Hostname: page-component-76fb5796d-x4r87 Total loading time: 0 Render date: 2024-04-29T12:01:37.632Z Has data issue: false hasContentIssue false
  • English
  • Français

The effectiveness and safety of dialectical behavior therapy for suicidal ideation and behavior in autistic adults: a pragmatic randomized controlled trial

Published online by Cambridge University Press:  12 April 2024

Anne Huntjens Open the ORCID record for Anne Huntjens [Opens in a new window] ,
L. M. C. (Wies) van den Bosch ,
Bram Sizoo Open the ORCID record for Bram Sizoo [Opens in a new window] ,
Ad Kerkhof Open the ORCID record for Ad Kerkhof [Opens in a new window] ,
Filip Smit Open the ORCID record for Filip Smit [Opens in a new window]  and
Mark van der Gaag Open the ORCID record for Mark van der Gaag [Opens in a new window]
Anne Huntjens*
Affiliation:
Department of Clinical Psychology and Public Mental Health Research Institute, Vrije Universiteit, Amsterdam, Netherlands Parnassia Psychiatric Institute, The Hague, Netherlands
L. M. C. (Wies) van den Bosch
Affiliation:
Netherlands DBT Centre (NB DGT), Harderwijk, Netherlands
Bram Sizoo
Affiliation:
ORCAT, Zutphen, Netherlands
Ad Kerkhof
Affiliation:
Department of Clinical Psychology and Public Mental Health Research Institute, Vrije Universiteit, Amsterdam, Netherlands
Filip Smit
Affiliation:
Department of Clinical Psychology and Public Mental Health Research Institute, Vrije Universiteit, Amsterdam, Netherlands
Mark van der Gaag
Affiliation:
Department of Clinical Psychology and Public Mental Health Research Institute, Vrije Universiteit, Amsterdam, Netherlands Parnassia Psychiatric Institute, The Hague, Netherlands
*
Corresponding author: Anne Huntjens; Email: a.huntjens@vu.nl
Rights & Permissions [Opens in a new window]

Abstract

Backgrounds

Many autistic people in mental health are suicidal. This study evaluated the effectiveness of dialectical behavior therapy (DBT) v. treatment as usual (TAU) in reducing suicidal ideation and suicide attempts.

Methods

At six Dutch mental health centers, 123 outpatients (18–65 years) with DSM-5 diagnosed autism spectrum disorder (ASD) and suicidal behavior were randomly assigned to the DBT intervention group (n = 63) or TAU control group (n = 60). Assessments were conducted at baseline, post-treatment at 6 months and 12-month follow-up. The primary outcomes were severity of suicidal ideation and frequency of suicide attempts. The severity of depression and social anxiety were secondary outcomes.

Results

At end-of-treatment, DBT significantly reduced both suicidal ideation (z = −2.24; p = 0.025; b = −4.41; s.e. = 197.0) and suicide attempts (z = −3.15; p = 0.002; IRR = 0.046; s.e. = 0.045) compared to TAU, but lost statistical significance at the 12-month follow-up. Depression severity significantly decreased with DBT (z = −1.99; p = 0.046: b = −2.74; s.e. = 1.37) remaining so at 12 months (z = −2.46; p = 0.014; b = −3.37; s.e. = 1.37). No effects were observed on social anxiety. Severe adverse events included two suicides in the TAU condition.

Conclusions

DBT is an acceptable, safe, and short-term effective intervention to reduce suicidal ideation and suicide attempts in autistic adults with suicidal behavior.

