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Approaches to improving mental health care for autistic children and young people: a systematic review and meta-analysis

Published online by Cambridge University Press:  17 May 2024

Tamara Pemovska*
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK
Sofia Loizou
Affiliation:
NIHR Mental Health Policy Research Unit, King's College London, London, UK
Rebecca Appleton
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK
Debbie Spain
Affiliation:
NHS England, London, UK
Theodora Stefanidou
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK
Ariana Kular
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK
Ruth Cooper
Affiliation:
NIHR Mental Health Policy Research Unit, King's College London, London, UK
Anna Greenburgh
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK
Jessica Griffiths
Affiliation:
NIHR Mental Health Policy Research Unit, King's College London, London, UK
Phoebe Barnett
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK Centre for Outcomes Research and Effectiveness, Research Department of Clinical, Educational and Health Psychology, University College London, London, UK National Collaborating Centre for Mental Health, Royal College of Psychiatrists, London, UK
Una Foye
Affiliation:
NIHR Mental Health Policy Research Unit, King's College London, London, UK
Helen Baldwin
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK
Matilda Minchin
Affiliation:
Division of Psychiatry, University College London, London, UK
Gráinne Brady
Affiliation:
Division of Psychiatry, University College London, London, UK
Katherine R. K. Saunders
Affiliation:
NIHR Mental Health Policy Research Unit, King's College London, London, UK
Nafiso Ahmed
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK
Robin Jackson
Affiliation:
Lancaster and Morecambe Child and Adolescent Mental Health Services, Lancashire and South Cumbria NHS Foundation Trust, Morecambe, UK University of Wolverhampton, Wolverhampton, UK
Rachel Rowan Olive
Affiliation:
NIHR Mental Health Policy Research Unit Lived Experience Working Group, Division of Psychiatry, University College London, London, UK
Jennie Parker
Affiliation:
NIHR Mental Health Policy Research Unit Lived Experience Working Group, Division of Psychiatry, University College London, London, UK School of Health and Psychological Sciences, City, University of London, London, UK Berkshire Healthcare NHS Foundation Trust, Reading, UK
Amanda Timmerman
Affiliation:
Department of Clinical, Educational and Health Psychology, UCL, London, UK
Suzi Sapiets
Affiliation:
Tizard Centre, University of Kent, Canterbury, UK
Eva Driskell
Affiliation:
Independent Scholars
Beverley Chipp
Affiliation:
NIHR Mental Health Policy Research Unit Lived Experience Working Group, Division of Psychiatry, University College London, London, UK
Bethany Parsons
Affiliation:
Independent Scholars
Vaso Totsika
Affiliation:
Division of Psychiatry, University College London, London, UK
Will Mandy
Affiliation:
Department of Clinical, Educational and Health Psychology, UCL, London, UK
Richard Pender
Affiliation:
Department of Clinical, Educational and Health Psychology, UCL, London, UK
Philippa Clery
Affiliation:
Division of Psychiatry, University College London, London, UK Camden and Islington NHS Foundation Trust, London, UK
Brynmor Lloyd-Evans
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK
Alan Simpson
Affiliation:
NIHR Mental Health Policy Research Unit, King's College London, London, UK
Sonia Johnson
Affiliation:
NIHR Mental Health Policy Research Unit, Division of Psychiatry, University College London, London, UK Camden and Islington NHS Foundation Trust, London, UK
*
Corresponding author: Tamara Pemovska; Email: t.pemovska@ucl.ac.uk
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Abstract

Autistic children and young people (CYP) experience mental health difficulties but face many barriers to accessing and benefiting from mental health care. There is a need to explore strategies in mental health care for autistic CYP to guide clinical practice and future research and support their mental health needs. Our aim was to identify strategies used to improve mental health care for autistic CYP and examine evidence on their acceptability, feasibility, and effectiveness. A systematic review and meta-analysis were carried out. All study designs reporting acceptability/feasibility outcomes and empirical quantitative studies reporting effectiveness outcomes for strategies tested within mental health care were eligible. We conducted a narrative synthesis and separate meta-analyses by informant (self, parent, and clinician). Fifty-seven papers were included, with most investigating cognitive behavioral therapy (CBT)-based interventions for anxiety and several exploring service-level strategies, such as autism screening tools, clinician training, and adaptations regarding organization of services. Most papers described caregiver involvement in therapy and reported adaptations to communication and intervention content; a few reported environmental adjustments. In the meta-analyses, parent- and clinician-reported outcomes, but not self-reported outcomes, showed with moderate certainty that CBT for anxiety was an effective treatment compared to any comparison condition in reducing anxiety symptoms in autistic individuals. The certainty of evidence for effectiveness, synthesized narratively, ranged from low to moderate. Evidence for feasibility and acceptability tended to be positive. Many identified strategies are simple, reasonable adjustments that can be implemented in services to enhance mental health care for autistic individuals. Notable research gaps persist, however.

Type
Review Article
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

Introduction

Autism is clinically defined as a neurodevelopmental condition characterized by social communication differences, sensory sensitivities, and difficulties with behavioral and cognitive flexibility (APA, 2013). It is also conceptualized as a form of neurodivergence, representing natural differences in human minds (Chapman & Botha, Reference Chapman and Botha2023). About 1 in 100 children globally is estimated to receive an autism diagnosis (Zeidan et al., Reference Zeidan, Fombonne, Scorah, Ibrahim, Durkin, Saxena and Elsabbagh2022) and reported prevalence can differ across studies (Roman-Urrestarazu et al., Reference Roman-Urrestarazu, van Kessel, Allison, Matthews, Brayne and Baron-Cohen2021). Complex referral pathways and lengthy waits for diagnostic assessment often translate into untimely or incorrect diagnosis (NHSE, 2023), probably impacting the accuracy of prevalence estimates.

Autistic children and young people (CYP) experience high rates of co-occurring mental health difficulties (Simonoff et al., Reference Simonoff, Pickles, Charman, Chandler, Loucas and Baird2008), contributing to considerable long-term negative effects on health and quality of life (Lai et al., Reference Lai, Kassee, Besney, Bonato, Hull, Mandy and Ameis2019). An increasing body of research is highlighting the impact mental health difficulties can have on various aspects of life, including education, quality of life, behavior, family, work, and independence beyond what is linked to autism (Adams, Clark, & Keen, Reference Adams, Clark and Keen2019a; Adams & Emerson, Reference Adams and Emerson2020, Reference Adams and Emerson2021; Adams, Young, Simpson, & Keen, Reference Adams, Young, Simpson and Keen2019b; Den Houting, Adams, Roberts, & Keen, Reference Den Houting, Adams, Roberts and Keen2020; Robertson et al., Reference Robertson, Stanfield, Watt, Barry, Day, Cormack and Melville2018). Disentangling mental health difficulties from autistic traits can be difficult due to poor clinician knowledge of autism, diagnostic overshadowing, and a lack of validated measures, resulting in challenges and delays to diagnosis and, subsequently, a lack of or ineffective mental health support (Adams & Young, Reference Adams and Young2021; Brede et al., Reference Brede, Cage, Trott, Palmer, Smith, Serpell and Russell2022; Hus & Segal, Reference Hus and Segal2021; Maddox et al., Reference Maddox, Crabbe, Beidas, Brookman-Frazee, Cannuscio, Miller and Mandell2020). There is preliminary evidence for the feasibility and effectiveness of standard and adapted psychological interventions for anxiety and mood-related outcomes for autistic CYP (Linden et al., Reference Linden, Best, Elise, Roberts, Branagan, Tay and Gurusamy2023). Meanwhile, pharmacological interventions trialed in this population have obtained mixed results when prescribed for mental health symptoms (Deb et al., Reference Deb, Roy, Lee, Majid, Limbu, Santambrogio and Bertelli2021), and clinical guidelines have recommended caution when prescribing them for CYP, especially without concurrent psychological interventions (NICE, 2021).

Mental health care requires tailoring for autistic CYP, as standard care can fail to meet their preferences and needs (Dickson et al., Reference Dickson, Lind, Jobin, Kinnear, Lok and Brookman-Frazee2021; Lickel, MacLean, Blakeley-Smith, & Hepburn, Reference Lickel, MacLean, Blakeley-Smith and Hepburn2012; NICE, 2021). Mental health services may attempt to address autistic people's needs through implementing bespoke interventions specifically developed for this population, adapted standard interventions, and/or changes to service delivery overall. Adaptations are needed to make the overall experience of contact with services more accessible and acceptable, as well as to ensure that the structure, delivery, and content of interventions are appropriate for autistic young people. These adaptations should also be in line with the person's developmental age and stage (NICE, 2021). Adaptations that have been recommended include offering shorter or longer appointments, incorporating visual means to facilitate discussion, and changing the physical environment to accommodate sensory preferences (National Autistic Society, 2021). However, parents often report lack of clinician knowledge/expertise regarding autism and an inability of mental health services and clinicians to tailor their support to autistic CYP (Adams & Young, Reference Adams and Young2021). Failure to embed adaptations can result in distress, disengagement from services, and reduced help-seeking (Benevides et al., Reference Benevides, Shore, Palmer, Duncan, Plank, Andresen and Coughlin2020; Brede et al., Reference Brede, Cage, Trott, Palmer, Smith, Serpell and Russell2022; Crane, Adams, Harper, Welch, & Pellicano, Reference Crane, Adams, Harper, Welch and Pellicano2018). This can negatively impact the wellbeing of families as well as of CYP, increasing carer stress (Read & Schofield, Reference Read and Schofield2010).

More research is needed to explore strategies used in mental health care settings for autistic CYP to guide clinical practice and future research in this area so that needs for effective mental health care can be better met. Thus, this systematic review aimed to identify and examine strategies used to improve mental health care for autistic CYP and, if possible, conduct a meta-analysis, addressing the following research questions:

  1. 1) What strategies, including service adaptations, initiatives to detect autism, and bespoke and adapted interventions, have been used to improve mental health care for autistic CYP?

  2. 2) What is the acceptability and feasibility of strategies to improve mental health care for autistic CYP?

  3. 3) What is the effectiveness of strategies to improve mental health care for autistic CYP?

Methods

This systematic review was conducted by the National Institute for Health and Care Research (NIHR) Mental Health Policy Research Unit, as part of their research program aimed at building evidence to inform policy (MHPRU, n.d.). The protocol, developed in collaboration with a working group, comprising lived experience researchers, academics, clinicians, and policy experts with personal/professional expertise of autism and/or review methodology, was pre-registered on PROSPERO (CRD42022347690). We followed the PRISMA guidelines (Page et al., Reference Page, McKenzie, Bossuyt, Boutron, Hoffmann, Mulrow and Moher2021). See online Supplementary Table S1 for a PRISMA checklist.

This systematic review reports the findings regarding autistic CYP and mixed samples of adults and CYP when only combined outcomes were available. A separate systematic review was conducted regarding autistic adults (Loizou et al., Reference Loizou, Pemovska, Stefanidou, Foye, Cooper, Kular and Johnson2023).

Search strategy

A systematic literature search using keywords and subject headings relating to autism and mental health problems and services/treatments was conducted in three electronic databases (Medline, PsycINFO, CINHAL) and two pre-print servers (medRxiv and PsyArXiv) for papers published between 1994 and July 2022. The date range was chosen to cover the Diagnostic and Statistical Manual of Mental Disorders fourth (DSM-IV) and fifth (DSM-5) edition periods, in line with International Classification of Diseases 10th and 11th edition (ICD-10/11). We searched for additional eligible papers through checking the reference lists of identified relevant systematic reviews and a call for evidence from experts including academics and lived experience networks. Online Supplementary Tables S2–S4 present the full search strategy.

Screening

The selection strategy was piloted, and reviewers conducted the title and abstract screening, using Rayyan (Ouzzani, Hammady, Fedorowicz, & Elmagarmid, Reference Ouzzani, Hammady, Fedorowicz and Elmagarmid2016), with a random 10% of records independently reviewed in duplicate (97.98% agreement). Full texts were screened independently in duplicate in line with Cochrane guidance (Higgins & Thomas, Reference Higgins, Thomas, Chandler, Cumpston, Li, Page and Welch2023). Discrepancies were resolved by discussion with a third reviewer and the working group.

Eligibility criteria

Population

Papers eligible for inclusion included CYP or mixed samples of CYP and adults (aged 18+ years) where data from autistic CYP could not be disentangled. Participants with an autism diagnosis or who suspected they were autistic or were identified by clinicians as potentially autistic were eligible. Views of carers and clinicians about mental health interventions for autistic CYP were also eligible. Papers with samples including both autistic and non-autistic people were excluded, unless data from autistic people could be isolated, or papers explored detection of autism. There was no minimum sample size required for inclusion.

