of the eight studies, five of the papers were RCTs and three were observational cohort studies. Three included patients with more than one LTC/MUS however, the remaining five focused on one MUS including IBS, chronic pain or CFS.

Sample sizes and comparison groups can be seen within Table 2, alongside details around how the CBT interventions were delivered within each study and adaptions made. Seven out of the eight studies reported baseline characteristics by gender; with six of these showing predominantly female sample (63.7–84.7%). All of the studies reported a mean age of their samples ranging from 33.8 to 57.9, only three of the studies reported around ethnicity which indicated a predominantly white British background (70.8–92%). Three of the studies reported on employment status, with a minority being unemployed or long-term sick (8.9–40%). Three were observational cohort studies using data obtained from IAPT services and the five RCTs recruited their participants through GP practices. The studies varied in location throughout the UK including London, South East of England, North Midlands and North of England/Aberdeen.

Only three out of the eight studies used high-quality methods to ensure fidelity of the intervention through the use of audiotapes which were reviewed either within supervision or by independent raters (Kennedy et al., 2006; McBeth et al., 2012; Risdale et al., 2001). Other methods included the use of CBT manuals (Coventry et al., 2015; Risdale, Darbishire, & Seed, 2004) and group supervision (Kellett et al., 2016). Delgadillo, Dawson, Gilbody, and Böhnke (2017) did not report on this methodology.

The baseline characteristics provided by most of the studies lack diversity through the inclusion of predominantly white British women, of working age. The samples may represent a patient group who are more likely to access psychological therapies and not the target population. However, the findings provided by Coventry et al. (2015) was the only piece of research that offered a predominantly male sample (56%) with 74% of the sample being moderately to heavily deprived, further offering insight into this subgroup.

Four of the eight studies used either the Patient Health Questionnaire 9 (PHQ9) or the Generalised Anxiety Disorder 7 item scale (GAD7) for outcome measures of anxiety and depression. Three of the eight studies used the Hospital Anxiety and Depression scale to assess mental health outcomes. Out of the eight papers, six reported primary physical health outcomes (see Table 2.) Overall, six out of the eight papers reported high levels of validity and reliability for their outcome measures; one study failed to report on the validity/reliability of the Likert scale used to measure fatigue (Risdale et al., 2004) and another discussed the potential for loss of accuracy and reduction in power as a result of their physical health outcome measure used which was a self-rated, global health score (McBeth et al., 2012).

Five studies adapted CBT interventions for patients with MUS; through exploring the mental health presentation in the context of their condition. Two of the studies explored CBT for chronic fatigue (Risdale et al., 2001, 2004), two for IBS (Kennedy et al., 2006; Kenwright et al., 2017) and one for chronic pain (McBeth et al., 2012). The studies were mixed in terms of their findings and methodological quality.

Two studies were rated as strong methodologically (Kenwright et al., 2017; Risdale et al., 2001). Kenwright et al. (2017) utilised an active control group, through a comparison group of CBT for non-LTC populations within IAPT services. The results provide strong evidence to indicate that CBT is as effective for LTC patients than non-LTC patients with the specific targeting of bowl control anxiety (BCA) for patients with IBS (Kenwright et al., 2017). These results were also sustained at a six-month follow-up, providing evidence to show no significant difference in outcomes between LTC and non-LTC groups when this adaption to the intervention is made (Kenwright et al., 2017) with large effect sizes found.

Significant improvements in physical health outcomes were found through IBS symptom severity, with the largest effect size found when targeting BCA compared to generalised anxiety. This also provides good evidence for improved outcomes for physical symptoms when the nature of the intervention is adapted to target health specific cognitions and behaviours. It was found that 79% of BCA patients were treated with HI interventions and although this group showed the most improved outcomes, there was no significant difference in intervention length between LI and HI interventions. This further indicates that it may be the more appropriately targeted interventions which account for improved outcomes and the longevity of the intervention does not necessarily predict better outcomes (Kenwright et al., 2017).

Risdale et al. (2001) compared the effectiveness of LI CBT to counselling for patients with CFS. The CBT intervention was adapted so that the patient was supported to understand precipitating and perpetuating factors contributing to their fatigue. Treatment had a specific focus on challenging unhelpful cognitions around their fatigue and supporting them to better pace activities to manage their symptoms. Both interventions were found to equally improve outcomes for patients at six-month follow up with small effect sizes. The use of antidepressant medication was recorded at baseline and no difference between intervention groups were found. Risdale et al. (2001) also had the strongest study design with the fidelity of the interventions being measured through the use of audio tapes which were reviewed by independent raters; further enhancing the validity of the results.