Keywords

autismdialectical behavior therapysuicidal behaviorsuicidal ideationsuicide attempts
Type
Original Article
Information
Psychological Medicine , First View , pp. 1 - 12
Check for updates
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

Suicidal ideation (SI) and suicide attempts (SA) are highly prevalent in autistic people (We use identity-first language to describe and discuss autism in this paper, as it is the most preferred language within the autistic community (Bottema-Beutel, Kapp, Lester, Sasson, & Hand, Reference Bottema-Beutel, Kapp, Lester, Sasson and Hand2021; Kenny et al., Reference Kenny, Hattersley, Molins, Buckley, Povey and Pellicano2016)) (Hedley & Uljarević, Reference Hedley and Uljarević2018; Zahid & Upthegrove, Reference Zahid and Upthegrove2017). A recent meta-analysis among autistic individuals found lifetime rates of SI and SA at 37.2 and 15.3%, respectively. The corresponding 12-month rates were 25.4% for SI and 14.1% for SA (Huntjens, Landlust, Wissenburg, & van der Gaag, Reference Huntjens, Landlust, Wissenburg and van der Gaag2024), consistently surpassing general population estimates of 9% for SI and 3% for SA (Castillejos, Huertas, Martín, & Moreno Küstner, Reference Castillejos, Huertas, Martín and Moreno Küstner2021), as well as 2.0% for SI and 0.3% for SA over 12 months (Borges et al., Reference Borges, Nock, Haro Abad, Hwang, Sampson, Alonso and Kessler2010). Intrapersonal risk factors that may be associated with autistic suicidality include alexithymia, emotion dysregulation, rumination, low self-esteem, camouflaging efforts (concealing autistic traits or behavior), communicative impairments and cognitive inflexibility (Arwert & Sizoo, Reference Arwert and Sizoo2020; Cassidy, Bradley, Shaw, & Baron-Cohen, Reference Cassidy, Bradley, Shaw and Baron-Cohen2018; Conner et al., Reference Conner, Golt, Righi, Shaffer, Siegel and Mazefsky2020; Costa, Loor, & Steffgen, Reference Costa, Loor and Steffgen2020; Paquette-Smith, Weiss, & Lunsky, Reference Paquette-Smith, Weiss and Lunsky2014; Richards et al., Reference Richards, Kenny, Griffiths, Allison, Mosse, Holt and Baron-Cohen2019; South et al., Reference South, Beck, Lundwall, Christensen, Cutrer, Gabrielsen and Lundwall2020). Interpersonal risk factors have likewise been identified, including unmet support needs and loneliness (Cassidy et al., Reference Cassidy, Bradley, Shaw and Baron-Cohen2018; Hedley, Uljarević, Foley, Richdale, & Trollor, Reference Hedley, Uljarević, Foley, Richdale and Trollor2018). Additionally, symptoms of autism spectrum disorder (ASD) are heterogeneous and frequently co-occur with psychiatric comorbidities (DeFilippis, Reference DeFilippis2018; Jadav & Bal, Reference Jadav and Bal2022), which also serve as risk factors for suicidality (Kõlves, Fitzgerald, Nordentoft, Wood, & Erlangsen, Reference Kõlves, Fitzgerald, Nordentoft, Wood and Erlangsen2021; Wijnhoven et al., Reference Wijnhoven, Niels-Kessels, Creemers, Vermulst, Otten and Engels2019). Among these comorbidities, anxiety and depression are the most common and persistent (Hossain et al., Reference Hossain, Khan, Sultana, Ma, McKyer, Ahmed and Purohit2020; Lever & Geurts, Reference Lever and Geurts2016; Sampson et al., Reference Sampson, Upthegrove, Abu-Akel, Haque, Wood and Reniers2020). Research identifies strong associations between the risk of mental health problems, a lack of knowledge and understanding, the absence of or inappropriate support or treatment for such problems, and high rates of suicidal behavior among autistic people (Camm-Crosbie, Bradley, Shaw, Baron-Cohen, & Cassidy, Reference Camm-Crosbie, Bradley, Shaw, Baron-Cohen and Cassidy2019; Cantor, McBain, Kofner, Stein, & Yu, Reference Cantor, McBain, Kofner, Stein and Yu2020; Crane, Davidson, Prosser, & Pellicano, Reference Crane, Davidson, Prosser and Pellicano2019; Maddox & Gaus, Reference Maddox and Gaus2019). Clinicians seem reluctant to treat suicidality in this group, but that lack of treatment may exacerbate the suicide risk (Lipinski, Boegl, Blanke, Suenkel, & Dziobek, Reference Lipinski, Boegl, Blanke, Suenkel and Dziobek2022).

