Hostname: page-component-76fb5796d-25wd4 Total loading time: 0 Render date: 2024-04-26T22:10:57.465Z Has data issue: false hasContentIssue false
  • English
  • Français

Increasing access to brief Coping Strategy Enhancement for distressing voices: a service valuation exploring a possible role for briefly-trained therapists

Published online by Cambridge University Press:  23 June 2021

Phil Clarke ,
Anna-Marie Jones  and
Mark Hayward Open the ORCID record for Mark Hayward [Opens in a new window]
Phil Clarke
Affiliation:
School of Psychology, University of Sussex, Pevensey Building, FalmerBN1 9QH, UK
Anna-Marie Jones
Affiliation:
R&D Department, Sussex Education Centre, Sussex Partnership NHS Foundation Trust, Nevill Avenue, HoveBN3 7HZ, UK
Mark Hayward*
Affiliation:
R&D Department, Sussex Education Centre, Sussex Partnership NHS Foundation Trust, Nevill Avenue, HoveBN3 7HZ, UK School of Psychology, University of Sussex, Pevensey Building, FalmerBN1 9QH, UK
*
*Corresponding author. Email: m.i.hayward@sussex.ac.uk
Rights & Permissions [Opens in a new window]

Abstract

Hearing voices is a distressing and trans-diagnostic experience. Cognitive behavioural therapy (CBT) is an effective psychological treatment for distressing voices, but is offered to only a minority of patients. Limited resources are a barrier to accessing CBT. Evaluations of brief forms of CBT for voices have offered encouraging findings, but the ability of briefly-trained therapists to deliver these brief therapies has yet to be explored. We evaluated the outcomes of a brief form of CBT (Coping Strategy Enhancement, CSE) for voices when delivered by highly-trained and briefly-trained therapists. This was a service evaluation comparing pre–post outcomes in patients who had completed brief CSE over four sessions, within NHS Mental Health Services, delivered by highly-trained and briefly-trained therapists. The primary outcome was the negative impact scale of the Hamilton Program for Schizophrenia Voices Questionnaire. Data were available from 92 patients who completed a course of brief CSE – nearly half of whom received therapy from a briefly-trained therapist. Modest benefits across the sample were consistent with previous evaluations and did not seem to be influenced by the training of the therapist. This service evaluation offers further evidence that brief CSE can begin a therapeutic conversation about distressing voices within routine clinical practice. The usefulness of this initial conversation does not seem to be reliant upon the extent of therapist training, suggesting that briefly-trained therapists may play a role in increasing access to these conversations for patients distressed by hearing voices.

Key learning aims

  1. (1) How can access to CBT be increased for patients distressed by hearing voices?

  2. (2) Can a wider workforce of briefly-trained therapists start a CBT-informed conversation about distressing voices?

  3. (3) How do the outcomes of these conversations compare with the same conversations facilitated by highly trained therapists?

Keywords

CBTcopinghallucinationspsychotherapy trainingvoice-hearing
Type
Service Models, Forms of Delivery and Cultural Adaptations of CBT
Information
the Cognitive Behaviour Therapist , Volume 14 , 2021 , e16
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
© The Author(s), 2021. Published by Cambridge University Press

Introduction

Hearing the voice of someone or something that does not seem to be present can be distressing and disabling and is increasingly being recognised as a trans-diagnostic experience (Waters and Fernyhough, Reference Waters and Fernyhough2017). Cognitive behavioural therapy (CBT) is the recommended treatment for distressing voices in the context of psychosis (NICE, 2014) and studies are suggesting that this treatment may be beneficial for patients with other diagnoses (e.g. borderline personality disorder; Hepworth et al., Reference Hepworth, Ashcroft and Kingdon2013). However, despite a robust evidence base for its effectiveness (van der Gaag et al., Reference van der Gaag, Valmaggia and Smit2014), CBT is not available to the majority of patients distressed by hearing voices (Royal College of Psychiatrists, 2018). Reasons for limited availability include a lack of resources as CBT is resource-intensive when offered over the recommended minimum of 16 sessions and delivered by highly-trained therapists (Ince et al., Reference Ince, Haddock and Tai2016). Attempts to increase access to CBT for distressing voices have included the offering of brief interventions, with initial findings offering some encouragement. For example, Guided Self-Help CBT for Voices (the ‘GiVE’ intervention) offered over eight sessions was found to be highly effective when offered by highly-trained therapists (Hazell et al., Reference Hazell, Hayward, Cavanagh, Jones and Strauss2018). However, evaluations of brief CBT offered by briefly-trained therapists to psychosis patients have generated inconclusive findings (Harding et al., Reference Harding, Landau, Fornells-Ambrojo, Jolley, McCrone and Garety2018; Turkington et al., Reference Turkington, Kingdon and Turner2002; Turkington et al., Reference Turkington, Kingdon, Rathod, Hammond, Pelton and Mehta2006) and there have been no evaluations specifically related to the delivery of CBT for voices. Furthermore, concerns have been expressed about the availability of some frontline practitioners to deliver CBT due to the competing demands upon the time of these busy clinicians (Harding et al., Reference Harding, Landau, Fornells-Ambrojo, Jolley, McCrone and Garety2018; Jolley et al., Reference Jolley, Onwumere, Kuipers, Craig, Moriarty and Garety2013).