Strategies

We included papers that assessed any strategies/adaptations to improve mental health care for autistic CYP, including: (1) bespoke mental health interventions originally developed for autistic people, (2) adaptations to existing mental health interventions, and (3) service-level strategies (e.g. strategies to detect autism) within mental health services and/or in mental health care delivered in primary care. Authors were contacted if the setting or the intervention's eligibility and classification as adapted/bespoke were unclear. Papers were eligible regardless of the presence and type of comparison group.

Outcomes

Eligible outcomes were any quantitative or qualitative measure of feasibility (e.g. recruitment adherence, retention rates), service use (e.g. engagement), acceptability of care, experience of and satisfaction with care, and/or quantitative measure of mental health, detection of autism, quality of life, service use, and social outcomes (e.g. social functioning) at end of treatment or follow-up. Papers measuring only physical health outcomes were excluded.

Study types

All study designs and service evaluations were eligible for the first and second research question, and only empirical quantitative studies were eligible for the third research question. Reviews, case studies without group analysis, commentaries, book chapters, editorials, letters, and conference abstracts were excluded.

Data extraction

Reviewers extracted data including study design and aims, setting, sample size, participant characteristics (e.g. age, ethnicity, diagnosis), outcome measures, strategies and adaptations (e.g. type, brief description, parent/carer involvement), and relevant findings (feasibility, acceptability, effectiveness). The data extraction form was first piloted on 10% of the eligible papers, discussed with the working group and updated accordingly. The extracted data were checked by at least one other reviewer, thus at least two reviewers reached consensus of the extracted information. Two researchers independently double-extracted raw end-of-treatment (EOT) outcome data (mean, standard deviation, sample size per group) for the meta-analyses.

Autism-inclusive research assessment

Lived experience researchers in the working group observed that relevant studies might not have been sufficiently inclusive of autistic experiences (e.g. allowing non-verbal communication, using straightforward language, using measures valid for autistic people). Therefore, a lived experience researcher (RRO) developed criteria derived from existing literature and personal experience, labeled the Autism-Inclusive Research Assessment (AIRA), to measure the extent of autism-inclusive practices in research. The criteria were first used in our systematic review regarding autistic adults (Loizou et al., Reference Loizou, Pemovska, Stefanidou, Foye, Cooper, Kular and Johnson2023) but were also piloted on papers with CYP in the present review to determine applicability. The five assessment criteria for the AIRA are: (1) reported lived experience involvement in the design, conduct, or write-up of the paper; (2) reported adjustments made to data collection process for papers with qualitative elements (Benford & Standen, Reference Benford and Standen2011); (3) reported adjustments made to data collection tools for papers with quantitative elements (Nicolaidis et al., Reference Nicolaidis, Raymaker, McDonald, Lund, Leotti, Kapp and Zhen2020); (4) reported adaptations or validity of relevant outcome measures for autistic people for papers with quantitative elements; (5) if the evaluated intervention/strategy in papers with quantitative elements was perceived to contain some focus on masking/changing people's autistic traits, which might have not inherently caused distress or worsened quality of life (Chapman & Botha, Reference Chapman and Botha2023), rather than solely focusing on improving mental health. Two researchers extracted all relevant data, and a lived experience researcher was involved as second assessor of the final criterion.

Quality and certainty of available evidence

Reviewers assessed study quality using the Mixed Methods Appraisal Tool (MMAT) (Hong et al., Reference Hong, Fàbregues, Bartlett, Boardman, Cargo, Dagenais and Pluye2018). All scores were checked by a second reviewer and consensus was reached. Reviewers independently double-evaluated the strength of evidence about effectiveness of cognitive behavioral therapy (CBT) for anxiety synthesized via meta-analyses using the Grading of Recommendations Assessment, Development and Evaluation (GRADE) system (Guyatt et al., Reference Guyatt, Oxman, Vist, Kunz, Falck-Ytter, Alonso-Coello and Schünemann2008). Additionally, the strength of the narratively synthesized effectiveness evidence of all interventions/strategies was double-evaluated using GRADE adapted for narrative synthesis (Murad, Mustafa, Schünemann, Sultan, & Santesso, Reference Murad, Mustafa, Schünemann, Sultan and Santesso2017).

Evidence synthesis

We conducted a narrative synthesis following Economic and Social Research Council guidelines (Popay et al., Reference Popay, Roberts, Sowden, Petticrew, Arai, Rodgers and Duffy2006). With the input of lived experience researchers, the identified intervention-level and service-level adaptations were grouped into categories and sub-categories according to shared commonalities. This was informed by our previous review relating to autistic adults (Loizou et al., Reference Loizou, Pemovska, Stefanidou, Foye, Cooper, Kular and Johnson2023) and refined based on the current included studies.

The included papers were grouped into service-level strategies or interventions to synthesize the extracted outcome data. Service-level strategies were categorized based on their focus. Different interventions were characterized based on type, format, bespoke/adapted therapy, and focus. To distinguish between bespoke and adapted interventions, we relied on authors' descriptions in the papers or their responses when more clarification was needed. We considered interventions to be bespoke (e.g. Facing Your Fears – FYF) if authors reported they were originally designed for autistic people. Authors themselves were primarily involved in developing these interventions/manuals for their study and they were used unmodified. These were considered bespoke interventions regardless of whether they had been based on mainstream CBT or mindfulness principles. We considered the interventions as adapted if authors reported testing adapted existing interventions not originally designed specifically for autistic people. The same approach was used to classify modified versions of interventions originally designed for autistic people, e.g. changed original mode of delivery for FYF to telehealth delivery or developmentally modified version of FYF for use with adolescents.

The extracted data for the AIRA were synthesized descriptively. The feasibility/acceptability findings were synthesized from all contributing study types. We synthesized the effectiveness findings, placing greater importance on randomized controlled trials (RCTs) and non-randomized controlled trials making contemporaneous comparisons rather than before-and-after comparisons. Upon inspection of the included papers, a meta-analysis was deemed appropriate, as a large subset of pilot RCTs and RCTs appeared to be sufficiently homogenous in outcome, intervention, and population. Three meta-analyses were conducted for ratings respectively by children/care recipients, parents/carers, and clinicians to examine whether bespoke/adapted CBT for anxiety is superior to any control condition (active and non-active) in reducing anxiety symptoms at EOT. Separate analyses were performed, as previous meta-analyses have found differences across raters (Sharma, Hucker, Matthews, Grohmann, & Laws, Reference Sharma, Hucker, Matthews, Grohmann and Laws2021; Sukhodolsky, Bloch, Panza, & Reichow, Reference Sukhodolsky, Bloch, Panza and Reichow2013).

The R-package ‘metafor’ (Viechtbauer, Reference Viechtbauer2010) was used to calculate the standardized mean difference (SMD), correcting for small sample sizes (Hedges' g) between groups at EOT. Effect sizes were significant if p < 0.05, and were tentatively interpreted as small (0.2), medium (0.5), and large (0.8) (Cohen, Reference Cohen1988). Random-effects models were used to account for variability in the average effect size across papers (Hedges, Reference Hedges1992). Heterogeneity was assessed using Cochran's Q (significant if p < 0.05) (Cochran, Reference Cochran1954) and Higgins' I (25% = low, 50% = moderate, 75% = high) (Higgins, Thompson, Deeks, & Altman, Reference Higgins, Thompson, Deeks and Altman2003).

Sensitivity analysis was performed by removing outliers from the models. Where there were sufficient studies (k > 10), meta-regression analyses were conducted to examine the moderating effects of type (adapted, bespoke) and format (individual, group, combined) of CBT on effectiveness. Funnel plots were visually inspected, and Egger's test (significant if p < 0.05) (Egger, Smith, Schneider, & Minder, Reference Egger, Smith, Schneider and Minder1997) was conducted to test for publication bias.

Results

Study selection

Figure 1 shows the PRISMA flow diagram. In total, 57 papers were eligible for inclusion and a full list of studies excluded at full-text screening with reasons is presented in online Supplementary Table S5.

Figure 1. PRISMA flowchart.