There is a critical need for effective suicide prevention and treatment in autistic individuals, yet evidence-based approaches are limited. While cognitive-behavioral therapy (CBT) has shown effectiveness in treating comorbidities in autism (Spain, Sin, Chalder, Murphy, & Happe, Reference Spain, Sin, Chalder, Murphy and Happe2015), it falls short in addressing suicidal behavior linked to severe emotion dysregulation (Hartmann et al., Reference Hartmann, Urbano, Raffaele, Kreiser, Williams, Qualls and Elkins2019; White et al., Reference White, Mazefsky, Dichter, Chiu, Richey and Ollendick2014). Dialectical behavior therapy (DBT), recognized as the leading transdiagnostic treatment for suicidal behavior and emotion dysregulation, effectively addresses various challenges in social interaction, behavior, and emotional regulation (Chen, Matthews, Allen, Kuo, & Linehan, Reference Chen, Matthews, Allen, Kuo and Linehan2008; Fleming, McMahon, Moran, Peterson, & Dreessen, Reference Fleming, McMahon, Moran, Peterson and Dreessen2015; Harley, Sprich, Safren, Jacobo, & Fava, Reference Harley, Sprich, Safren, Jacobo and Fava2008; Linehan, Reference Linehan1993; Lynch, Morse, Mendelson, & Robins, Reference Lynch, Morse, Mendelson and Robins2003; Neacsiu, Eberle, Kramer, Wiesmann, & Linehan, Reference Neacsiu, Eberle, Kramer, Wiesmann and Linehan2014). DBT focuses on enhancing emotion regulation skills and encompasses individual therapy, skills training in a group, a therapist consultation team, and phone consultation if needed (Linehan, Reference Linehan1993). DBT combines acceptance-based strategies (e.g. mindfulness and validation) with change-oriented strategies based on second-generation CBT, e.g., problem-solving, behavior analysis, contingency management, and skills training (Linehan, Reference Linehan1993). The usual treatment period is one year, but some findings suggest that shorter treatment periods also effectively treat suicidal behavior (Delparte et al., Reference Delparte, Power, Gelinas, Oliver, Hart and Wright2019; McMain et al., Reference McMain, Chapman, Kuo, Guimond, Streiner, Dixon-Gordon and Hoch2018).

This study aimed to assess the effectiveness and safety of DBT compared with treatment as usual (TAU) for reducing suicidal ideation and suicide attempts in autistic patients. Depressive symptom severity and social anxiety were secondary outcomes. We hypothesized that DBT would be superior to TAU in reducing suicidal ideation and suicide attempts during the first six months after baseline and that the effect would persist up to the 12-month follow-up compared to TAU. Furthermore, we hypothesized that DBT would be superior to TAU in reducing depressive symptom severity and symptoms of social anxiety.

Methods

Design and participants

The study is a pragmatic multi-center, single-blind, randomized controlled trial with two parallel arms, DBT and TAU, conducted in outpatient settings across six Dutch mental health care services. It is registered at Current Controlled trials (ISRCTN 96632579) and received approval from the Medical Ethics Committee of the VU University Medical Centre (NL59497.029.17) in March 2018. Details of the study protocol have been published (Huntjens et al., Reference Huntjens, van den Bosch, Sizoo, Kerkhof, Huibers and van der Gaag2020), and see online Supplementary Appendix S1 for following CONSORT guidelines. Participants were recruited from six specialized autism departments within mental health services. All participants had received an ASD diagnosis from experienced clinicians following national guidelines prior to inclusion (Kan, Geurts, & Sizoo, Reference Kan, Geurts and Sizoo2013).