We have sought to increase access to CBT for voice-hearing patients by establishing the Sussex Voices Clinic (SVC: https://www.sussexpartnership.nhs.uk/sussex-voices-clinic), a trans-diagnostic service that seeks to train, support and supervise clinicians to deliver brief interventions within NHS Secondary Care Mental Health Services. The clinicians within SVC are drawn from all of the disciplines typically found within Secondary Care (clinical psychologists, social workers, occupational therapists, community psychiatric nurses and support workers) and have varying levels of therapy training, ranging from extensive training to no training at all. All patients referred to SVC and found to be eligible for therapy are offered a 4-session course of Coping Strategy Enhancement (CSE) as the initial intervention within a therapy pathway. Our evaluation of the initial cohort of patients (n=101) within SVC found that this brief intervention generated small to moderate pre–post effect sizes on the primary outcome of voice-related distress (Hayward et al., Reference Hayward, Edgecumbe, Jones, Berry and Strauss2018). However, despite brief CSE being delivered by a heterogeneous group of therapists within that evaluation, no attempt was made to explore any relationships between therapist training and outcomes.

This service evaluation aims to explore the relationships between therapist training and outcomes by evaluating the outcomes of a group of patients who completed brief CSE within SVC – half of whom received the intervention from highly-trained therapists and half of whom received the intervention from briefly-trained therapists. If brief CSE for distressing voices can be delivered by briefly-trained therapists and generate some benefits, the availability of a larger workforce of briefly-trained therapists could increase access to this intervention.

Method

Study design

This study was a service evaluation that examined the relationship between therapist training type and pre–post CSE differences for patients experiencing distressing voices. The allocation of patients to a highly-trained therapist (HTT) or a briefly-trained therapist (BTT) was informed by clinical judgement on a case-by-case basis; half received brief CSE from a HTT and half received brief CSE from a BTT.

Setting

Patients received brief CSE within the Sussex Voices Clinic (SVC), a specialist psychological therapies outpatient service operating within Sussex Partnership NHS Foundation Trust. SVC provides patients with an initial 4-session brief intervention based around the principles of Coping Strategy Enhancement (Tarrier et al., Reference Tarrier, Beckett, Harwood, Yusupoff and Ugarteburu1993; Tarrier et al., Reference Tarrier, Yusupoff, Kinney, McCarthy, Gledhill, Haddock and Morris1998), which patients complete alongside their usual care. A subsequent post-therapy assessment informs the need for further courses of therapy (e.g. Group Mindfulness-Based Therapy; Chadwick et al., Reference Chadwick, Strauss, Jones, Kingdon, Ellett, Dannahy and Hayward2016) as part of a therapy pathway of a maximum 20 sessions in total.

Patients

Patients were referred to SVC between November 2016 and December 2018 by their care co-ordinator within Secondary Care Services. Patients were eligible for therapy if they met the inclusion criteria of: (1) a subjective report of current voice hearing; and (2) experiencing voice-related distress – operationalised by a score of 8 or more on the 4-item negative impact scale of the Hamilton Program for Schizophrenic Voices Questionnaire (HPSVQ) (Van Lieshout and Goldberg, Reference Van Lieshout and Goldberg2007). Eligibility was assessed by a clinical psychologist using data collected by a clinic assistant at a baseline assessment. Outcome data were collected by a clinic assistant at a post-therapy assessment following the 4-session intervention.

Between November 2016 and December 2018, 201 patients completed a course of brief CSE. Of these patients, 14 (7%) did not attend a post-therapy assessment, 92 (46%) completed a different assessment batteryFootnote 1 and three (1%) did not complete the post-therapy assessment. Thus, data from a sample of 92 patients who had completed the HPSVQ measure at both the baseline and post-therapy assessment were used in this service evaluation.

Measures

Assessments were conducted by a clinic assistant pre-therapy (T0: approximately 4 weeks before commencing therapy) and post-therapy (T1: 4 weeks after completing therapy). Clinic assistants were not involved with therapy delivery in order to reduce the risk of bias. Clinical outcomes were assessed using the following measures.

Primary outcome measure

The Hamilton Program for Schizophrenia Voices Questionnaire (HPSVQ; Van Lieshout and Goldberg, Reference Van Lieshout and Goldberg2007) is a 9-item self-report questionnaire that assesses the physical characteristics and impact of voices. Each item is scored on a 5-point Likert scale ranging from 0 (least negative) to 4 (most negative), with lower scores indicating less negative impact. The HSPVQ has good psychometric properties (Berry et al., Reference Berry, Newcombe, Strauss, Rammou, Schlier, Lincoln and Hayward2021; Kim et al., Reference Kim, Jung, Hwang, Chang, Kim, Ahn and Kim2010). The 5-item physical scale examines the characteristics of voices, including frequency, volume and duration. The 4-item negative impact scale examines the impact of voices, including compliance with voice commands and level of distress caused by voices. The negative impact scale of the HPSVQ scale is the primary outcome measure in this service evaluation.