Study characteristics

Of the 57 papers, 23 were RCTs (Chalfant, Rapee, & Carroll, Reference Chalfant, Rapee and Carroll2007; Cook, Donovan, & Garnett, Reference Cook, Donovan and Garnett2017; Factor et al., Reference Factor, Swain, Antezana, Muskett, Gatto, Radtke and Scarpa2019; Fujii et al., Reference Fujii, Renno, McLeod, Lin, Decker, Zielinski and Wood2013; Kilburn et al., Reference Kilburn, Sørensen, Thastum, Rapee, Rask, Arendt and Thomsen2020; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; Maskey et al., Reference Maskey, Rodgers, Grahame, Glod, Honey, Kinnear and Parr2019b; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014; Murphy et al., Reference Murphy, Chowdhury, White, Reynolds, Donald, Gahan and Press2017; Reaven, Blakeley-Smith, Culhane-Shelburne, & Hepburn, Reference Reaven, Blakeley-Smith, Culhane-Shelburne and Hepburn2012a; Reaven et al., Reference Reaven, Moody, Grofer Klinger, Keefer, Duncan, O'Kelley and Blakeley-Smith2018; Russell et al., Reference Russell, Jassi, Fullana, Mack, Johnston, Heyman and Mataix-Cols2013; Santomauro, Sheffield, & Sofronoff, Reference Santomauro, Sheffield and Sofronoff2016; Scarpa & Reyes, Reference Scarpa and Reyes2011; Sofronoff, Attwood, & Hinton, Reference Sofronoff, Attwood and Hinton2005; Storch et al., Reference Storch, Arnold, Lewin, Nadeau, Jones, De Nadai and Murphy2013, Reference Storch, Lewin, Collier, Arnold, De Nadai, Dane and Murphy2015, Reference Storch, Schneider, De Nadai, Selles, McBride, Grebe and Lewin2020; Sung et al., Reference Sung, Ooi, Goh, Pathy, Fung, Ang and Lam2011; Walsh et al., Reference Walsh, Moody, Blakeley-Smith, Duncan, Hepburn, Keefer and Reaven2018; White et al., Reference White, Ollendick, Albano, Oswald, Johnson, Southam-Gerow and Scahill2013; White, Schry, Miyazaki, Ollendick, & Scahill, Reference White, Schry, Miyazaki, Ollendick and Scahill2015; Wood et al., Reference Wood, Ehrenreich-May, Alessandri, Fujii, Renno, Laugeson and Storch2015), of which 11 were pilot RCTs (Cook et al., Reference Cook, Donovan and Garnett2017; Fujii et al., Reference Fujii, Renno, McLeod, Lin, Decker, Zielinski and Wood2013; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; Maskey et al., Reference Maskey, Rodgers, Grahame, Glod, Honey, Kinnear and Parr2019b; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014; Murphy et al., Reference Murphy, Chowdhury, White, Reynolds, Donald, Gahan and Press2017; Santomauro et al., Reference Santomauro, Sheffield and Sofronoff2016; Scarpa & Reyes, Reference Scarpa and Reyes2011; Storch et al., Reference Storch, Schneider, De Nadai, Selles, McBride, Grebe and Lewin2020; White et al., Reference White, Ollendick, Albano, Oswald, Johnson, Southam-Gerow and Scahill2013, Reference White, Schry, Miyazaki, Ollendick and Scahill2015) and two were also mixed-method studies including and RCT (Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014), three were non-randomized controlled trials (Hepburn, Blakeley-Smith, Wolff, & Reaven, Reference Hepburn, Blakeley-Smith, Wolff and Reaven2016; McGillivray & Evert, Reference McGillivray and Evert2014; Reaven et al., Reference Reaven, Blakeley-Smith, Nichols, Dasari, Flanigan and Hepburn2009), 20 were before-after comparisons (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Burke, Prendeville, & Veale, Reference Burke, Prendeville and Veale2017; Dreiling, Cook, Lamarche, & Klinger, Reference Dreiling, Cook, Lamarche and Klinger2022; Driscoll, Schonberg, Stark, Carter, & Hirshfeld-Becker, Reference Driscoll, Schonberg, Stark, Carter and Hirshfeld-Becker2020; Drüsedau et al., Reference Drüsedau, Schoba, Conzelmann, Sokolov, Hautzinger, Renner and Barth2022; Ehrenreich-May et al., Reference Ehrenreich-May, Storch, Queen, Hernandez Rodriguez, Ghilain, Alessandri and Wood2014; Ekman, Hiltunen, Ekman, & Hiltunen, Reference Ekman, Hiltunen, Ekman and Hiltunen2015; Helverschou et al., Reference Helverschou, Bakken, Berge, Bjørgen, Botheim, Hellerud and Howlin2021; Higgins, Slattery, Perry, & O'Shea, Reference Higgins, Slattery, Perry and O'Shea2019; Keefer et al., Reference Keefer, Kreiser, Singh, Blakeley-Smith, Duncan, Johnson and Vasa2017; Kilburn et al., Reference Kilburn, Juul Sørensen, Thastum, Rapee, Rask, Bech Arendt and Thomsen2019; Maskey et al., Reference Maskey, McConachie, Rodgers, Grahame, Maxwell, Tavernor and Parr2019a; Oerbeck, Overgaard, Attwood, & Bjaastad, Reference Oerbeck, Overgaard, Attwood and Bjaastad2021; Ollendick, Muskett, Radtke, & Smith, Reference Ollendick, Muskett, Radtke and Smith2021; Reaven et al., Reference Reaven, Blakeley-Smith, Beattie, Sullivan, Moody, Stern and Smith2015; Reaven, Blakeley-Smith, Leuthe, Moody, & Hepburn, Reference Reaven, Blakeley-Smith, Leuthe, Moody and Hepburn2012b; Sofronoff, Silva, & Beaumont, Reference Sofronoff, Silva and Beaumont2017; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020; Swain, Murphy, Hassenfeldt, Lorenzi, & Scarpa, Reference Swain, Murphy, Hassenfeldt, Lorenzi and Scarpa2019; Wise et al., Reference Wise, Cepeda, Ordaz, McBride, Cavitt, Howie and Storch2019), of which two were also mixed-method studies (Burke et al., Reference Burke, Prendeville and Veale2017; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019), two papers compared different samples before and after implementation of a new care pathway (Cervantes et al., Reference Cervantes, Kuriakose, Donnelly, Filton, Marr, Okparaeke and Horwitz2019; Kuriakose et al., Reference Kuriakose, Filton, Marr, Okparaeke, Cervantes, Siegel and Havens2018), seven were surveys (Cooper, Loades, & Russell, Reference Cooper, Loades and Russell2018; Fisher, van Diest, Leoni, & Spain, Reference Fisher, van Diest, Leoni and Spain2023; Ford et al., Reference Ford, Kenchington, Norman, Hancock, Smalley, Henley and Logan2019; Hollocks et al., Reference Hollocks, Casson, White, Dobson, Beazley and Humphrey2019; Jones, Gangadharan, Brigham, Smith, & Shankar Background, Reference Jones, Gangadharan, Brigham, Smith and Shankar Background2021; Pickard et al., Reference Pickard, Blakeley-Smith, Boles, Duncan, Keefer, O'Kelley and Reaven2020; Stadnick, Brookman-Frazee, Nguyen Williams, Cerda, & Akshoomoff, Reference Stadnick, Brookman-Frazee, Nguyen Williams, Cerda and Akshoomoff2015), of which two were also mixed-method studies (Fisher et al., Reference Fisher, van Diest, Leoni and Spain2023; Pickard et al., Reference Pickard, Blakeley-Smith, Boles, Duncan, Keefer, O'Kelley and Reaven2020), and two were qualitative only (Petty, Bergenheim, Mahoney, & Chamberlain, Reference Petty, Bergenheim, Mahoney and Chamberlain2021; Spain et al., Reference Spain, Rumball, O'Neill, Sin, Prunty and Happé2017). There were multiple papers that were from the same trials (Cervantes et al., Reference Cervantes, Kuriakose, Donnelly, Filton, Marr, Okparaeke and Horwitz2019; Keefer et al., Reference Keefer, Kreiser, Singh, Blakeley-Smith, Duncan, Johnson and Vasa2017; Kuriakose et al., Reference Kuriakose, Filton, Marr, Okparaeke, Cervantes, Siegel and Havens2018; Pickard et al., Reference Pickard, Blakeley-Smith, Boles, Duncan, Keefer, O'Kelley and Reaven2020; Reaven et al., Reference Reaven, Moody, Grofer Klinger, Keefer, Duncan, O'Kelley and Blakeley-Smith2018; Walsh et al., Reference Walsh, Moody, Blakeley-Smith, Duncan, Hepburn, Keefer and Reaven2018; White et al., Reference White, Ollendick, Albano, Oswald, Johnson, Southam-Gerow and Scahill2013, Reference White, Schry, Miyazaki, Ollendick and Scahill2015), thus 57 papers reported on 52 studies. All studies were conducted in high-income countries, mainly in the United Kingdom and United States. Study characteristics are reported in Table 1 and online Supplementary Table S6.

Table 1. Study characteristics

Note: Where age characteristics are not listed in the table this means that they were not reported in the paper. ADHD, Attention Deficit Hyperactivity Disorder; ADOS, Autism Diagnostic Observation Schedule; ASC, Autism Spectrum Conditions; ASD-CP, Autism Spectrum Disorder Care; AUP, Pathway Autism Intellectual Disability and Psychiatric Disorder; BIACA, Behavioral Interventions for Anxiety in Children with Autism; CBT, Cognitive Behavioral Therapy; CYP, Children and Young People; DAWBA, Development and Well-Being Assessment; ECHO, Extension for Community Healthcare Outcomes; EMDR, Eye Movement Desensitisation and Reprocessing; FET, Family-based exposure-focused treatment; FYF, Facing Your Fears; IAPT, Improving Access to Psychological Therapies; ID, Intellectual Disability; MASSI, Multimodal Anxiety and Social Skills Intervention; OCD, Obsessive Compulsive Disorder; OST, One-Session Treatment; PTSD, Post Traumatic Stress Disorder; RCT, Randomized Controlled Trial; SAS, Secret Agent Society; SCQ, Social Communication Questionnaire; STAMP, Stress and Anger Management Programme; TAU, Treatment as Usual; TüTASS, Tübinger Training for Autism Spectrum Disorders.

a Three parents had two children in the study.

Quality appraisal and publication bias

According to appraisal using the MMAT, for RCTs, 13 papers were of high (≥4 criteria met), 5 papers were of moderate (3 criteria met), and 3 papers were of low quality (≤2 criteria met). Appropriate randomization and blind outcome assessors were the main areas of concern for RCTs. For non-randomized studies, 6 were of high, 15 of moderate, and 2 of low quality. These studies often did not meet the criteria for representativeness and confounder adjustment. For quantitative descriptive studies, three were of high, one of moderate, and one of low quality. Nonresponse bias was the main area of concern for these studies. For mixed-method studies, five were of high (of which two combined RCT with qualitative methods), and one of low quality. The two qualitative studies were of high quality. All MMAT ratings are shown in online Supplementary Table S7. Visual inspection of the funnel plots showed outliers (online Supplementary Fig. S1). Egger's test was significant (child/self z = 2.13, p = 0.033; parent z = 4.70, p < 0.001; clinician z = 3.99, p < 0.001), suggesting the presence of publication bias.

Autism-inclusive research assessment

Four out of 57 papers (7%) reported involvement of autistic people in study design or delivery. One of the 10 papers (10%) with a qualitative element reported adjustments to the data collection process (e.g. allowing non-verbal communication). Five out of 55 papers (9%) with a quantitative element reported making some adjustments to the data collection tools (e.g. defining key terms, using straightforward language, adapting Likert scales for greater precision, using visual tools). Thirteen out of 55 papers (24%) with a quantitative element reported using at least one valid or adapted measure for autistic individuals relevant to the review. For 12 of the 50 papers (24%) with a quantitative element that measured outcomes in autistic mental health service users, the intervention/strategy was identified to involve some focus on masking people's autistic traits. However, 36 of the 50 papers (72%) did not include any evidence to suggest such a focus, and this was unclear for 2 of the 50 papers (4%). All extracted data from the AIRA are shown in online Supplementary Table S8.

Sample characteristics

Sample sizes at baseline in the papers ranged from 7 to 132 autistic participants (median 32, n = 43 studies), 62–302 participants (median 77, n = 3 studies) for studies of strategies to improve the detection of autism, 11–105 parents (median 33, n = 18 studies), and 15–103 clinicians (median 42, n = 8 studies). Fifty papers included CYP, all of whom were given an autism diagnosis, except for three papers regarding initiatives to improve the detection of autism. Two papers included participants with co-occurring intellectual disability (ID). Forty-seven papers described co-occurring mental health difficulties at baseline. Forty-three papers included CYP with an age range of 3–18 years, and seven papers reported on combined outcomes of CYP and adults with an age range of 13–66 years. Ten papers included clinicians as participants. Detailed sample characteristics are in online Supplementary Table S6.

Data synthesis

Strategies used to improve mental health care in autism

Identified strategies included service-level strategies (n = 10) and adapted/bespoke mental health interventions (n = 47). From the identified intervention-level and service-level adaptations, those regarding communication and intervention content were most frequently reported, and adjustment to the environment were least included. Most papers focused on CBT-based mental health interventions for anxiety. Additionally, 37 papers described caregiver involvement in therapy, such as being offered separate/combined sessions. Table 1 and online Supplementary Table S6 contain descriptions of the included strategies and caregiver involvement.

Service-level strategies and adapted interventions

Ten papers explored service-level strategies applied to improve mental health care for autistic people across a service. These papers explored initiatives to improve the detection of autism (Ford et al., Reference Ford, Kenchington, Norman, Hancock, Smalley, Henley and Logan2019; Hollocks et al., Reference Hollocks, Casson, White, Dobson, Beazley and Humphrey2019; Stadnick et al., Reference Stadnick, Brookman-Frazee, Nguyen Williams, Cerda and Akshoomoff2015), strategies for improving clinicians' skills and knowledge of autism (Cervantes et al., Reference Cervantes, Kuriakose, Donnelly, Filton, Marr, Okparaeke and Horwitz2019; Dreiling et al., Reference Dreiling, Cook, Lamarche and Klinger2022; Helverschou et al., Reference Helverschou, Bakken, Berge, Bjørgen, Botheim, Hellerud and Howlin2021; Kuriakose et al., Reference Kuriakose, Filton, Marr, Okparaeke, Cervantes, Siegel and Havens2018), and general adaptations to standard practice concerning the way mental health services are organized for autistic people (Jones et al., Reference Jones, Gangadharan, Brigham, Smith and Shankar Background2021; Petty et al., Reference Petty, Bergenheim, Mahoney and Chamberlain2021; Spain et al., Reference Spain, Rumball, O'Neill, Sin, Prunty and Happé2017).

Twenty-eight papers described studies of adapted mental health interventions to meet the needs of autistic people. These included adaptations of group or individual CBT for anxiety (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Burke et al., Reference Burke, Prendeville and Veale2017; Chalfant et al., Reference Chalfant, Rapee and Carroll2007; Cook et al., Reference Cook, Donovan and Garnett2017; Driscoll et al., Reference Driscoll, Schonberg, Stark, Carter and Hirshfeld-Becker2020; Ehrenreich-May et al., Reference Ehrenreich-May, Storch, Queen, Hernandez Rodriguez, Ghilain, Alessandri and Wood2014; Ekman et al., Reference Ekman, Hiltunen, Ekman and Hiltunen2015; Fujii et al., Reference Fujii, Renno, McLeod, Lin, Decker, Zielinski and Wood2013; Hepburn et al., Reference Hepburn, Blakeley-Smith, Wolff and Reaven2016; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Kilburn et al., Reference Kilburn, Juul Sørensen, Thastum, Rapee, Rask, Bech Arendt and Thomsen2019, Reference Kilburn, Sørensen, Thastum, Rapee, Rask, Arendt and Thomsen2020; Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021; Ollendick et al., Reference Ollendick, Muskett, Radtke and Smith2021; Reaven et al., Reference Reaven, Blakeley-Smith, Leuthe, Moody and Hepburn2012b; Russell et al., Reference Russell, Jassi, Fullana, Mack, Johnston, Heyman and Mataix-Cols2013; Storch et al., Reference Storch, Arnold, Lewin, Nadeau, Jones, De Nadai and Murphy2013, Reference Storch, Lewin, Collier, Arnold, De Nadai, Dane and Murphy2015, Reference Storch, Schneider, De Nadai, Selles, McBride, Grebe and Lewin2020; Sung et al., Reference Sung, Ooi, Goh, Pathy, Fung, Ang and Lam2011; Wise et al., Reference Wise, Cepeda, Ordaz, McBride, Cavitt, Howie and Storch2019; Wood et al., Reference Wood, Ehrenreich-May, Alessandri, Fujii, Renno, Laugeson and Storch2015), group CBT targeting emotion regulation (Factor et al., Reference Factor, Swain, Antezana, Muskett, Gatto, Radtke and Scarpa2019; Scarpa & Reyes, Reference Scarpa and Reyes2011; Sofronoff et al., Reference Sofronoff, Silva and Beaumont2017; Swain et al., Reference Swain, Murphy, Hassenfeldt, Lorenzi and Scarpa2019), individual CBT for various mental health needs (Cooper et al., Reference Cooper, Loades and Russell2018), and Eye Movement Desensitisation and Reprocessing (EMDR) (Fisher et al., Reference Fisher, van Diest, Leoni and Spain2023). Studies with a comparison group most often compared the adapted interventions to non-active controls, and none compared it to a non-adapted version of the same intervention.