Inclusion criteria were (1) age 18 to 65 years; (2) fulfillment of DSM-5 criteria for ASD (American Psychiatric Association, 2013); (3) outpatient status; (4) suicidal ideation (SIDAS score ⩾ 21) (van Spijker et al., Reference van Spijker, Batterham, Calear, Farrer, Christensen, Reynolds and Kerkhof2014); and (5) level of suicidal behavior rated as severe on the LPC (score of 2 on each item) (Comtois & Linehan, Reference Comtois and Linehan1999). Exclusion criteria were (1) IQ < 80 (assessed with WAIS-IV only if baseline testing was difficult due to intellectual deficits) (Wechsler, Reference Wechsler2011); (2) addiction to drugs and need for clinical detoxification; (3) insufficient mastery of the Dutch language. Patients were informed about the study by their treating therapist. Written informed consent was obtained from patients who were eligible and willing to participate. All measurements were accessed at baseline, post-treatment at 6 months, and follow-up at 12 months. Participants who dropped out of treatment were asked to complete the post-treatment and follow-up assessment. With N = 128 consenting participants (64 in each arm), the study would be well-powered to detect a medium-sized standardized effect of d = 0.50 in a test with a power of (1−b) ⩾ 0.80 and a ⩽ 0.05 (2-tailed). Participants in the TAU condition were offered DBT treatment after 12-month follow-up. All participants received financial compensation of €25 (USD27) for each assessment.

Randomization and masking

After a baseline assessment, block randomization was used to allocate participants to DBT or TAU in a 1:1 ratio. One block of 16 random assignments was generated for each participating mental health service. Each block had eight assignments per condition. If a center had more patients, a second randomized block was allocated. Blocks were made with the scientific randomization program Research Randomizer by the independent randomization bureau of Parnassia Psychiatric Institute (www.randomizer.org), which also allocated patients to groups. Blinded assessors conducted measurements throughout the study. If unblinding occurred, another assessor repeated the assessment. No unblinding occurred.

Intervention

The intervention was based on the four components of comprehensive DBT, combining (a) weekly 45-minute individual cognitive-behavioral psychotherapy sessions with the primary therapist, (b) weekly 2h15 skills training group, (c) if needed, access to telephone coaching with their individual therapist, and (d) weekly 1-hour therapist consultation. Participants randomized to the DBT group received two pretreatment sessions with their assigned primary DBT therapist, preparing them for the demands and expectations of DBT. This process involved familiarizing clients with the therapy's structure, components, and goals. Individual psychotherapy takes place weekly and primarily focuses on motivational issues, including the motivation to stay alive and remain in treatment. The 26-week skill training in this study was adapted from Neacsiu et al. (Reference Neacsiu, Eberle, Kramer, Wiesmann and Linehan2014) emotion regulation skill training. The program provided two weekly skill training groups for 26 weeks, totaling 52 sessions with eight participants per group. Given the program's limited duration of 26 weeks (two sets of 13 weeks), the one-week review of mindfulness skills from Neacsiu et al. (Reference Neacsiu, Eberle, Kramer, Wiesmann and Linehan2014) was omitted. Mindfulness, emotion regulation, distress tolerance, and interpersonal effectiveness skills were covered in the initial 13 weeks and revisited in the program's second half. These 26-week programs provide increased opportunities for feedback, rehearsal, practice, and enhanced skill learning, tailoring training to the needs of autistic adults (Anderson & Morris, Reference Anderson and Morris2006). In collaboration with autistic adults, text modifications were made to the DBT manual before the study began, simplifying explanations of certain DBT skills to make them more concrete and understandable. The mindfulness exercises proposed at the beginning of the skills training were also based on precise and unambiguous instructions tailored to the needs of autistic people (Spek, van Ham, & Nyklíček, Reference Spek, van Ham and Nyklíček2013).

The control group received TAU, involving at least weekly 45-min sessions with a psychotherapist or social worker. Due to the absence of guidelines, TAU encompassed any common form of treatment for suicidal behavior in autism within the Dutch mental health system, ensuring a realistic reflection of current clinical practice in terms of form and intensity (e.g. psycho-education, social skills training, emotion regulation therapy, CBT, trauma therapy, delivered in both group and individual formats, either independently or concurrently).