Secondary outcome measure

The Choice of Outcome in CBT for Psychoses-Short Form (CHOICE-SF) is a 12-item form of the 24-item self-report questionnaire developed with patients to assess goals for CBT for psychosis that are relevant to patient defined recovery (Greenwood et al., Reference Greenwood, Sweeney, Williams, Garety, Kuipers, Scott and Peters2010). Eleven items are related to the therapy to create a severity score and one item is a free text item where respondents can insert their personal goal. All items are rated by patients on a 0–10 scale (where 0 is worst, and 10 is best), with higher scores indicating an enhanced sense of recovery. The short version was developed specifically for the IAPT-SMI initiative (Jolley et al., Reference Jolley, Garety, Peters, Fornells-Ambrojo, Onwumere, Harris and Johns2015), based on the highest loading items from the 24-item measure. CHOICE-SF has been found to have high validity, internal consistency and sensitivity to change (Webb et al., Reference Webb, Bartl, James, Skan, Peters, Jones and Greenwood2020). Higher mean scores are better.

Intervention

Therapy was delivered by therapists who were either highly-trained in the delivery of CBT (HTT) or briefly-trained in the delivery of CSE (BTT). The HTT had a professional training that incorporated the delivery of CBT, e.g. clinical/counselling psychologist (or trainee) or had been specifically trained in the delivery of CBT, e.g. graduate mental health practitioner or CBT therapist. The BTT had no formal training in the delivery of CBT and were drawn from a variety of professional backgrounds, e.g. community psychiatric nurse, social worker, occupational therapist, support worker, etc. In total, there were 61 therapists in this service evaluation: 29 HTT and 32 BTT. Approximately half of the patients (n=48; 52%) were allocated to receive therapy from a HTT; and half (n=44; 48%) were allocated to receive therapy from a BTT. All therapists were trained to deliver brief CSE during a 90-minute training session facilitated by the last author who also provided monthly supervision.

The CSE intervention was delivered over four weekly hour-long individual therapy sessions and supported by a workbook (downloadable from https://www.sussexpartnership.nhs.uk/resources-sussex-voices-clinic). The sessions utilised a functional analysis framework to identify and reduce the impact of triggers to voice activity, systematically deploy helpful coping strategies and implement activities to support well-being. Sessions were structured as follows:

Session 1: A semi-structured interview was used to identify the triggers to voice activity, and the patient’s emotional and behavioural responses to the voices. This stimulated a process of identifying coping strategies and evaluating their effectiveness.

Session 2: An existing coping strategy was collaboratively selected and considered in detail. Discussions focused on how the strategy could be modified and used differently (more or less often). A plan was agreed to implement the strategy between sessions.

Session 3: Implementation of the modified coping strategy was reviewed. Discussions focused on the enablers and barriers to implementation, and the effectiveness of the strategy. This strategy could be further modified to enhance effectiveness, or another strategy could be selected and modified. A plan was agreed to implement the strategy between sessions.

Session 4: Implementation of the modified coping strategy was reviewed, and any required modifications were agreed. Plans were discussed for continued implementation post-therapy. Discussions explored any learning from therapy in relation to both self and voices, and the implications of this learning for living well with voices. Any needs for further therapy were discussed.

Patients completed the sessions in addition to receiving their usual care from the mental health team. Usual care typically consisted of regular contact with a consultant psychiatrist and other clinical care team members, in addition to prescribed medication.

Statistical analysis

Descriptive statistics [mean, standard deviation (SD), min, max] were used to summarise patient demographics (age, gender, ethnicity, marital status, employment status, education, diagnosis, age at voice hearing onset and duration of voice hearing). Baseline duration of voice hearing, negative impact of voices and patient-defined recovery for each group were compared using independent t-tests to explore the possibility that patients with more severe problems had been allocated to HTT. A linear mixed model (LMM) was created for the primary and secondary outcome measures as dependent variables with group (HTT, BTT) and time (pre, post) as independent factors and a time by group interaction. Post hoc pairwise comparisons were used to estimate the mean pre–post difference by group. When interpreting the differences, the minimally clinically important difference (MCID) was used as a reference point to determine whether pre–post differences were considered meaningful. Percentages of those who had improved or deteriorated by at least the MCID were calculated. The relevant MCIDs were 2 points on the HPSVQ negative impact scale (Hazell et al., Reference Hazell, Hayward, Cavanagh, Jones and Strauss2018) and 1.45 on the CHOICE-SF (Jolley et al., Reference Jolley, Garety, Peters, Fornells-Ambrojo, Onwumere, Harris and Johns2015). Standardised effect sizes (Cohen’s d) were calculated as the mean pre–post difference divided by the baseline SD taking into account the pre- and post-measurement correlation. Standardised effects were interpreted in line with Cohen’s criteria (Cohen, Reference Cohen1960; i.e. small ≥0.2, medium ≥0.5, and a large effect ≥0.8). 95% CIs were calculated for all estimates.