Seven top-level adaptation categories were identified from these papers exploring service- and intervention-level adaptations:

  • Increasing knowledge and detection of autism (n = 10, e.g. use of screening tools, clinician training).

  • Adjustments to the physical environment (n = 6, e.g. minimizing sensory distractions, providing ear defenders, weighted blankets, fidget toys, and movement breaks).

  • Communication accommodations (n = 20, e.g. being directive, adjusting the communication pace, using preferred language, using written information on whiteboard, activity books, agendas, and visual aids like drawings, videos, using social stories, and using a computer to reduce face-to-face contact).

  • Accommodating individual differences (n = 16, e.g. evaluating preferences and needs, encouraging special interests and hobbies, and tailoring treatment to these by being flexible with the treatment manual).

  • Structural or procedural adaptations (n = 15, e.g. changing the format, duration, or number of sessions, having predictable session routines and structured approach to treatment with details communicated in advance).

  • Intervention content adaptations (n = 24, e.g. removing or simplifying psychoeducation and cognitive elements of the intervention, incorporating arts-based activities, using role-play, rewards, taking a progressive approach to treatment with opportunity for repetition and practice)

  • Involving the wider support network (n = 18, e.g. involving parents and child's school to support active transfer of skills/therapy goals from clinic to home and school)

More than one adaptation was identified in 31 out of 38 of these papers exploring service- and intervention-level adaptations, meaning papers crossed several categories. Most papers provided a general rationale for these adaptations as addressing barriers to mental health care. There were limited descriptions of specific adaptations and their rationale. Table 2 shows a breakdown of sub-categories which map to these top-level categories. Online Supplementary Table S9 includes details of the individual adaptations used by each paper.

Table 2. All service-level and intervention-level adaptations (simplified version) (N = 38)

Note: ADOS, Autism Diagnostic Observation Schedule; SCQ, Social Communication Questionnaire; DAWBA, Development and Well-Being Assessment.

a Several adaptations were often reported by the same article, meaning papers crossed several categories so the number of papers in this column does not add up to the total 38 contributing papers.

Bespoke interventions

Nineteen papers described bespoke mental health interventions originally developed for autistic CYP, often in part by the authors themselves, and tested in their unmodified version. These included a novel combined group and individual intervention for anxiety (Murphy et al., Reference Murphy, Chowdhury, White, Reynolds, Donald, Gahan and Press2017; White et al., Reference White, Ollendick, Albano, Oswald, Johnson, Southam-Gerow and Scahill2013, Reference White, Schry, Miyazaki, Ollendick and Scahill2015), individual interventions for anxiety in a virtual reality environment (Maskey et al., Reference Maskey, McConachie, Rodgers, Grahame, Maxwell, Tavernor and Parr2019a, Reference Maskey, Rodgers, Grahame, Glod, Honey, Kinnear and Parr2019b), group interventions for anxiety (Keefer et al., Reference Keefer, Kreiser, Singh, Blakeley-Smith, Duncan, Johnson and Vasa2017; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014; Pickard et al., Reference Pickard, Blakeley-Smith, Boles, Duncan, Keefer, O'Kelley and Reaven2020; Reaven et al., Reference Reaven, Blakeley-Smith, Nichols, Dasari, Flanigan and Hepburn2009, Reference Reaven, Blakeley-Smith, Culhane-Shelburne and Hepburn2012a, Reference Reaven, Blakeley-Smith, Beattie, Sullivan, Moody, Stern and Smith2015, Reference Reaven, Moody, Grofer Klinger, Keefer, Duncan, O'Kelley and Blakeley-Smith2018; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020; Walsh et al., Reference Walsh, Moody, Blakeley-Smith, Duncan, Hepburn, Keefer and Reaven2018), group interventions for anxiety, stress, and depression (McGillivray & Evert, Reference McGillivray and Evert2014) and for depression only (Santomauro et al., Reference Santomauro, Sheffield and Sofronoff2016), all utilizing CBT techniques. Additionally, they included a new group intervention for emotion regulation designed for autistic CYP based on mindfulness principles (Drüsedau et al., Reference Drüsedau, Schoba, Conzelmann, Sokolov, Hautzinger, Renner and Barth2022).

Acceptability, feasibility, and effectiveness of strategies used to improve mental health care for autistic CYP

Evaluation of service-level strategies

Ten papers evaluated service-level strategies, grouped into three categories depending on their focus. The main findings of service-level strategies are presented in Table 3, with detailed results of individual studies in online Supplementary Table S12. Online Supplementary Table S10 shows the GRADE assessment for effectiveness outcomes.

  1. 1. Detection of autism (n = 3).

Table 3. Main findings of individual/group and adapted/bespoke mental health interventions/strategies and service adaptations

Note: ADOS, Autism Diagnostic Observation Schedule; ASC, Autism spectrum condition; AM, anxiety management; CAMHS, Child and Adolescent Mental Health Services; CBT, Cognitive Behavioral Therapy; CYP, Children and young people; DAWBA, Development and Well-Being Assessment; EMDR, Eye Movement Desensitization and Reprocessing; IAPT, Improving Access to Psychological Therapies; ID, Intellectual Disability; OCD, Obsessive-compulsive disorder; PTSD, Post traumatic stress disorder; Ref., References; SCQ, Social Communication Questionnaire; SR, Social recreational program.

a Two papers were from the same service implementation.

b Four papers were from the same randomized controlled trial.

c Two papers were from the same pilot randomized controlled trial.

Overall, moderate certainty evidence suggested that some screening tools may be helpful in detection of autism in mental health services (online Supplementary Table S10). The Development and Well-being Assessment (DAWBA) was found to have moderate agreement with practitioner diagnosis of autism in child and adolescent mental health services (CAMHS), suggesting it may be useful to aid the diagnostic process (Ford et al., Reference Ford, Kenchington, Norman, Hancock, Smalley, Henley and Logan2019). Conversely, the Social Communication Questionnaire (SCQ) was found to not be an effective autism screening tool in CAMHS (Hollocks et al., Reference Hollocks, Casson, White, Dobson, Beazley and Humphrey2019). The Autism Diagnostic Observation Schedule (ADOS) administered in community mental health services was found to identify autistic CYP referred for an autism assessment (Stadnick et al., Reference Stadnick, Brookman-Frazee, Nguyen Williams, Cerda and Akshoomoff2015).

  1. 2. Strategies for improving clinicians' skills and autism knowledge (n = 4).

Strategies, involving training and guiding clinicians to provide better care across the lifespan to autistic people with co-occurring mental health needs, included the Extension for Community Healthcare Outcomes autism model in community services (Dreiling et al., Reference Dreiling, Cook, Lamarche and Klinger2022), the Autism Intellectual Disability and Psychiatric Disorder network in specialist mental health services (Helverschou et al., Reference Helverschou, Bakken, Berge, Bjørgen, Botheim, Hellerud and Howlin2021) and the Autism Spectrum Disorder Care Pathway in psychiatric emergency care (Cervantes et al., Reference Cervantes, Kuriakose, Donnelly, Filton, Marr, Okparaeke and Horwitz2019; Kuriakose et al., Reference Kuriakose, Filton, Marr, Okparaeke, Cervantes, Siegel and Havens2018).

The Extension for Community Healthcare Outcomes autism model was found feasible and acceptable to clinicians (Dreiling et al., Reference Dreiling, Cook, Lamarche and Klinger2022). All strategies were associated with significant improvements over time; however, causality cannot be concluded since there were no comparison groups. Overall, low-certainty evidence suggested that some strategies for improving clinicians' skills and knowledge of autism (Cervantes et al., Reference Cervantes, Kuriakose, Donnelly, Filton, Marr, Okparaeke and Horwitz2019; Dreiling et al., Reference Dreiling, Cook, Lamarche and Klinger2022; Helverschou et al., Reference Helverschou, Bakken, Berge, Bjørgen, Botheim, Hellerud and Howlin2021; Kuriakose et al., Reference Kuriakose, Filton, Marr, Okparaeke, Cervantes, Siegel and Havens2018) may be helpful in improving mental health of autistic individuals (online Supplementary Table S10).

  1. 3. General adaptations to services (n = 3).

Clinicians reported using a range of adaptations in inpatient units (Jones et al., Reference Jones, Gangadharan, Brigham, Smith and Shankar Background2021), a specialist autism service (Petty et al., Reference Petty, Bergenheim, Mahoney and Chamberlain2021), and inpatient and outpatient services (Spain et al., Reference Spain, Rumball, O'Neill, Sin, Prunty and Happé2017). All papers described clinicians modifying the environment and communication and reported clinicians evaluating and adapting practice based on individual needs. Only one reported on clinicians providing structure to reduce uncertainty (Petty et al., Reference Petty, Bergenheim, Mahoney and Chamberlain2021). None of the papers evaluated the impact of these general adaptations.

Evaluation of interventions

Forty-seven of the included papers, broadly grouped based on similarities in type and focus in four intervention categories, evaluated the effectiveness of interventions in improving autistic individuals' mental health and/or their acceptability/feasibility. The main findings of evaluated interventions are presented in Table 3, with detailed results of individual studies in online Supplementary Table S12. Online Supplementary Tables S10 and S11 show the GRADE assessment for effectiveness outcomes.

  1. 1. CBT for anxiety (n = 38).