Both studies provide strong evidence to suggest that when the patient's MUS is placed at the centre of the formulation and treatment plan, mental health outcomes are found to significantly improve, equal to that of those without LTCs or those with LTCs receiving alternative therapies. It is important to consider that counselling is currently not offered as part of LI therapy within IAPT services (Haake, 2017) as this was found to be equally effective at improving outcomes. Further research should aim to replicate and bring research up to date. These findings cannot be generalised to a range of LTCs due to the current research around MUS only.

A trial was conducted by Kennedy et al. (2006), comparing CBT plus medication to medication alone (Mebeverine Hydrochloride) for patients with IBS. The intervention was adapted for patients through information giving about problems associated with IBS, identifying maintenance factors in IBS and introducing IBS specific behavioural and cognitive strategies. Moderate quality evidence found that LI-CBT interventions (6–8 sessions) significantly improved mental and physical health outcomes at follow-up times of three months compared to medication alone when CBT was delivered by practice nurses.

The study remained adequately powered, despite its high dropout/withdrawal rate, however insufficient data was reported to calculate effect sizes of the improved outcomes. No significant improvement in mental or physical health outcomes was found over a twelve-month follow-up period, other than one variable around the impact of living with IBS. The treatment as usual comparison group weakens the quality of the research as it cannot be inferred that the intrinsic components of the CBT intervention predicted improved outcomes at three months. The reduced outcomes at twelve months may therefore be due to the loss of therapeutic effect. The intervention was delivered by practice nurses who had attended a twelve-day training course with no previous experience of CBT; this indicates the need for future research to identify long term outcomes mental health professionals are delivering an intervention in comparison to an active control group. Kennedy et al. (2006) provide moderate evidence to suggest that CBT interventions that are specifically adapted for IBS patients can improve mental health outcomes through LI CBT interventions, only in the short-term.

Two studies within the review were rated as weak methodologically; both of which examined the effectiveness of LI-CBT in improving mental and physical health outcomes compared to graded exercise therapy (GET) for patients with MUS (McBeth et al., 2012; Risdale et al., 2004). Both studies adapted their interventions to place the condition at the centre of the interventions. McBeth et al. (2012) developed a workbook ‘Managing Chronic Widespread Pain’ with behavioural and cognitive techniques adapted to focus on pain management. Risdale et al. (2004) ensured patients understood their difficulties based on a model of understanding fatigue and precipitating/perpetuating factors.

Risdale et al. (2004) found an improvement in anxiety levels for CBT in comparison to an exercise group for patients with CFS, however McBeth et al. (2012) found no significant difference in mental health scores between telephone CBT compared to GET. Physical health outcomes improved significantly across all active intervention groups for both studies. The results suggest that functional improvements may occur without the need for a change in cognitions which is targeted by CBT (Deale, Chalder, & Marks, 1997), however the calculated effect sizes were small (Risdale et al., 2004) or not enough information was provided to calculate (McBeth et al., 2012). Both studies were also under powered to demonstrate equivalence of CBT and GET.

Both studies lacked strength methodologically due to data selection bias with an uptake of less than 60% (McBeth et al., 2012) or failure to describe the validity or reliability of the data collection tools used (Risdale et al., 2001). Furthermore, both trials demonstrated a lack of blinding. The weak methodology, lack of power and lack of/small effect sizes prevent valid conclusions being drawn from these findings and future RCTs should aim to strengthen these areas of the research.

Overall, the findings from moderate/high quality studies have found initial support to show that adapted interventions with a specific focus on the patients MUS improve mental health outcomes in the short term. However, future research should aim to provide long term follow ups and conclusions remain tentative.

Coventry et al. (2015) provides strong evidence to show that LI-CBT interventions (eight sessions) with the inclusion of two joint appointments with practice nurses (collaborative care) significantly improved mental health outcomes for patients with LTCs. The purpose of the joint appointments was to ensure that psychological treatments did not complicate management of physical health and patient safety, to check that patients adhered to antidepressants as prescribed, to deal with concerns about side effects, and help to arrange drug reviews with the general practitioner. The research had a comparison group of usual care, which was defined as GP support, prescription of antidepressants or standard referrals to IAPT services. Improved mental health outcomes were found for the collaborative care group at follow-up times of four months with large effect sizes for depression outcomes and medium for anxiety outcomes (see Table 1). Baseline characteristics identified that half of the sample were taking psychotropic medication. The results indicated that collaborative care with psychological therapy with or without drugs was more effective than usual care; further strengthening the findings. Significant improvements in physical health outcomes relating to self-management were also found.