Outcome measures

The primary outcome measure was the Suicidal Ideation Attributes Scale (SIDAS), which assesses the severity of suicidal ideation (van Spijker et al., Reference van Spijker, Batterham, Calear, Farrer, Christensen, Reynolds and Kerkhof2014). It consists of five items, each targeting an attribute of suicidal thoughts: frequency, controllability, closeness to attempt, level of distress associated with the thoughts, and impact on daily functioning. Scores of ⩾ 21 indicate an elevated risk of suicidal ideation, and a higher score indicates more severe suicidal ideation. At the study's outset, the SIDAS lacked validation for autism samples. In 2023, the SIDAS-M was developed and validated for this purpose, incorporating language revisions and visual analog scales (Hedley et al., Reference Hedley, Batterham, Bury, Clapperton, Denney, Dissanayake and Stokes2023). However, the SIDAS was conducted as an interview, not a self-report questionnaire, in the current study. The frequency of suicide attempts was assessed for the 6 months preceding the baseline, the experimental period and the follow-up period, using the Lifetime Parasuicide Count (LPC) (Comtois & Linehan, Reference Comtois and Linehan1999). The LPC questionnaire has not been validated for autism samples. However, in the current study, it served as a frequency questionnaire administered in an interview.

Secondary outcome measures were the Beck Depression Inventory (BDI-II) (Beck, Steer, Ball, & Ranieri, Reference Beck, Steer, Ball and Ranieri1996), measuring the severity of depression. BDI-II shows psychometric solid properties (Beck et al., Reference Beck, Steer, Ball and Ranieri1996) and has been validated for autism samples (Williams, Everaert, & Gotham, Reference Williams, Everaert and Gotham2021).

The Social Interaction Anxiety Scale (SIAS) (Mattick & Clarke, Reference Mattick and Clarke1998), assesses the fear and avoidance of social situations. SIAS demonstrates strong psychometric properties and has been validated for autism samples (Boulton & Guastella, Reference Boulton and Guastella2021).

Supervision and fidelity monitoring

All DBT and TAU therapists had significant experience in treating autistic individuals. Therapists in the DBT group with no prior experience with DBT underwent a 5-day DBT training that included two additional booster sessions led by an accredited and experienced DBT trainer (AH). Furthermore, experts provided four hours per month of group supervision for these therapists (group size 5–7; 48 h by WvdB and 168 h by AH). Additional supervision by phone or e-mail was provided upon request. All DBT treatment sessions were videotaped. Treatment adherence was assessed in a random selection of session recordings (two per therapist) by trained raters. A DBT expert trained psychology master students to practice with the instruments, using session recordings not used in the final adherence assessment. Adherence was assessed with the DBT Adherence Coding Scale (DBT-ACS) (Harned, Korslund, Schmidt, & Gallop, Reference Harned, Korslund, Schmidt and Gallop2021). Treatment adherence greater than or equal to 23 was considered adherent.

Statistical analysis

Analyses were performed with the statistical software Stata (version 17.0) and SPSS (version 27). The analyses were based on the intention-to-treat (ITT) principle, thus including all participants as randomized. ITT analysis was achieved using mixed modeling. The Gaussian-distributed SIDAS, BDI, and SIAS scales were regressed on Condition (0/1), Time (baseline, post-treatment, and follow-up), and Time × Condition interaction with baseline scores on the outcome variables as a covariate for baseline adjustment. This was done in the fixed part of the equation. Participant ID was modeled as a level in the random part of the equation. An unstructured between-group variance and covariance structure was assumed. It was an a priori decision not to include the six treatment sites as an extra level because there were only six sites. Instead, we modeled the nesting of patients within sites by a series of site (0/1) indicators in the fixed part of the equation.

It is worth noting that LPC suicide attempts consisted of a count of those behaviors over the previous six months. The LPC count data were over-dispersed, and they were therefore evaluated using a generalized mixed model of the negative binomial family and the log as the link function. The exponentiated model coefficients can be interpreted as the incidence rate ratio (IRR), showing the rate of suicide attempts in the DBT condition over the rate in the TAU condition at post-treatment and follow-up. The fixed and random parts of the negative binomial mixed models for the LPC counts were specified similarly to the (Gaussian) mixed models for the SIDAS, BDI, and SIAS scales.