Thirty-five out of the 38 papers that tested adapted or bespoke individual, group, or combined individual and group CBT for anxiety, reported feasibility outcomes. All 35 papers reported the interventions were feasible largely based on low drop-out rates, high attendance rates, and treatment fidelity (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Chalfant et al., Reference Chalfant, Rapee and Carroll2007; Driscoll et al., Reference Driscoll, Schonberg, Stark, Carter and Hirshfeld-Becker2020; Ehrenreich-May et al., Reference Ehrenreich-May, Storch, Queen, Hernandez Rodriguez, Ghilain, Alessandri and Wood2014; Fujii et al., Reference Fujii, Renno, McLeod, Lin, Decker, Zielinski and Wood2013; Hepburn et al., Reference Hepburn, Blakeley-Smith, Wolff and Reaven2016; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Keefer et al., Reference Keefer, Kreiser, Singh, Blakeley-Smith, Duncan, Johnson and Vasa2017; Kilburn et al., Reference Kilburn, Juul Sørensen, Thastum, Rapee, Rask, Bech Arendt and Thomsen2019, Reference Kilburn, Sørensen, Thastum, Rapee, Rask, Arendt and Thomsen2020; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; Maskey et al., Reference Maskey, McConachie, Rodgers, Grahame, Maxwell, Tavernor and Parr2019a, Reference Maskey, Rodgers, Grahame, Glod, Honey, Kinnear and Parr2019b; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014; Murphy et al., Reference Murphy, Chowdhury, White, Reynolds, Donald, Gahan and Press2017; Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021; Ollendick et al., Reference Ollendick, Muskett, Radtke and Smith2021; Pickard et al., Reference Pickard, Blakeley-Smith, Boles, Duncan, Keefer, O'Kelley and Reaven2020; Reaven et al., Reference Reaven, Blakeley-Smith, Nichols, Dasari, Flanigan and Hepburn2009, Reference Reaven, Blakeley-Smith, Culhane-Shelburne and Hepburn2012a, Reference Reaven, Blakeley-Smith, Leuthe, Moody and Hepburn2012b, Reference Reaven, Blakeley-Smith, Beattie, Sullivan, Moody, Stern and Smith2015, Reference Reaven, Moody, Grofer Klinger, Keefer, Duncan, O'Kelley and Blakeley-Smith2018; Russell et al., Reference Russell, Jassi, Fullana, Mack, Johnston, Heyman and Mataix-Cols2013; Sofronoff et al., Reference Sofronoff, Attwood and Hinton2005; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020; Storch et al., Reference Storch, Arnold, Lewin, Nadeau, Jones, De Nadai and Murphy2013, Reference Storch, Lewin, Collier, Arnold, De Nadai, Dane and Murphy2015, Reference Storch, Schneider, De Nadai, Selles, McBride, Grebe and Lewin2020; Sung et al., Reference Sung, Ooi, Goh, Pathy, Fung, Ang and Lam2011; Walsh et al., Reference Walsh, Moody, Blakeley-Smith, Duncan, Hepburn, Keefer and Reaven2018; White et al., Reference White, Ollendick, Albano, Oswald, Johnson, Southam-Gerow and Scahill2013, Reference White, Schry, Miyazaki, Ollendick and Scahill2015; Wise et al., Reference Wise, Cepeda, Ordaz, McBride, Cavitt, Howie and Storch2019; Wood et al., Reference Wood, Ehrenreich-May, Alessandri, Fujii, Renno, Laugeson and Storch2015). Twenty-three out of 38 papers reported acceptability outcomes of adapted/bespoke individual, group, or combined CBT for anxiety for either CYP, parents, or clinicians. All 23 papers reported the interventions were acceptable based on participant-reported positive experiences and intervention satisfaction (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Burke et al., Reference Burke, Prendeville and Veale2017; Cook et al., Reference Cook, Donovan and Garnett2017; Ekman et al., Reference Ekman, Hiltunen, Ekman and Hiltunen2015; Hepburn et al., Reference Hepburn, Blakeley-Smith, Wolff and Reaven2016; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Kilburn et al., Reference Kilburn, Juul Sørensen, Thastum, Rapee, Rask, Bech Arendt and Thomsen2019, Reference Kilburn, Sørensen, Thastum, Rapee, Rask, Arendt and Thomsen2020; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014; Murphy et al., Reference Murphy, Chowdhury, White, Reynolds, Donald, Gahan and Press2017; Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021; Ollendick et al., Reference Ollendick, Muskett, Radtke and Smith2021; Pickard et al., Reference Pickard, Blakeley-Smith, Boles, Duncan, Keefer, O'Kelley and Reaven2020; Reaven et al., Reference Reaven, Blakeley-Smith, Culhane-Shelburne and Hepburn2012a, Reference Reaven, Blakeley-Smith, Leuthe, Moody and Hepburn2012b, Reference Reaven, Blakeley-Smith, Beattie, Sullivan, Moody, Stern and Smith2015; Russell et al., Reference Russell, Jassi, Fullana, Mack, Johnston, Heyman and Mataix-Cols2013; Sofronoff et al., Reference Sofronoff, Attwood and Hinton2005; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020; Walsh et al., Reference Walsh, Moody, Blakeley-Smith, Duncan, Hepburn, Keefer and Reaven2018; White et al., Reference White, Ollendick, Albano, Oswald, Johnson, Southam-Gerow and Scahill2013; Wood et al., Reference Wood, Ehrenreich-May, Alessandri, Fujii, Renno, Laugeson and Storch2015).

Facilitators to acceptability reported by participants included perceived positive intervention impact (Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Kilburn et al., Reference Kilburn, Sørensen, Thastum, Rapee, Rask, Arendt and Thomsen2020; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014; Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021; Ollendick et al., Reference Ollendick, Muskett, Radtke and Smith2021; Sofronoff et al., Reference Sofronoff, Attwood and Hinton2005; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020) and perceived usefulness of intervention's information/activities/techniques (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014; Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021; Reaven et al., Reference Reaven, Blakeley-Smith, Culhane-Shelburne and Hepburn2012a, Reference Reaven, Blakeley-Smith, Leuthe, Moody and Hepburn2012b, Reference Reaven, Blakeley-Smith, Beattie, Sullivan, Moody, Stern and Smith2015; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020; Walsh et al., Reference Walsh, Moody, Blakeley-Smith, Duncan, Hepburn, Keefer and Reaven2018). Feeling accepted/supported by the group (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014), interaction with others (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014; Sofronoff et al., Reference Sofronoff, Attwood and Hinton2005), and individual preparatory sessions prior to group sessions (Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016) also appeared important. Additionally, receiving preparatory handout for upcoming sessions (Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019), perceived parental confidence with the intervention content and thus being able to support their child (Sofronoff et al., Reference Sofronoff, Attwood and Hinton2005; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020), understanding assignments (Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021), and getting rewards (Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021) were seen as facilitators. Using visualization was viewed as helpful (Ekman et al., Reference Ekman, Hiltunen, Ekman and Hiltunen2015). Clinicians' participation in a short training workshop appeared to facilitate higher acceptability, as opposed to receiving additional ongoing feedback or only a manual (Walsh et al., Reference Walsh, Moody, Blakeley-Smith, Duncan, Hepburn, Keefer and Reaven2018).

Participants also reported barriers to acceptability, including perceiving the sessions to be too long/short (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016), difficulties with group dynamics (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016), feeling anxiety limited their learning (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021), feeling the individual sessions involved too much talking (Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021), perceived lack of learning (McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014), dissatisfaction with visuals (Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021), children‘s reluctance to talk to parents about content beyond the sessions (Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019), difficulties with homework assignments (Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021), and difficulties with making phone calls (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021). Practical issues related to transport, parking, heating in session rooms, and timings also appeared to hinder acceptability (Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016). The addition of bi-weekly feedback and consultation next to training workshops might have put clinicians under pressure (Walsh et al., Reference Walsh, Moody, Blakeley-Smith, Duncan, Hepburn, Keefer and Reaven2018).

Furthermore, clinicians who continued to implement group version of CBT for anxiety for at least four years following training reported tailoring, lengthening, removing, shortening, and supplementing the intervention's components to enhance and adapt it to the learning needs of CYP and carers (Pickard et al., Reference Pickard, Blakeley-Smith, Boles, Duncan, Keefer, O'Kelley and Reaven2020). Positive clinicians' views of the intervention's effectiveness, ease of use, and fit with existing service were perceived as facilitators for sustained use of this intervention. Reported barriers included the intervention no longer being relevant to the service, services being unable to support delivery, clinicians no longer working clinically, inability to obtain funding for intervention, and difficulties with group format of the intervention due to insufficient staffing and challenges with recruiting a group of CYP of the same age and level of support needs (Pickard et al., Reference Pickard, Blakeley-Smith, Boles, Duncan, Keefer, O'Kelley and Reaven2020).

Effectiveness of CBT for anxiety. Thirty-six out of 38 papers evaluating CBT for anxiety reported effectiveness outcomes. Sixteen RCTs/pilot RCTs testing effectiveness of adapted/bespoke individual, group, and combined CBT for anxiety compared to any control group were included in three meta-analyses depending on the rater of the autistic person's anxiety measure.

Child/self-rater meta-analysis: CBT was not significantly different from control, including treatment as usual (TAU), waitlist, adapted anxiety management (AM) and social recreation (SR), in reducing child/self-rated anxiety symptoms at EOT (k = 9, g = 0.34 [95% CI −0.15 to 0.84], p = 0.173) (Fig. 2) (moderate-certainty evidence, online Supplementary Table S11). There was significant heterogeneity among studies, Q(8) = 43.85, p < 0.001, I 2 = 81.75%. On removal of outliers (Chalfant et al., Reference Chalfant, Rapee and Carroll2007; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016), there were no significant differences between groups at EOT (k = 7, g = 0.17 [95% CI −0.07 to 0.40], p = 0.169), but heterogeneity reduced, Q(6) = 3.21, p = 0.782, I 2 = 0%.

Figure 2. Forest plots of meta-analyses comparing cognitive behavioral therapy (CBT) for anxiety with any control group in reducing anxiety symptom severity in autistic individuals.

Note: Continuous rather than dichotomous data were used, as this was the most frequent type of data across studies. Intention-to-treat was favored over completer analysis. In cases of trials with more than two arms (Reaven et al., Reference Reaven, Moody, Grofer Klinger, Keefer, Duncan, O'Kelley and Blakeley-Smith2018; Sofronoff et al., Reference Sofronoff, Attwood and Hinton2005), we compared the most intensive arm (treatment) to the least intensive (control). The following clinician-rated outcome measures were acceptable and included in the meta-analysis: the Anxiety Diagnostic Interview Schedule (ADIS), the Pediatric Anxiety Rating Scale (PARS), the Hamilton Rating Scale for Anxiety (HAM-A) and the Yale-Brown Obsessive Compulsive Scale (YBOCS). Four studies (Storch et al., Reference Storch, Arnold, Lewin, Nadeau, Jones, De Nadai and Murphy2013, Reference Storch, Lewin, Collier, Arnold, De Nadai, Dane and Murphy2015, Reference Storch, Schneider, De Nadai, Selles, McBride, Grebe and Lewin2020; Wood et al., Reference Wood, Ehrenreich-May, Alessandri, Fujii, Renno, Laugeson and Storch2015) used multiple clinician-rated outcomes. Given this, we favored primary outcome measures first (if reported in article or in protocol), followed by the most frequently used measure across studies (i.e. ADIS) to ensure consistency. Reaven et al. (Reference Reaven, Moody, Grofer Klinger, Keefer, Duncan, O'Kelley and Blakeley-Smith2018) and Murphy et al. (Reference Murphy, Chowdhury, White, Reynolds, Donald, Gahan and Press2017) reported on individual symptoms on the ADIS, rather than the total, hence scores were combined. Acceptable parent/carer-rated outcome measures were the Spence Children's Anxiety Scale (SCAS), the Multidimensional Anxiety Scale for Children (MASC), the Child and Adolescent Symptom Inventory-4 ASD Anxiety Scale (CASI-anx), the Child Behaviour Checklist (CBCL) and the Children's Obsessive Compulsive Inventory (CHOCI). Child/self-rated outcome measures included the Spence Children's Anxiety Scale (SCAS), the Revised Children's Manifest Anxiety Scale (RCMAS), the Revised Children's Anxiety and Depression Scale (RCADS), the Obsessive Compulsive Inventory – Revised (OCI-R) and the Liebowitz Social Anxiety Scale (LSAS). One trial (Chalfant et al. Reference Chalfant, Rapee and Carroll2007), used both the RCMAS and the SCAS, but the latter was favored, as it was the most commonly used outcome measure. Storch et al. (Reference Storch, Arnold, Lewin, Nadeau, Jones, De Nadai and Murphy2013) reported only subscales of the RCMAS, so the total mean was calculated.

Parent/carer-rater meta-analysis: There was a significant medium effect of CBT compared to control, including TAU, waitlist, counseling, adapted AM, and bespoke CBT (manual training only), in reducing parent/carer-ratings for anxiety symptoms at EOT (k = 12, g = 0.58 [95% CI 0.07 to 1.08], p = 0.0246) (moderate-certainty evidence, online Supplementary Table S11), and significant heterogeneity, Q(11) = 70.39, p < 0.001, I 2 = 84.37%. After removal of outliers (Chalfant et al., Reference Chalfant, Rapee and Carroll2007; Murphy et al., Reference Murphy, Chowdhury, White, Reynolds, Donald, Gahan and Press2017; Russell et al., Reference Russell, Jassi, Fullana, Mack, Johnston, Heyman and Mataix-Cols2013), the effect size was still significant (k = 9, g = 0.44 [95% CI 0.21–0.66], p < 0.001). Heterogeneity reduced, Q(8) = 4.99, p = 0.76, I 2 = 0%.

Clinician-rater meta-analysis: CBT had a significant small-to-medium effect on reducing clinician ratings for anxiety symptoms compared to control, including TAU, waitlist, counseling, and adapted AM (k = 12, g = 0.48 [95% CI 0.14–0.81], p = 0.005) (moderate-certainty evidence, online Supplementary Table S11). There was significant heterogeneity, Q(11) = 35.13, p < 0.001, I 2 = 68.69%. On removal of outliers (Reaven et al., Reference Reaven, Moody, Grofer Klinger, Keefer, Duncan, O'Kelley and Blakeley-Smith2018; Storch et al., Reference Storch, Schneider, De Nadai, Selles, McBride, Grebe and Lewin2020), the effect size remained significant (k = 10, g = 0.44 [95% CI 0.24–0.65], p < 0.001) and heterogeneity reduced, Q(9) = 8.58, p = 0.477, I 2 = 0%.

Meta-regression analyses: Bespoke CBT showed significantly worse clinician-rated anxiety at EOT compared to adapted CBT (b = −0.72 [95% CI −1.27 to −0.18], p = 0.009), based on six bespoke against six adapted trials. There were no other significant moderators (online Supplementary Table S13).