For our primary outcome only, if the between-group pre–post difference was non-significant (i.e. the interaction was p>0.05), then pre–post differences for the two groups were tested for statistical equivalence using the confidence interval approach (Wellek, Reference Wellek2010). This is where upper (ΔU) and lower (ΔL) equivalence boundaries are pre-selected and if the observed interaction effect size and corresponding 90% CI falls between them, then the two groups are considered practically equivalent (Lakens, Reference Lakens2017). The equivalence bounds for the HSPVQ were set to ±0.5 MCID.

Data were selected for individuals who had both pre- and post-CSE HPSVQ scores. However, the resulting sample included missing data for CHOICE-SF scores, which was assumed to be missing at random (MAR; Jakobsen et al., Reference Jakobsen, Gluud, Wetterslev and Winkel2017; Sterne et al., Reference Sterne, White, Carlin, Spratt, Royston, Kenward, Wood and Carpenter2009) and multiple imputation using chained equations (MICE) was applied (White et al., Reference White, Royston and Wood2011). The imputation model included the original analysis variables and auxiliary variables that were significantly (p<0.05) associated with the missing data. From the pool of all demographic variables, only employment, diagnosis and age at onset were associated with missing CHOICE-SF scores (p<0.05) and so were included as auxiliary variables. Multiple imputation was carried out using 14 imputations based on the percentage of missing data (14%; Rezvan et al., Reference Rezvan, Lee and Simpson2015). A sensitivity analysis was carried out by comparing the results of the analyses using all available cases to those following multiple imputation. STATA 16 was used for all analyses.

Results

Table 1 displays a descriptive summary of patient characteristics and baseline clinical outcomes. Patients were on average 39.6 years old (SD=13.3) and the majority were female (57.6%), White British (81.5%), not in a relationship (72.8%) and not working (75.0%). Mean (SD) scores at baseline on the primary outcome of negative impact of voices were 12.3 (2.8) for the HTT group and 11.4 (3.2) for the BTT group. Independent t-tests indicated no differences between the patients in the HTT and BTT groups with respect to duration of voice hearing (difference=2.2; t 81=0.74; p=0.462), baseline levels for negative impact of voices (difference=1.0; t 90=1.54; p=0.486) and patient-defined recovery (difference=0.5; t 83=1.44; p=0.154).

Table 1. Descriptive statistics and baseline clinical characteristics of patients, by type of therapist training

SD, standard deviation; BPD/EUPD, borderline personality disorder/emotional unstable personality disorder; PTSD, post-traumatic stress disorder. Total data are missing for ethnicity (n=3), marital status (n=5), employment (n=5), education (n=3), diagnosis (n=5), age onset/duration (n=9) and CHOICE (n=7); HSPVQ, Hamilton Programme for Schizophrenia Voices Questionnaire negative impact scale; CHOICE, Choice of Outcome in CBT for Psychoses-Short Form. 1Examples of mixed diagnoses are anxiety/depression, EUPD/PTSD, dissociation disorder/depression; 2examples of other include drug-induced psychosis and attention deficit hyperactivity disorder (ADHD).

Negative impact of voices (HPSVQ)

Estimates from the LMM indicated improvements (reductions) on the negative impact of voices scale post-CSE treatment when compared with the baseline (see Table 2). No missing data were found for this sample, and thus no data imputation was needed. The mean pre–post difference for all therapists (n=92) was –1.26 points [95% confidence interval (CI) –1.92, –0.60], with a small to medium standardised effect size of d=–0.44 and was statistically significant (p<0.001).

Table 2. Linear mixed model results and corresponding effect sizes for complete case and adjusted analyses

* t-test statistic rather than z-test statistic; 1set at 0.500 to estimate the effect size equivalent to the calculation for independent groups. HSPVQ, Hamilton Programme for Schizophrenia Voices Questionnaire negative impact scale; CHOICE, Choice of Outcome in CBT for Psychoses-Short Form; SEM, standard error of the mean.

Effect sizes remained roughly consistent when examining the HTT and BTT groups individually using post hoc pairwise comparisons. Patients in the HTT group (n=48) reported a marginally larger mean pre–post difference of –1.31 (95 CI% –2.22, –0.40) and stronger effect size (d=–0.48) than patients seen by BTTs (n=44) with a mean pre–post difference of –1.20 (95% CI –2.16, –0.25) and effect size of d=–0.40. The group–time interaction was relatively small and non-significant, –0.11 (95% CI –1.42, 1.21) with d=–0.04. These results suggest that the brief-CSE intervention was effective in reducing the negative impact of voices for all patients regardless of group, with slightly larger differences in the HTT group. However, overall differences in outcomes between HTTs and BTTs were negligible. Within each group, the MCID of 2 points was contained within the 95% CI around the mean difference suggesting clinically meaningful change for some patients. Further analysis showed that in the HTT group and BTT group, 37.5% (18/48) and 43.2% (19/44) of patients achieved the MCID of 2 points, respectively. Deterioration at least as large as the MCID was found in 19.5% (8/41) and 18.2% (8/44) of patients in the HTT and BTT groups, respectively.