The type of support received within the usual care group was not recorded, therefore it is unclear as to what proportion of this group received an active intervention within IAPT. Future research should aim to clarify control groups for valid inferences to be made (Wampold, 2001). In addition to this, the short follow-up period of 4 months, makes it unclear as to whether outcomes would remain improved in the long term. The findings from this research provide initial evidence to show that LTC-IAPT services can make adaptions to support working with this population through working collaboratively with multi-disciplinary colleagues.

A study conducted by Kellett et al. (2016) examined the effectiveness of CBT for patients with coronary heart disease (CHD), COPD, diabetes and MUS. The study utilised an active control group of healthy controls accessing CBT within IAPT services. Adaptions to the intervention included the use of MI, pacing and ACT through additional training given to practitioners in these techniques (Kellett et al., 2016). The results provide strong evidence to indicate that CBT is as effective for LTC patients than non-LTC patients when these adaptions are made to the intervention.

The effectiveness of the intervention based on treatment intensity found no significant difference in ‘moving to recovery rates’ for depression between LI (31.67%) or HI (32.23%) interventions (Kellett et al., 2016). The results from this study indicate that IAPT services are capable of adapting CBT interventions to support the needs of LTC/MUS patients through providing additional training to staff with a moderate effect size found. The results also identify that no significant difference was found between LI and HI CBT outcomes, (Kellett et al., 2016) further suggesting that effective treatment can be provided over short periods of time and at a reduced cost to services.

Delgadillo et al. (2017) conducted a naturalistic cohort study and provided moderate evidence to indicate standard CBT interventions within IAPT services are insufficient to support patients with multimorbidity. Significantly worse mental health outcomes post therapy was found for patients with a range of LTCs and MUS compared to non-LTC patients when receiving ‘routinely delivered psychological care.’ Over a third of LTC/MUS patients showed reliable improvement in mental health outcomes, which is below the national target and those accessing HI interventions were associated with significantly worse, post treatment outcomes for patients living with COPD and diabetes. It is of note that reliable improvement was associated with receiving an LI intervention, further suggesting that LI-CBT can be somewhat effective in improving outcomes in absence of any adaptions.

The use of psychotropic medication was recorded at baseline, with findings suggesting no significant difference in outcomes dependant on medication use. The researchers do not describe important differences between LTC and non-LTC groups at baseline, however it is stated that potentially confounding variables are controlled for within the seemingly unrelated regressions (SUR) model, resulting in a very small effect sizes (Cohen's d – .1 and .08) for depression and anxiety respectively. The naturalistic cohort design therefore impacted on the methodological quality of the study and research should aim to better report confounding variables between groups to better understand important differences.

Delgadillo et al. (2017) provides moderate evidence to suggest when CBT interventions are delivered in the absence of any appropriate adaptions, the results are less favourable compared to non-LTC patients.

Overall, the findings provide support for the service evaluation conducted by de Lusignan et al. (2013) who found that CBT improved mental health outcomes for those with LTCs and MUS within UK, primary care settings and contributes to the findings around particular adaptions needed when working with this population.

Moderate evidence suggests that those with an LTC/MUS have worse outcomes post intervention compared to healthy controls when CBT is delivered as ‘routine’ (Delgadillo et al., 2017). Strong evidence within three studies found a significant improvement in outcomes through the targeting of LTC specific anxiety symptoms (Kenwright et al., 2017), involvement of collaborative care with nurses (Coventry et al., 2015) and the inclusion of MI, pacing and ACT (Kellett et al., 2016). All three of the above studies which were rated strong methodologically had medium-large effect sizes. This highlights the importance of providing LTC specific training to place the LTC at the centre of the intervention, working collaboratively with health professionals involved in the patient's care, alongside enhancing skills through the teaching of complimentary therapeutic models.

Strong evidence was also provided by Risdale et al. (2001) suggesting that LI, talking therapies are generally effective in improving outcomes as no significant difference was found between counselling and CBT, however small effect sizes were found for both intervention groups. This is consistent with findings provided by Li et al. (2014) who found no significant difference in outcomes for CBT compared to other psychological interventions when delivered to patients with IBS outside of the UK. Research should aim to assess common factors as potential moderating factors within interventions for those with LTC/MUS, as choice of therapies potentially be driven by accessibility and cost.

It is of interest that the two papers with a focus of IBS within the review found moderate-strong evidence for CBT in improving mental health outcomes (Kennedy et al., 2006; Kenwright et al., 2017) when particular focus of the intervention is around IBS related cognitions and behaviours, including the targeting of bowel control anxiety. These findings are not consistent with a previous SR conducted outside of the UK who did not find any significant improvement in outcomes when CBT was delivered online for this population (Hanlon et al., 2018).