Seven of the RCTs/pilot RCTs included in the meta-analyses evaluating CBT for anxiety reported non-anxiety outcomes (Kilburn et al., Reference Kilburn, Sørensen, Thastum, Rapee, Rask, Arendt and Thomsen2020; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; Russell et al., Reference Russell, Jassi, Fullana, Mack, Johnston, Heyman and Mataix-Cols2013; Storch et al., Reference Storch, Arnold, Lewin, Nadeau, Jones, De Nadai and Murphy2013, Reference Storch, Lewin, Collier, Arnold, De Nadai, Dane and Murphy2015, Reference Storch, Schneider, De Nadai, Selles, McBride, Grebe and Lewin2020; White et al., Reference White, Ollendick, Albano, Oswald, Johnson, Southam-Gerow and Scahill2013). Four indicated significant group differences in social functioning at EOT in favor of adapted/bespoke individual or combined individual and group CBT compared to non-active control (Storch et al., Reference Storch, Arnold, Lewin, Nadeau, Jones, De Nadai and Murphy2013, Reference Storch, Lewin, Collier, Arnold, De Nadai, Dane and Murphy2015, Reference Storch, Schneider, De Nadai, Selles, McBride, Grebe and Lewin2020; White et al., Reference White, Ollendick, Albano, Oswald, Johnson, Southam-Gerow and Scahill2013). The remaining three, evaluating bespoke and adapted group CBT compared to non-active controls (Kilburn et al., Reference Kilburn, Sørensen, Thastum, Rapee, Rask, Arendt and Thomsen2020; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016), and adapted individual CBT for OCD compared to adapted AM (Russell et al., Reference Russell, Jassi, Fullana, Mack, Johnston, Heyman and Mataix-Cols2013) at EOT and follow-up, found no such effect. Two trials also showed no effect on depression (Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; Russell et al., Reference Russell, Jassi, Fullana, Mack, Johnston, Heyman and Mataix-Cols2013).

Studies not included in meta-analyses: Three pilot RCTs/RCTs that reported effectiveness outcomes for CBT for anxiety were not included in the meta-analysis due to having <10 participants per group (Fujii et al., Reference Fujii, Renno, McLeod, Lin, Decker, Zielinski and Wood2013) or no EOT data (only follow-up) (Maskey et al., Reference Maskey, McConachie, Rodgers, Grahame, Maxwell, Tavernor and Parr2019a; White et al., Reference White, Schry, Miyazaki, Ollendick and Scahill2015). They reported significant group differences in anxiety at EOT between adapted individual CBT and non-active control (Fujii et al., Reference Fujii, Renno, McLeod, Lin, Decker, Zielinski and Wood2013), but no significant group differences in anxiety and social functioning at 6-months post-treatment between bespoke individual CBT and non-active control (Maskey et al., Reference Maskey, McConachie, Rodgers, Grahame, Maxwell, Tavernor and Parr2019a). While anxiety worsened over 1-year follow-up after treatment with bespoke individual and group CBT ended, it did not revert to pre-treatment severity 1-year post-treatment (White et al., Reference White, Schry, Miyazaki, Ollendick and Scahill2015).

Two of the 36 papers reporting effectiveness outcomes were non-randomized controlled trials and reported an adapted/bespoke group CBT was effective for parent-reported CYP anxiety at EOT compared to non-active conditions (Hepburn et al., Reference Hepburn, Blakeley-Smith, Wolff and Reaven2016; Reaven et al., Reference Reaven, Blakeley-Smith, Nichols, Dasari, Flanigan and Hepburn2009), but not for CYP-rated anxiety (Reaven et al., Reference Reaven, Blakeley-Smith, Nichols, Dasari, Flanigan and Hepburn2009).

Fifteen before-and-after comparisons examined the effectiveness of adapted/bespoke individual/group CBT for anxiety (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Burke et al., Reference Burke, Prendeville and Veale2017; Driscoll et al., Reference Driscoll, Schonberg, Stark, Carter and Hirshfeld-Becker2020; Ehrenreich-May et al., Reference Ehrenreich-May, Storch, Queen, Hernandez Rodriguez, Ghilain, Alessandri and Wood2014; Ekman et al., Reference Ekman, Hiltunen, Ekman and Hiltunen2015; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Keefer et al., Reference Keefer, Kreiser, Singh, Blakeley-Smith, Duncan, Johnson and Vasa2017; Kilburn et al., Reference Kilburn, Juul Sørensen, Thastum, Rapee, Rask, Bech Arendt and Thomsen2019; Maskey et al., Reference Maskey, McConachie, Rodgers, Grahame, Maxwell, Tavernor and Parr2019a; Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021; Ollendick et al., Reference Ollendick, Muskett, Radtke and Smith2021; Reaven et al., Reference Reaven, Blakeley-Smith, Leuthe, Moody and Hepburn2012, Reference Reaven, Blakeley-Smith, Beattie, Sullivan, Moody, Stern and Smith2015; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020; Wise et al., Reference Wise, Cepeda, Ordaz, McBride, Cavitt, Howie and Storch2019). Statistically significant improvements in outcomes over time were reported in 14 of these 15 studies (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Driscoll et al., Reference Driscoll, Schonberg, Stark, Carter and Hirshfeld-Becker2020; Ehrenreich-May et al., Reference Ehrenreich-May, Storch, Queen, Hernandez Rodriguez, Ghilain, Alessandri and Wood2014; Ekman et al., Reference Ekman, Hiltunen, Ekman and Hiltunen2015; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Keefer et al., Reference Keefer, Kreiser, Singh, Blakeley-Smith, Duncan, Johnson and Vasa2017; Kilburn et al., Reference Kilburn, Juul Sørensen, Thastum, Rapee, Rask, Bech Arendt and Thomsen2019; Maskey et al., Reference Maskey, McConachie, Rodgers, Grahame, Maxwell, Tavernor and Parr2019a; Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021; Ollendick et al., Reference Ollendick, Muskett, Radtke and Smith2021; Reaven et al., Reference Reaven, Blakeley-Smith, Leuthe, Moody and Hepburn2012, Reference Reaven, Blakeley-Smith, Beattie, Sullivan, Moody, Stern and Smith2015; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020; Wise et al., Reference Wise, Cepeda, Ordaz, McBride, Cavitt, Howie and Storch2019). However, causality cannot be inferred since there were no comparison groups.

Considering all 36 papers that reported effectiveness outcomes of individual (Driscoll et al., Reference Driscoll, Schonberg, Stark, Carter and Hirshfeld-Becker2020; Ehrenreich-May et al., Reference Ehrenreich-May, Storch, Queen, Hernandez Rodriguez, Ghilain, Alessandri and Wood2014; Ekman et al., Reference Ekman, Hiltunen, Ekman and Hiltunen2015; Fujii et al., Reference Fujii, Renno, McLeod, Lin, Decker, Zielinski and Wood2013; Maskey et al., Reference Maskey, McConachie, Rodgers, Grahame, Maxwell, Tavernor and Parr2019a, Reference Maskey, Rodgers, Grahame, Glod, Honey, Kinnear and Parr2019b; Oerbeck et al., Reference Oerbeck, Overgaard, Attwood and Bjaastad2021; Ollendick et al., Reference Ollendick, Muskett, Radtke and Smith2021; Russell et al., Reference Russell, Jassi, Fullana, Mack, Johnston, Heyman and Mataix-Cols2013; Storch et al., Reference Storch, Arnold, Lewin, Nadeau, Jones, De Nadai and Murphy2013, Reference Storch, Lewin, Collier, Arnold, De Nadai, Dane and Murphy2015, Reference Storch, Schneider, De Nadai, Selles, McBride, Grebe and Lewin2020; Wise et al., Reference Wise, Cepeda, Ordaz, McBride, Cavitt, Howie and Storch2019; Wood et al., Reference Wood, Ehrenreich-May, Alessandri, Fujii, Renno, Laugeson and Storch2015), group (Bemmer et al., Reference Bemmer, Boulton, Thomas, Larke, Lah, Hickie and Guastella2021; Burke et al., Reference Burke, Prendeville and Veale2017; Chalfant et al., Reference Chalfant, Rapee and Carroll2007; Cook et al., Reference Cook, Donovan and Garnett2017; Hepburn et al., Reference Hepburn, Blakeley-Smith, Wolff and Reaven2016; Higgins et al., Reference Higgins, Slattery, Perry and O'Shea2019; Keefer et al., Reference Keefer, Kreiser, Singh, Blakeley-Smith, Duncan, Johnson and Vasa2017; Kilburn et al., Reference Kilburn, Juul Sørensen, Thastum, Rapee, Rask, Bech Arendt and Thomsen2019, Reference Kilburn, Sørensen, Thastum, Rapee, Rask, Arendt and Thomsen2020; Langdon et al., Reference Langdon, Murphy, Shepstone, Wilson, Fowler, Heavens and Mullineaux2016; McConachie et al., Reference McConachie, McLaughlin, Grahame, Taylor, Honey, Tavernor and Le Couteur2014; Reaven et al., Reference Reaven, Blakeley-Smith, Nichols, Dasari, Flanigan and Hepburn2009, Reference Reaven, Blakeley-Smith, Culhane-Shelburne and Hepburn2012a, Reference Reaven, Blakeley-Smith, Leuthe, Moody and Hepburn2012b, Reference Reaven, Blakeley-Smith, Beattie, Sullivan, Moody, Stern and Smith2015, Reference Reaven, Moody, Grofer Klinger, Keefer, Duncan, O'Kelley and Blakeley-Smith2018; Sofronoff et al., Reference Sofronoff, Attwood and Hinton2005; Solish et al., Reference Solish, Klemencic, Ritzema, Nolan, Pilkington, Anagnostou and Brian2020; Sung et al., Reference Sung, Ooi, Goh, Pathy, Fung, Ang and Lam2011) and combined (Murphy et al., Reference Murphy, Chowdhury, White, Reynolds, Donald, Gahan and Press2017; White et al., Reference White, Ollendick, Albano, Oswald, Johnson, Southam-Gerow and Scahill2013, Reference White, Schry, Miyazaki, Ollendick and Scahill2015) CBT for anxiety, which were synthesized narratively, moderate-certainty evidence suggested mixed results that these interventions may be helpful in reducing anxiety among autistic individuals (online Supplementary Table S10).

  1. 2. Interventions targeting emotion regulation (n = 5).

Three out of five papers evaluating adapted/bespoke group interventions targeting emotion regulation reported feasibility outcomes. Two papers separately reported that an adapted group CBT for autistic children aged 4–7 years with mental health difficulties (Factor et al., Reference Factor, Swain, Antezana, Muskett, Gatto, Radtke and Scarpa2019) and a bespoke group mindfulness-based intervention for autistic children aged 7–12 years with mental health difficulties (Drüsedau et al., Reference Drüsedau, Schoba, Conzelmann, Sokolov, Hautzinger, Renner and Barth2022) were feasible, based on low drop-out rates and high attendance. However, one paper found limited feasibility for a parent-delivered cognitive behavioral emotional and social skills intervention for autistic children as some parents reported difficulties with engaging their child to complete the program, time constraints, and interference with life events (Sofronoff et al., Reference Sofronoff, Silva and Beaumont2017). Two out of five papers reported on treatment satisfaction and showed the interventions were acceptable (Drüsedau et al., Reference Drüsedau, Schoba, Conzelmann, Sokolov, Hautzinger, Renner and Barth2022; Swain et al., Reference Swain, Murphy, Hassenfeldt, Lorenzi and Scarpa2019). Children and parents reported they enjoyed and benefited from the group mindfulness-based intervention, although homework and having sessions on a weekly basis contributed to some dissatisfaction (Drüsedau et al., Reference Drüsedau, Schoba, Conzelmann, Sokolov, Hautzinger, Renner and Barth2022). Parents noted that psychoeducation, support, and skills training components were helpful and reported high satisfaction with the adapted group CBT-based intervention for autistic children aged 4–8 years, with some parents reporting wanting more time for discussion and others noting some difficulties with generalization of skills provided by the intervention (Swain et al., Reference Swain, Murphy, Hassenfeldt, Lorenzi and Scarpa2019).