As both ends of the interval cross the equivalence boundaries (ΔL=–1, ΔU=1), there is not enough evidence to suggest that observed pre–post CSE reductions in negative impact of voices for each therapist group are equivalent. However, as both ends of the interval remain within the MCID of ±2 HPSVQ points, this suggests that this non-equivalence, or observed difference, is not clinically meaningful and patients would essentially experience similar levels of benefit regardless of therapist type. This corroborates the very small and statistically non-significant group–time interaction found in the pre–post outcomes analysis. Those findings indicated that neither set of therapist outcomes were superior to the other.

Patient defined recovery (CHOICE-Short Form)

Pre–post CSE improvements (increases) in the secondary outcome, CHOICE-SF, were also indicated by the LMM (see Table 2 for a full description). In addition to the complete case analysis, the data showed that in the HTT and BTT groups, 41.5% (17/41) and 36.8% (14/38) of patients achieved the MCID of 1.45 points, respectively. Conversely, 5% (2/41) and 5% (2/38) in the HTT and BTT groups, respectively, showed deterioration at least as large as the MCID.

Based on our adjusted data, patients in the HTT group (n=48) reported a mean difference of 1.02 (95% CI 0.56, 1.49) with a medium to large effect size (d=0.63). The mean difference was smaller for the BTT group (n=44) at 0.82 (95% CI 0.33, 1.31) with a similar medium to large effect size (d=0.65). Both effect sizes were statistically significant with p<0.001. The group–time interaction was 0.20 (–0.46, 0.87; d=0.12) which was non-significant, indicating negligible differences in the mean pre–post CHOICE-SF between the HTT and the BTT groups. The 95% CI for the mean differences only included the MCID of 1.45 for the HTT group.

Our sensitivity evaluation compared the complete case and the adjusted analyses. Apart from the notable reduced standardised effect size for HTTs (d=0.82 and d=0.63 in the complete case analysis and adjusted analysis, respectively), there were only small changes across the two sets of estimates. However, our final conclusions did not change as a result of making adjustments to the analysis for the missing data; in line with findings from the analysis of the primary outcome, therapist training did not significantly affect pre–post brief-CSE outcomes of patient-defined recovery.

Discussion

This service evaluation aimed to explore the relationships between therapist training and the outcomes of brief CSE for distressing voices within routine clinical practice. Outcomes were evaluated for a cohort of 92 patients and the small–medium pre–post effect sizes on the primary outcome of the negative impact of voices were consistent with a previous evaluation of brief CSE (Hayward et al., Reference Hayward, Edgecumbe, Jones, Berry and Strauss2018). A between-groups comparison found no significant difference between the outcomes for patients seen by HTT and BTT on the primary outcome, suggesting that brief CSE can generate some benefits irrespective of the training of the therapist who is delivering the intervention. However, we did not have enough evidence to demonstrate equivalence in outcomes for the two groups. Effect sizes on the secondary outcome of patient-defined recovery were medium to large overall, and were larger within the HTT group, but not to an extent that was statistically significant.

These findings offer further evidence that brief CSE is a low-intensity intervention that can generate some benefits as the first step of a therapy pathway for patents experiencing distressing voices. Moreover, the evidence for positive outcomes from briefly-trained therapists offers some tentative evidence that a more widely available workforce of briefly-trained clinicians can increase access to brief CBT-informed interventions for voices. Similar evidence has been generated by a comparison of CBT for depression as outcomes were similar, irrespective of the training of the therapists (Richards et al., 2018).

However, the current service evaluation is not suggesting that interventions across an entire therapy pathway can be delivered by briefly-trained therapists to patients distressed by hearing voices. If a course of brief CSE is able to ‘start a conversation’ about distressing voices (possibly in the context of overcoming some of the barriers to such conversations; Bogen-Johnston et al., Reference Bogen-Johnston, de Visser, Strauss, Berry and Hayward2019), the continuation of the conversation may require the guidance of a highly-trained therapist – particularly if this extended conversation is informed by a longitudinal formulation (e.g. Relating Therapy; Hayward et al., Reference Hayward, Jones, Bogen-Johnston, Thomas and Strauss2017; also see Morrison, Reference Morrison2017).

Limitations

This service evaluation has limitations in at least four respects. Firstly, patients were allocated to be seen by an HTT or BTT on the basis of clinical judgement. Whilst this was appropriate in the context of the current service evaluation, this means that the groups cannot be assumed to be comparable. Any subsequent research study would need to allocate randomly. Secondly, the post-therapy assessments could not be conducted blind – increasing the likelihood that the assessment may have been influenced by the desire of the assessors to elicit favourable outcomes. Thirdly, the service evaluation was not controlled, creating the un-evaluated possibility that benefits occurred naturally over time. Finally, there was no attempt to assess the sustainability of benefits over a follow-up period – leaving the unanswered question about a relationship between therapist training and the maintenance of gains.