Methodological issues were largely identified across the studies in relation to study design and blinding. The most appropriate methodology came from RCTs that blinded research members and participants during the allocation and baseline assessment phases. There was a general lack of reporting around moderating factors which should be further explored within RCTs to identify mechanisms that lead to improved outcomes. Despite the lack of control associated with observational cohort studies, they are deemed appropriate pieces of research to consult in the field of psychological interventions. Studies followed up patients in the short term, with only one piece of research providing a 12-month follow up (Kennedy et al., 2006), not allowing meaningful conclusions to be drawn about the sustainability of improved outcomes. Out of the eight studies only three reported to be adequately powered (Delgadillo et al., 2017; Kennedy et al., 2006; Risdale et al., 2001) and only three of the eight studies ensured high levels of fidelity. Improving the quality of methodology alongside standardising the delivery of interventions, outcome measures and LTC/MUS populations would further support the use of a meta-analysis.

Only four of the studies had identified and reported around medication use within the outcomes (Coventry et al., 2015; Delgadillo et al., 2017; Kennedy et al., 2006; Risdale et al., 2001). This lack of reporting affects the reliability of the findings as medication use is likely to be high amongst samples with physical and mental health comorbidity and can further impact upon outcomes.

The eight studies were conducted in various locations across the country which supports the generalisability of the findings across the UK. However, the samples were predominantly white British women of working-class age who do not represent the target population; with 58% of those with LTCs/MUS being over the age of 60 and those amongst the poorest social class having a 60% higher prevalence of multimorbidity (DoH, 2012). Strong evidence was provided by Coventry et al. (2015) to show that CBT with collaborative care was effective for an older, predominantly male sample (mean age; 58.9) who were moderately-heavily deprived. However, there is a need for these results need to be replicated to improve generalisability.

Seven out of the eight studies utilised mental health practitioners to deliver the intervention, however Kennedy et al. (2006) utilised practice nurses with no prior CBT experience. This was also the only piece of research to include a twelve-month follow-up and found outcomes were not sustained. Future research could therefore identify if findings are replicated when interventions are delivered by trained IAPT staff.

IAPT services are increasingly becoming integrated into physical healthcare services with around a third of clinical commissioning groups increasing access to therapy for people with LTCs (Clark, 2019). The findings of the review provide initial support for the expansion of LTC-IAPT sites to provide appropriately adapted CBT interventions.

There is strong evidence that LI-CBT interventions that are appropriately adapted are effective at improving outcomes in the short term, which could be implemented at a reduced cost to the NHS with the need for a less qualified workforce. It is expected that a reduced number of LI practitioners will be recruited (30%), compared to standard IAPT services, (National Collaborating Centre for Mental Health, 2018). However, the current SR indicates a need for a greater number of LI staff, with LTC specific training to support working with complexity within brief interventions. This further supports the qualitative findings from McCrae, Correa, and Chan (2015) which highlighted training needs for IAPT workers in this specialist field and noted limited confidence amongst therapists when working with physical health.

Future research should aim to compare the effectiveness of CBT interventions within LTC-IAPT services for specific conditions; as at present only a small amount of research is highlighting adaptions made for particular MUS which enables comparability. It is also important to identify if the outcomes are sustainable in the long term as most commonly studies followed up between four and eight months and initial evidence found outcomes are not sustainable after a twelve-month period (Kennedy et al., 2006). It is important to further explore this due to the lifelong nature of LTCs, and the potential gain for the individual and the NHS.

Many of the papers were completed within IAPT services with a range of interventions including EMDR, interpersonal therapy, counselling and mindfulness being offered as HI interventions (Delgadillo et al., 2017; Kellett et al., 2016; Kenwright et al., 2017). The results did not offer a comparison of outcomes across interventions which makes it difficult to make inferences about the effectiveness of HI-CBT specifically.

Studies were excluded if they were published before the year 2000 as NICE guidelines that were introduced within this decade alongside studies conducted outside of the UK which may both hold value in their applicability to primary care settings. Therefore, relevant studies may have been excluded from the review due to the strict inclusion criteria. The breadth of conditions listed within the search terms generated large amount of studies to be reviewed, which ensured a comprehensive search of literature within these inclusions. A narrative synthesis was adopted due to the methodological heterogeneity of studies within the review; however, this holds challenges in maintaining transparency around the interpretation of data and conclusions drawn (Campbell, Katikireddi, Sowden, & Thomson, 2019). To improve transparency, effect sizes from all studies are reported within Table 2 and it is acknowledged that some studies do not provide enough information to calculate effects sizes (McBeth et al., 2012; Kennedy et al., 2006). The review also examined the evidence for CBT amongst two populations (MUS and LTCs) which may have impacted on the specificity of the findings, and due to the heterogeneity, it is not possible to compare and contrast the findings between conditions.