Two out of five papers were RCTs. One did not statistically compare the two groups (Factor et al., Reference Factor, Swain, Antezana, Muskett, Gatto, Radtke and Scarpa2019). The other was a pilot RCT, which preliminarily showed an adapted group CBT for children aged 5–7 years was not effective for emotion regulation but was effective for frequency of anger/anxiety episodes, use of emotion regulation strategies, and parent-reported perceived confidence in their child's ability to manage their own anxiety and anger, all post-treatment compared to waitlist control (Scarpa & Reyes, Reference Scarpa and Reyes2011). The remaining three papers were before-and-after comparisons reporting on intervention effects over time (Drüsedau et al., Reference Drüsedau, Schoba, Conzelmann, Sokolov, Hautzinger, Renner and Barth2022; Sofronoff et al., Reference Sofronoff, Silva and Beaumont2017; Swain et al., Reference Swain, Murphy, Hassenfeldt, Lorenzi and Scarpa2019), however, causality cannot be inferred since there were no comparison groups. Overall, low certainty evidence suggested mixed results regarding the effectiveness of some group interventions targeting emotion regulation to improve mental health of autistic CYP ((Drüsedau et al., Reference Drüsedau, Schoba, Conzelmann, Sokolov, Hautzinger, Renner and Barth2022; Factor et al., Reference Factor, Swain, Antezana, Muskett, Gatto, Radtke and Scarpa2019; Scarpa & Reyes, Reference Scarpa and Reyes2011; Sofronoff et al., Reference Sofronoff, Silva and Beaumont2017; Swain et al., Reference Swain, Murphy, Hassenfeldt, Lorenzi and Scarpa2019); Online Supplementary Table S10).

  1. 3. CBT for various mental health needs (n = 3)

One paper examined therapists' experiences of using CBT with autistic people and adaptations incorporated into their routine practice (Cooper et al., Reference Cooper, Loades and Russell2018). A range of adaptations were endorsed, including accommodating individual differences, changing the structure and content of interventions, and establishing communication preferences. Adaptations reported as being used less consistently included shorter/longer sessions, avoidance of metaphors, and use of cognitive strategies. Most participants reported using CBT and favored this approach over others.

Two papers reported on pilots of bespoke CBT group interventions for stress, anxiety, and depression in CYP and adult, evaluated through a non-randomized trial (McGillivray & Evert, Reference McGillivray and Evert2014), and depression in CYP through an RCT (Santomauro et al., Reference Santomauro, Sheffield and Sofronoff2016). Both interventions appeared to be feasible based on low drop-out rates. One paper examined acceptability and found most participants reported they enjoyed the intervention, finding the group setting most helpful, but with variations in which intervention tools were most helpful to manage depression (Santomauro et al., Reference Santomauro, Sheffield and Sofronoff2016). There were no statistically significant differences in depression between the CBT interventions and waitlist controls post-intervention (McGillivray & Evert, Reference McGillivray and Evert2014; Santomauro et al., Reference Santomauro, Sheffield and Sofronoff2016). However, participants who had scored above the depression, anxiety, and stress threshold pre-intervention benefited the most from the intervention (McGillivray & Evert, Reference McGillivray and Evert2014). At three and nine month follow up, gains were sustained in one study (McGillivray & Evert, Reference McGillivray and Evert2014) but not the other (Santomauro et al., Reference Santomauro, Sheffield and Sofronoff2016). Overall, moderate certainty evidence suggested mixed findings regarding the effectiveness of some CBT for anxiety, stress, and depression to improve mental health of autistic CYP ((McGillivray & Evert, Reference McGillivray and Evert2014; Santomauro et al., Reference Santomauro, Sheffield and Sofronoff2016); Online Supplementary Table S10).

  1. 4. EMDR for post-traumatic stress disorder (PTSD) (n = 1).

One Delphi study gathered perspectives on EMDR for autistic people and the adaptations therapists incorporated into standard protocols (Fisher et al., Reference Fisher, van Diest, Leoni and Spain2023). Participants reported tailoring therapy from the assessment onwards, such as by adopting a flexible and creative approach, adjusting the environment to suit sensory preferences, communicating clearly, taking more time in initial phases and before active processing commenced, and acknowledging the contribution of autism to the formulation.

Predictors of outcome

Five studies explored relevant predictors of treatment outcome, such as demographic variables, autism symptomatology, and verbal Intelligence Quotient. Only parental trait anxiety showed an effect on change in child anxiety in one study ((White et al., Reference White, Schry, Miyazaki, Ollendick and Scahill2015); Online Supplementary Table S14).

Discussion

This systematic review and meta-analysis explored strategies implemented within mental health services to improve mental health care for autistic CYP. Overall, 57 papers were included. Most tested CBT-based interventions.

Few studies identified service-level strategies largely related to increasing detection and knowledge of autism, and skills in working with autistic people in mental health services through screening tools, specialized care pathways, professional networks, and service-wide general adaptations. Most of the interventions comprised CBT for anxiety, with a few targeting emotion regulation and depression. Reported adaptations involved environmental and communication accommodations, accommodating individual differences, structural/procedural adaptations, intervention content adaptations, and engaging wider support networks (e.g. parents). However, we identified a lack of thorough description of the adaptations made and the rationale for use. Additionally, some adaptations reported, such as those relating to accommodating individual differences, are part of general good clinical practice rather than only specific to autism.

This review, together with our review on autistic adults (Loizou et al., Reference Loizou, Pemovska, Stefanidou, Foye, Cooper, Kular and Johnson2023), shows a similar pattern of most papers reporting communication and intervention content adaptations, but few reporting environmental adjustments. Parental and school involvement was an adaptation category specifically relevant to CYP, but evidence of CYP views of such involvement was lacking. While the studies reporting involvement with the child's school did not evaluate this aspect, one study indicated that children were satisfied with the treatment overall (Wood et al., Reference Wood, Ehrenreich-May, Alessandri, Fujii, Renno, Laugeson and Storch2015). Parental involvement was evaluated only in one trial, which showed parent groups and training parents as co-therapists to be involved in all aspects of CBT for anxiety enhanced the usefulness of the intervention when compared to a child-only group with minimal parental involvement (Sofronoff et al., Reference Sofronoff, Attwood and Hinton2005). A previous study reported friends and family were frequently used as sources of support by young autistic people with co-occurring mental health difficulties. However, participants with more severe mental health difficulties reported being reluctant to talk about their needs to friends and family due to stigma (Crane et al., Reference Crane, Adams, Harper, Welch and Pellicano2018).

The identified bespoke interventions originally developed for autistic CYP were mostly based on CBT principles, with one being mindfulness-based. Most targeted anxiety, and a few emotion regulation, depression, or combination of mental health difficulties. Notably, there were no eligible studies investigating pharmacological interventions, although these are increasingly used for autistic CYP (Bachmann, Manthey, Kamp-Becker, Glaeske, & Hoffmann, Reference Bachmann, Manthey, Kamp-Becker, Glaeske and Hoffmann2013; Coury et al., Reference Coury, Anagnostou, Manning-Courtney, Reynolds, Cole, McCoy and Perrin2012; Deb et al., Reference Deb, Roy, Lee, Majid, Limbu, Santambrogio and Bertelli2021; Jobski, Höfer, Hoffmann, & Bachmann, Reference Jobski, Höfer, Hoffmann and Bachmann2017; Murray et al., Reference Murray, Hsia, Glaser, Simonoff, Murphy, Asherson and Wong2014) despite limited evidence of effectiveness (Jobski et al., Reference Jobski, Höfer, Hoffmann and Bachmann2017) and clinical guidelines recommending caution when prescribing them for autistic CYP (NICE, 2021). Additionally, only one study evaluated telemental health, despite it being increasingly used in and since the pandemic (Appleton et al., Reference Appleton, Williams, Juan, Needle, Schlief, Jordan and Johnson2021). Notably, only two studies included participants with co-occurring ID.

Evidence on effectiveness was of higher quality than in the review relating to adults (Loizou et al., Reference Loizou, Pemovska, Stefanidou, Foye, Cooper, Kular and Johnson2023), due to more RCTs having been conducted. Nonetheless, the certainty of evidence for effectiveness, based on the GRADE system rating (Guyatt et al., Reference Guyatt, Oxman, Vist, Kunz, Falck-Ytter, Alonso-Coello and Schünemann2008), ranged from low to moderate (online Supplementary Tables S10 and S11), meaning further research is likely to significantly impact our confidence in the findings. The effectiveness results for service-level strategies suggest some screening tools may be helpful in identifying autism and clinician training may improve mental health care. The exploratory meta-analyses examining whether CBT for anxiety was superior to any comparison group in reducing anxiety symptoms severity at EOT among autistic individuals, showed no significant group differences in improving child/self-rated anxiety, significant medium effect of CBT on reducing parent/carer-rated anxiety, and significant small-to-medium effect on decreasing clinician-rated anxiety (all moderate-certainty evidence). Importantly, the presence of publication bias was detected, which warrants caution. However, it should be noted that upon removal of outliers, effect sizes remained relatively stable, suggesting bespoke/adapted CBT for anxiety may be effective in reducing anxiety in autistic CYP when viewed from the perspective of parents/carers or clinicians, but not of children/care recipients, compared to the active and non-active controls.

Inconsistencies in effect sizes with previous meta-analyses may be attributed to methodological differences such as inclusion criteria (e.g. some included non-adapted generic CBT (Sharma et al., Reference Sharma, Hucker, Matthews, Grohmann and Laws2021) and non-randomized controlled trials (Perihan et al., Reference Perihan, Burke, Bowman-Perrott, Bicer, Gallup, Thompson and Sallese2020; Ung, Selles, Small, & Storch, Reference Ung, Selles, Small and Storch2015)) or favoring different measures (Kreslins, Robertson, & Melville, Reference Kreslins, Robertson and Melville2015; Sharma et al., Reference Sharma, Hucker, Matthews, Grohmann and Laws2021; Sukhodolsky et al., Reference Sukhodolsky, Bloch, Panza and Reichow2013) and chosing pooled over separate meta-analyses (Perihan et al., Reference Perihan, Burke, Bowman-Perrott, Bicer, Gallup, Thompson and Sallese2020; Ung et al., Reference Ung, Selles, Small and Storch2015; Wichers, Van Der Wouw, Brouwer, Lok, & Bockting, Reference Wichers, Van Der Wouw, Brouwer, Lok and Bockting2023). Variation of effect sizes across different raters has been reported elsewhere (Kreslins et al., Reference Kreslins, Robertson and Melville2015; Sharma et al., Reference Sharma, Hucker, Matthews, Grohmann and Laws2021; Sukhodolsky et al., Reference Sukhodolsky, Bloch, Panza and Reichow2013). CYP often differ in reporting symptom severity in contrast to parents and clinicians, with higher correspondence reported for assessments of observable mental health concerns, assessments made by informants observing the child in the same setting, and for assessments using dimensional measures comparative to categorical ones (De Los Reyes et al., Reference De Los Reyes, Augenstein, Wang, Thomas, Drabick, Burgers and Rabinowitz2015; Smith, Reference Smith2007). Rater blinding and observer bias could be influential factors contributing to informant discrepancies (Hróbjartsson, Emanuelsson, Thomsen, Hilden, & Brorson, Reference Hróbjartsson, Emanuelsson, Thomsen, Hilden and Brorson2014). A variety of anxiety measures were used, however, not all are supported for use with autistic individuals (Glod et al., Reference Glod, Creswell, Waite, Jamieson, McConachie, Don South and Rodgers2017; Jitlina et al., Reference Jitlina, Zumbo, Mirenda, Ford, Bennett, Georgiades and Elsabbagh2017; Lecavalier et al., Reference Lecavalier, Wood, Halladay, Jones, Aman, Cook and Scahill2014; May, Cornish, & Rinehart, Reference May, Cornish and Rinehart2015), particularly not without adjustments.

The only significant moderator for effectiveness was type of CBT, with adapted CBT being superior to bespoke CBT in reducing clinician-rated anxiety in autistic individuals based on equal number of contributing bespoke and adapted trials. This should be carefully interpreted as the study quality of the bespoke trials appears slightly lower than that of the adapted trials, and the distinction between adapted and bespoke CBT potentially lacks robustness. Comparing group, individual, and combined CBT showed no significant difference in parent- and clinician-rated anxiety in autistic individuals counter to another meta-analysis (Sharma et al., Reference Sharma, Hucker, Matthews, Grohmann and Laws2021), where significant advantage was found for individual CBT for clinician ratings. However, this difference could be due to the uneven number of trials contributing to each intervention format (Sharma et al., Reference Sharma, Hucker, Matthews, Grohmann and Laws2021).