Clinical implications

The findings from this service evaluation suggest that clinicians within Secondary Care Mental Health Services can be trained to deliver brief CSE for the benefit of patients distressed by hearing voices. Furthermore, the brevity of this intervention may partially address the challenges of time-management for these busy clinicians (Waller et al., Reference Waller, Garety, Jolley, Fornells-Ambrojo, Kuipers, Onwumere and Craig2015). Training and the delivery of brief CSE can be supported by the structured nature of this conversation – aided by the resources available on the SVC website (https://www.sussexpartnership.nhs.uk/sussex-voices-clinic) – and training facilitated by a highly-trained therapist.

The availability of regular supervision from a highly-trained therapist would also be a pre-requisite. For some patients, starting a conversation may be the beginning of an extended therapeutic conversation that can involve the delivery of higher intensity forms of CBT for voices delivered by highly-trained therapists, e.g. mindfulness-based group therapy (Chadwick et al., Reference Chadwick, Strauss, Jones, Kingdon, Ellett, Dannahy and Hayward2016), avatar therapy (Craig et al., Reference Craig, Rus-Calafell, Ward, Leff, Huckvale, Howarth and Garety2017) or cognitive therapy for command hallucination (Birchwood et al., Reference Birchwood, Michail, Meaden, Tarrier, Lewis, Wykes and Peters2014). For other patients, the conversation within brief CSE may form a foundation from which to engage with evidence-based interventions for other associated problems, e.g. worry and paranoia (Freeman et al., Reference Freeman, Dunn, Startup, Pugh, Cordwell, Mander and Kingdon2015).

Acknowledgements

We would like to express our thanks to the many therapists and clinic assistants within the Sussex Voices Clinic who have delivered therapy and collected data for this study.

Financial support

The evaluation was not supported by any funding. All resources were made available by Sussex Partnership NHS Foundation Trust through routine clinical care.

Conflicts of interest

The authors declare no conflicts of interest.

Ethical statement

The authors have abided by the Ethical Principles of Psychologists and Code of Conduct as set out by the BABCP and BPS. Approval for this study was granted by the University of Sussex Social Sciences & Arts Research Ethics Committee. Additionally, this study was registered with the Clinical Audit Department of Sussex Partnership NHS Foundation Trust, who approved access to secondary patient data and advised that participant consent was not necessary (Department of Health, 2017).

Data availability statement

The data that support the findings of this evaluation are available from the corresponding author upon reasonable request.

Key practice points

  1. (1) Brief CSE can be used to start a conversation about distressing voices.

  2. (2) The usefulness of this conversation is not reliant upon the training of therapists.

  3. (3) Within a specialist psychological therapies outpatient clinic, briefly-trained therapists can increase access to CBT-informed conversations about distressing voices.

Footnotes

1 The assessment battery within the Sussex Voices Clinic was changed in 2016 to include the HSPVQ as a self-report primary outcome.

References

Further reading

Hayward, M. (2018). Evidence-based psychological approaches for auditory hallucinations: commentary on auditory hallucinations in schizophrenia. BJPsych Advances, 24, 174177.CrossRefGoogle Scholar
Hayward, M., Strauss, C. & Kingdon, D. (2018). Overcoming Distressing Voices (2nd edn). London, UK: Robinson.Google Scholar
Hazell, C., Greenwood, K., Fielding-Smith, S., Rammou, A., Bogen-Johnston, L., Berry, C., Jones, A-M. & Hayward, M. (2018). Understanding the barriers to accessing symptom-specific cognitive behavior therapy (CBT) for distressing voices: reflecting on and extending the lessons learnt from the CBT for psychosis literature. Frontiers, 9, 727.Google ScholarPubMed

References

Berry, C., Newcombe, H., Strauss, C., Rammou, A., Schlier, B., Lincoln, T., & Hayward, M. (2021). Validation of the Hamilton Program for Schizophrenia Voices Questionnaire: associations with emotional distress and wellbeing, and invariance across diagnosis and sex. Schizophrenia Research, 228, 336-343.CrossRefGoogle ScholarPubMed
Birchwood, M., Michail, M., Meaden, A., Tarrier, N., Lewis, S., Wykes, T., … & Peters, E. (2014). Cognitive behaviour therapy to prevent harmful compliance with command hallucinations (COMMAND): a randomised controlled trial, Lancet Psychiatry, 1, 2333.CrossRefGoogle ScholarPubMed
Bogen-Johnston, L., de Visser, R., Strauss, C., Berry, K., & Hayward, M. (2019). ‘That little doorway where I could suddenly start shouting out’: barriers and enablers to the disclosure of distressing voices. Journal of Health Psychology, 24, 13071317.CrossRefGoogle Scholar
Chadwick, P., Strauss, C., Jones, A. M., Kingdon, D., Ellett, L., Dannahy, L., & Hayward, M. (2016). Group mindfulness-based intervention for distressing voices: a pragmatic randomised controlled trial. Schizophrenia Research, 175, 168175.CrossRefGoogle ScholarPubMed
Cohen, J. (1960). A coefficient of agreement for nominal scales. Educational and Psychological Measurement, 20, 3746.CrossRefGoogle Scholar
Craig, T. K. J., Rus-Calafell, R., Ward, T., Leff, J. P., Huckvale, M., Howarth, E., … & Garety, P. (2017). AVATAR therapy for auditory verbal hallucinations in people with psychosis: a single-blind, randomized controlled trial. Lancet Psychiatry, 5, 3140.CrossRefGoogle Scholar
Department of Health (2017). UK Policy Framework for Health and Social Care Research. London, UK: Department of Health.Google Scholar
Freeman, D., Dunn, G., Startup, H., Pugh, K., Cordwell, J., Mander, H., … & Kingdon, D. (2015). Effects of cognitive behaviour therapy for worry on persecutory delusions in patients with psychosis (WIT): a parallel, single-blind, randomised controlled trial with a mediation analysis. Lancet Psychiatry, 2, 305313.CrossRefGoogle ScholarPubMed
Greenwood, K. E., Sweeney, A., Williams, S., Garety, P., Kuipers, E., Scott, J., & Peters, E. (2010). Choice of outcome in CBT for psychoses (CHOICE): the development of a new service user-led outcome measure of CBT for psychosis. Schizophrenia Bulletin, 36, 126135.CrossRefGoogle ScholarPubMed
Harding, H., Landau, S., Fornells-Ambrojo, M., Hassanali, Jolley, S., McCrone, P.,… & Garety, P. (2018). Improving implementation of evidence based practice for people with psychosis through training the wider workforce: results of the GOALS randomized controlled trial. Journal of Behaviour Therapy & Experimental Psychiatry, 59, 121128.Google Scholar
Hayward, M., Edgecumbe, R., Jones, A. M., Berry, C., & Strauss, C. (2018). Brief coping strategy enhancement for distressing voices: an evaluation in routine clinical practice. Behavioural and Cognitive Psychotherapy, 46, 226237.CrossRefGoogle ScholarPubMed
Hayward, M., Jones, A.-M., Bogen-Johnston, L., Thomas, N., & Strauss, C. (2017). Relating therapy for distressing voices: a pilot randomized controlled trial. Schizophrenia Research, 183, 137142.CrossRefGoogle ScholarPubMed
Hazell, C. M., Hayward, M., Cavanagh, K., Jones, A. M., & Strauss, C. (2018). Guided self-help cognitive-behaviour Intervention for VoicEs (GiVE): results from a pilot randomized controlled trial in a transdiagnostic sample. Schizophrenia Research, 195, 441447.CrossRefGoogle Scholar
Hepworth, C. R., Ashcroft, K., & Kingdon, D. (2013). Auditory hallucinations: a comparison of beliefs about voices in individuals with schizophrenia and borderline personality disorder. Clinical Psychology and Psychotherapy, 20, 239245.CrossRefGoogle ScholarPubMed
Ince, P., Haddock, G., & Tai, S. (2016). A systematic review of the implementation of recommended psychological interventions for schizophrenia: rates, barriers, and improvement strategies. Psychology and Psychotherapy: Theory, Research and Practice, 89, 324350.CrossRefGoogle ScholarPubMed
Jakobsen, J. C., Gluud, C., Wetterslev, J., & Winkel, P. (2017). When and how should multiple imputation be used for handling missing data in randomised clinical trials – a practical guide with flowcharts. BMC Medical Research Methodology, 17, 162.CrossRefGoogle ScholarPubMed
Jolley, S., Garety, P., Peters, E., Fornells-Ambrojo, M., Onwumere, J., Harris, V., ... & Johns, L. (2015). Opportunities and challenges in improving access to psychological therapies for people with severe mental illness (IAPT-SMI): evaluating the first operational year of the South London and Maudsley (SLaM) demonstration site for psychosis. Behavioural Research and Therapy, 64, 2430.CrossRefGoogle Scholar
Jolley, S., Onwumere, J., Kuipers, E., Craig, T., Moriarty, A., & Garety, P. (2013). Increasing access to psychological therapies for people with psychosis: predictors of successful training. Behaviour Research and Therapy, 50, 457462.CrossRefGoogle Scholar