Evidence for feasibility and acceptability, although sometimes not involving rigorous formal measurement strategies, was largely positive, similarly to the review relating to adults (Loizou et al., Reference Loizou, Pemovska, Stefanidou, Foye, Cooper, Kular and Johnson2023). Clinicians reported using a range of service-level adaptations related to the physical environment, communication, accommodating individual needs, and a more structured and predictable approach, suggesting these can be implemented in routine clinical services (Jones et al., Reference Jones, Gangadharan, Brigham, Smith and Shankar Background2021; Petty et al., Reference Petty, Bergenheim, Mahoney and Chamberlain2021; Spain et al., Reference Spain, Rumball, O'Neill, Sin, Prunty and Happé2017). Additionally, a tele-mentoring platform to support mental health clinicians was evaluated as acceptable and feasible (Dreiling et al., Reference Dreiling, Cook, Lamarche and Klinger2022). The identified mental health interventions were also evaluated as acceptable and feasible. Adaptations concerning communication, intervention structure and content, and accommodating individual preferences were reported as often incorporated by clinicians when delivering CBT and EMDR to autistic people, supporting feasibility (Cooper et al., Reference Cooper, Loades and Russell2018; Fisher et al., Reference Fisher, van Diest, Leoni and Spain2023). Limited feasibility based on high drop-out rate was noted only for a parent-delivered behavioral emotional and social skills intervention as some parents struggled to implement the intervention (Sofronoff et al., Reference Sofronoff, Silva and Beaumont2017). A trial found the type of clinician training for bespoke group CBT for anxiety can affect autistic CYP, parent, and clinician acceptability (Walsh et al., Reference Walsh, Moody, Blakeley-Smith, Duncan, Hepburn, Keefer and Reaven2018). Clinicians' view of the intervention's effectiveness, fit with existing service, ease of use and making further adaptations were reported as important factors that facilitated the feasibility of sustained use of a group CBT with autistic adults (Pickard et al., Reference Pickard, Blakeley-Smith, Boles, Duncan, Keefer, O'Kelley and Reaven2020).

Strengths and limitations

This systematic review provides a comprehensive overview of strategies/adaptations tested in mental health care settings for autistic CYP, which is potentially useful for adapting care to the specific needs of this population. A strength was the co-produced nature of this review, with lived experience researchers involved throughout the project. A novel feature of this research is the inclusion of AIRA assessing the primary research's inclusive practices that we hope will encourage appropriate adaptations in future research involving this population.

Regarding limitations of our review, the meta-analyses lacked inclusion of follow-up outcomes to determine if treatment gains are sustained over time, although few trials measured these. Additionally, our classification of ‘bespoke’ v. ‘adapted’ interventions depended on authors' descriptions, which may lack robustness if evaluated against independently-rated criteria.

There were several limitations of the included studies that limited the quality of the review. Most autistic participants were male and white, and all studies were conducted in high-income countries, limiting the generalizability of findings. Evidence on effective strategies for autistic individuals with ID was lacking, indicating a potential bias in the selection of study participants (Russell et al., Reference Russell, Mandy, Elliott, White, Pittwood and Ford2019). There was a lack of different types of strategies for CBT, such as pharmacological interventions or other psychological approaches, and there were noticeable gaps in interventions targeting other mental health difficulties besides anxiety. The included RCTs had small sample sizes (the mean CBT participants was 21 and controls 20) and probably lacked statistical power to detect significant group differences. Thus, large, high-quality studies with the potential to shape practice were missing. Importantly, many of the included papers lacked a comparison group, preventing improvements being credited to the intervention alone. Where comparisons were included, none were with a non-adapted version of the same intervention, limiting inferences about effectiveness of adaptations. There was a lack of clarity in the intervention-level adaptations reported in some papers limiting replication in further research and implementation in practice. Assessing the included papers with the novel and lived experience researcher-led AIRA showed co-produced research with involvement from autistic individuals and carers was missing, data collection methods and outcome measures often lacked autism inclusivity, and some interventions, of which most were CBT, appeared to involve some focus on masking autistic traits rather than improving mental health.

Clinical implications and future directions

Better mental health care is a top priority for autistic people (Cusack & Sterry, Reference Cusack and Sterry2016) and recognized as such by the World Health Organisation (World Health Assembly, 2014), the National Health Service (NHS) Long-Term Plan (NHS, 2019), and the NHS Autism Research Strategy (NHS, 2022). Autistic people experience high rates of mental health difficulties but face many barriers to accessing and benefiting from mental health care. This systematic review provided a list of strategies and adaptations to services and interventions found to be acceptable and feasible to implement in mental health care. Many of the identified adaptations (Table 2 and online Supplementary Table S9) are simple, reasonable adjustments not necessarily requiring further evaluation to be implemented in practice, or specific iterations of general good clinical practice. Tailoring mental health care to individual differences may be especially helpful in achieving effective mental health care, as autistic individuals vary in their support needs and presentation of autistic characteristics (Robledo, Donnellan, & Strandt-Conroy, Reference Robledo, Donnellan and Strandt-Conroy2012; Uljarević et al., Reference Uljarević, Baranek, Vivanti, Hedley, Hudry and Lane2017). A neurodivergence-informed approach to therapy (Chapman & Botha, Reference Chapman and Botha2023) and primary co-produced research to strengthen the evidence-base are necessary to strike a balance between personalizing care and following evidence-based practice.

More research is needed to improve autism assessment so autistic CYP can benefit from mental health care. For more robust intervention research in this field, it is important to develop consensus that includes involvement of autistic people, on appropriate mental health outcome measures, meaningful treatment gain, and likelihood of the intervention to encourage masking over genuine mental health improvements. Identified differences in the magnitude and significance of effect sizes by rater (self, parent, and clinician) suggest that pooling data across raters should be avoided. This review also identified a need for studies comparing autism-friendly adapted interventions and generic non-adapted interventions received in mental health services.

This review together with our review relating to autistic adults (Loizou et al., Reference Loizou, Pemovska, Stefanidou, Foye, Cooper, Kular and Johnson2023) can contribute to national guidelines for mental health provision for autistic people to be tested in a small number of well-funded research projects prioritizing co-production and ensuring participation from under-represented groups.

Lived experience commentary written by Robin Jackson and Eva Driskell

We have lived experience as an autistic young person, now a Child and Adolescent Mental Health Services (CAMHS) professional, and as a carer of a child with autism and have spent a decade as service users of CAMHS. The examples we use reflect both of our lived experiences.

The review found that better training is required for CAMHS professionals to see the signs of autism earlier. Our experience supports this along with the need to fast track children to a diagnosis. Children with autism are left in mental distress and miss out on crucial years of education and parents and carers find themselves blamed by the educational establishment (and often the medical professionals) for what is seen as bad behavior rather than a distressed child in need of help.

The review focused on strategies delivered in mental health service settings, but outside of the home, school is where children spend the most time. Evidence of school or parental involvement was lacking, but strategies could be delivered in a school setting alongside training for education professionals to recognize autistic traits and understand sensory issues. We experienced a huge improvement in mental health issues when the right adjustments were made, which also raises the question of whether mental health issues were co-occurring or caused by a lack of understanding and an over-stimulating environment.

Training and understanding of autism for children and young people (CYP) and carers is invaluable and not widely available. Personalized training helped us – a short in-person group course was very useful in explaining the issues and allowed the sharing of experiences. However, consideration of accessibility is needed, including aspects such as language, socio-economic background, and culture.

Neurotypical bias was evident in the research when the views of CYP were dismissed if their self-reported outcome measures found less improvement than clinician or parent reports meaning that the therapies could inadvertently encourage masking, which occurs when autistic traits are hidden to fit in with other people. Using cognitive behavioral therapy could result in autistic CYP learning to mask their traits to better ‘fit in’. Although this is measured as success in the papers reviewed, in the long term it can cause further distress and mental health issues.

More research is needed into the causes of mental health issues in autistic CYP and into how diagnosis, training of CYP and carers and environmental adjustments affect mental health. The review found that only 7% of research was carried out with autistic researchers involved. Future research should include autistic researchers to investigate which therapies work best for autistic CYP and develop new therapeutic approaches to be more effective for this population. Unfortunately, current therapies can be focused on changing the autistic young person's behavior to fit in better with neurotypical society rather than improving the autistic young person's mental health.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0033291724001089.

Data availability statement

Data were collected from publicly available research papers which are referenced.

Acknowledgements

We thank Autistica for their invaluable assistance in recruiting individuals with lived experience, enriching our review process.

Author contributions

The working group collaboratively conceived and formulated the review questions. T. S. conducted the searches. The selection strategy was piloted by T. S. and P. B. A. K., T. S., K. S., A. G., T. P., U. F. conducted the title and abstract screening. T. P., S. L. independently reviewed a random 10% of records. Full texts were screened independently in duplicate (T. P., A. G., A. K., T. S., D. S., K. S., S. L., R. C., J. G., H. B., U. F.) and discrepancies were resolved by discussion with a third reviewer (S. J.). T. P., S. L., A. G., A. K., D. S., R. A., M. M., G. B., H. B., J. G., R. C., U. F. extracted data. S. L., R. C. piloted the data extraction form. Supported by P. B., S. L., and T. P. independently double-extracted raw outcome data for the meta-analysis. S. L. ran the meta-analyses, supported by P. B. R. R. O. developed the Autism-Inclusive Research Assessment (AIRA), A. K., R. A. extracted all relevant data for the AIRA, and R. J. was involved as second assessor for the final criterion. T. P., S. L., A. G., A. K., D. S., M. M., G. B., H. B., J. G., R. C., U. F. assessed study quality. T. P., S. L., R. A. contributed to the evaluation of the strength of evidence about intervention effectiveness using the Grading of Recommendations Assessment, Development and Evaluation (GRADE) system. T. P., S. L., R. A., D. S. collaboratively drafted the manuscript. All authors reviewed and contributed to the editing of the manuscript. All authors have approved the final manuscript.

Funding statement

This paper presents independent research commissioned and funded by the National Institute for Health Research (NIHR) Policy Research Programme and conducted by the NIHR Mental Health Policy Research Unit (MHPRU). The funder has no role in the study design, data analysis, write-up of the manuscript, or the decision to submit for publication.

Competing interests

None.

Footnotes

*

These authors contributed equally to this work and share first authorship.

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Figure 0

Figure 1. PRISMA flowchart.

Figure 1

Table 1. Study characteristics

Figure 2

Table 2. All service-level and intervention-level adaptations (simplified version) (N = 38)

Figure 3

Table 3. Main findings of individual/group and adapted/bespoke mental health interventions/strategies and service adaptations

Figure 4

Figure 2. Forest plots of meta-analyses comparing cognitive behavioral therapy (CBT) for anxiety with any control group in reducing anxiety symptom severity in autistic individuals.Note: Continuous rather than dichotomous data were used, as this was the most frequent type of data across studies. Intention-to-treat was favored over completer analysis. In cases of trials with more than two arms (Reaven et al., 2018; Sofronoff et al., 2005), we compared the most intensive arm (treatment) to the least intensive (control). The following clinician-rated outcome measures were acceptable and included in the meta-analysis: the Anxiety Diagnostic Interview Schedule (ADIS), the Pediatric Anxiety Rating Scale (PARS), the Hamilton Rating Scale for Anxiety (HAM-A) and the Yale-Brown Obsessive Compulsive Scale (YBOCS). Four studies (Storch et al., 2013, 2015, 2020; Wood et al., 2015) used multiple clinician-rated outcomes. Given this, we favored primary outcome measures first (if reported in article or in protocol), followed by the most frequently used measure across studies (i.e. ADIS) to ensure consistency. Reaven et al. (2018) and Murphy et al. (2017) reported on individual symptoms on the ADIS, rather than the total, hence scores were combined. Acceptable parent/carer-rated outcome measures were the Spence Children's Anxiety Scale (SCAS), the Multidimensional Anxiety Scale for Children (MASC), the Child and Adolescent Symptom Inventory-4 ASD Anxiety Scale (CASI-anx), the Child Behaviour Checklist (CBCL) and the Children's Obsessive Compulsive Inventory (CHOCI). Child/self-rated outcome measures included the Spence Children's Anxiety Scale (SCAS), the Revised Children's Manifest Anxiety Scale (RCMAS), the Revised Children's Anxiety and Depression Scale (RCADS), the Obsessive Compulsive Inventory – Revised (OCI-R) and the Liebowitz Social Anxiety Scale (LSAS). One trial (Chalfant et al. 2007), used both the RCMAS and the SCAS, but the latter was favored, as it was the most commonly used outcome measure. Storch et al. (2013) reported only subscales of the RCMAS, so the total mean was calculated.

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