Kim, S. H., Jung, H. Y., Hwang, S. S., Chang, J. S., Kim, Y., Ahn, Y. M., & Kim, Y. S. (2010). The usefulness of a self-report questionnaire measuring auditory verbal hallucinations. Progress in Neuro-Psychopharmacology & Biological Psychiatry, 34, 968973.CrossRefGoogle ScholarPubMed
Lakens, D. (2017). Equivalence tests: a practical primer for t tests, correlations, and meta-analyses. Social Psychological and Personality Science, 8, 355362.CrossRefGoogle Scholar
Morrison, A. P. (2017). A manualised treatment protocol to guide delivery of evidence-based cognitive therapy for people with distressing psychosis: learning from clinical trials, Psychosis, 9, 271281.CrossRefGoogle Scholar
National Institute for Health and Care Excellence (NICE) (2014). Psychosis and Schizophrenia in Adults: Prevention and Management. London, UK: NICE.Google Scholar
Rezvan, P. H., Lee, K. J., & Simpson, J. A. (2015). The rise of multiple imputation: a review of the reporting and implementation of the method in medical research. BMC Medical Research Methodology, 15, 30.CrossRefGoogle Scholar
Richards, D. A., Ekers, D., McMillan, D., Taylor, R. S., Byford, S., Warren, F. C., … & O’Mahen, H. (2016). Cost and Outcome of Behavioural Activation versus Cognitive Behavioural Therapy for Depression (COBRA): a randomised, controlled, non-inferiority trial. Lancet, 388, 871880.CrossRefGoogle ScholarPubMed
Royal College of Psychiatrists (2018). National Clinical Audit of Psychosis – National Report for the Core Audit 2018. London, UK: Healthcare Quality Improvement Partnership.Google Scholar
Sterne, J. A. C., White, I. R., Carlin, J. B., Spratt, M., Royston, P., Kenward, M. G., Wood, A. M., & Carpenter, J. R. (2009). Multiple imputation for missing data in epidemiological and clinical research: potential and pitfalls. British Medical Journal, 338.CrossRefGoogle Scholar
Tarrier, N., Beckett, R., Harwood, S., Baker, a., Yusupoff, L., & Ugarteburu, I.(1993). A trial of two cognitive-behavioural methods of treating drug-resistant residual psychotic symptoms in schizophrenic patients: I. Outcome. British Journal of Psychiatry, 162, 524532.CrossRefGoogle ScholarPubMed
Tarrier, N., Yusupoff, L., Kinney, C., McCarthy, E., Gledhill, A., Haddock, G., & Morris, J. (1998). Randomised controlled trial of intensive cognitive behaviour therapy with chronic schizophrenia. British Medical Journal, 317, 303307.CrossRefGoogle ScholarPubMed
Turkington, D., Kingdon, D., & Turner, T. (2002). Effectiveness of a brief cognitive– behavioural therapy intervention in the treatment of schizophrenia. British Journal of Psychiatry, 180, 523–7.CrossRefGoogle ScholarPubMed
Turkington, D., Kingdon, D., Rathod, S., Hammond, K., Pelton, J., & Mehta, R. (2006). Outcomes of an effectiveness trial of cognitive-behavioural intervention by mental health nurses in schizophrenia. British Journal of Psychiatry, 189, 3640.CrossRefGoogle Scholar
Van Lieshout, R. J., & Goldberg, J. O. (2007). Quantifying self-reports of auditory verbal hallucinations in persons with psychosis. Canandian Journal of Behavioural Science, 39, 7377.CrossRefGoogle Scholar
van der Gaag, M., Valmaggia, L. R., & Smit, F. (2014). The effects of individually tailored formulation-based cognitive behavioural therapy in auditory hallucinations and delusions: a meta-analysis. Schizophrenia Research, 156, 3037.CrossRefGoogle ScholarPubMed
Waller, H., Garety, P., Jolley, S., Fornells-Ambrojo, M., Kuipers, E., Onwumere, J., … & Craig, T. (2015). Training frontline mental health staff to deliver ‘low intensity’ psychological therapy for psychosis: a qualitative analysis of therapist and service user views on the therapy and its future implementation. Behavioural and Cognitive Psychotherapy, 43, 298313.CrossRefGoogle Scholar
Waters, F., & Fernyhough, C. (2017). Hallucinations: a systematic review of points of similarity and difference across diagnostic classes. Schizophrenia Bulletin, 43, 3243.CrossRefGoogle ScholarPubMed
Webb, R., Bartl, G., James, B., Skan, R., Peters, E., Jones, A.-M., … & Greenwood, K. (2020). Exploring the development, validity and utility of the Short Form version of the CHoice of Outcome In Cbt for psychosEs (CHOICE-SF): a patient reported outcome measure of psychological recovery. Schizophrenia Bulletin. https://doi.org/10.1093/schbul/sbaa173 CrossRefGoogle Scholar
Wellek, S. (2010). Testing Statistical Hypotheses of Equivalence and Noninferiority. Chapman and Hall/CRC.CrossRefGoogle Scholar
White, I. R., Royston, P., & Wood, A. M. (2011). Multiple imputation using chained equations: issues and guidance for practice. Statistics in Medicine, 30, 377399.CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Descriptive statistics and baseline clinical characteristics of patients, by type of therapist training

Figure 1

Table 2. Linear mixed model results and corresponding effect sizes for complete case and adjusted analyses

Submit a response

Comments

No Comments have been published for this article.