Sensitivity analyses

It was an a priori decision to assess the robustness of the base case analyses in a sensitivity analysis using last-observation-carried-forward (LOCF) imputation of missing observations caused by study dropout. To that end all mixed models were repeated after LOCF imputation.

A post-hoc sensitivity analysis was conducted to address the impact of disrupted access to healthcare and the shift to telehealth during three COVID-19 lockdowns, given the primary execution of the study during the pandemic. Face-to-face treatment swiftly transitioned to telehealth, primarily utilizing ZOOM, in response to national lockdowns and social distancing regulations (Rijksoverheid, 2021). Proactive measures were taken, including providing smartphones to patients who did not possess any, and facilitating exposure to video features during therapy. Assessments were conducted via video calls during lockdown periods. Three COVID lockdown indicators were created for each participant at each data collection wave (baseline, post-treatment, and follow-up). These indicators were set at 1 if the participant's access to face-to-face care was disrupted by a lockdown at that time and 0 otherwise. The COVID lockdown indicators were included as time-varying confounders in the mixed model equations. The base case analyses were then compared with the lockdown-adjusted analyses.

Results

Sample at baseline

Recruitment was from September 2018 to December 2022, with 167 potential participants assessed for eligibility. Of these, 44 participants were excluded – 6 for not meeting inclusion criteria due to a low SIDAS score and 38 for various reasons (e.g. 19 found the patient information letter unappealing, 4 due to randomization, 7 unable/unwilling to travel, 5 due to time constraints, 3 due to treatment elsewhere). Subsequently, 123 participants were randomly assigned to either the DBT group (n = 63) or the TAU group (n = 60) (see Fig. 1). Among these 123 participants, 29 (24%) were recruited remotely due to the COVID-19 lockdowns, 95 (77%) were shifted to remote treatment midway through the trial, and none were treated exclusively via Zoom.

Figure 1. The flow of participants through the trial.

Demographic characteristics, clinical profiles, and medication use at baseline are shown in Table 1.

Table 1. Baseline characteristics of participants by condition

DBT, dialectical behavior therapy; TAU, treatment as usual; n, number of participants; M, mean; s.d., standard deviation; DSM-5, Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition; ASD, autism spectrum disorder; ADHD, attention deficit hyperactivity disorder; SIDAS, Suicidal Ideation Attributes Scale; LPC, lifetime parasuicide count of self-harm behavior with suicidal intentions; BDI-II, Beck Depression Inventory-II; SIAS, Social Interaction Anxiety Scale.

a Prior DSM diagnoses are available on request.

b Which and dosage antidepressants, antipsychotics, and ADHD medication are available on request.

The two conditions did not differ significantly in demographics, employment, education, diagnoses, medication use, or outcome variable data. No significant differences were observed between patients with medication changes and those without baseline changes throughout the entire study (data not shown).

Study dropout

Dropout from the study was kept to a minimum, with 6 participants (9.5%) in the DBT condition and 5 (8.3%) in TAU having missing values at follow-up on the primary outcome variable (SIDAS). The attrition rates were not statistically different across the conditions (χ2 = 0.05; df = 1; p = 0.817). Importantly, none of the variables described in Table 1 was a predictor of missingness due to dropout (not even at a more liberal p ⩽ 0.10), suggesting that missingness was not selective for these variables.

Acceptability

Treatment dropout rates did not differ significantly between the two groups (χ2 = 1.44; df = 1; p = 0.231): 11 participants in DBT (17.4%) and 6 participants in TAU (10%). In the DBT condition, 6 out of the 11 dropouts left before treatment started as no commitment was obtained. Out of the remaining five dropouts, four participants (6.3%) left DBT due to the treatment format, while one person exited due to COVID-19, indicating DBT was as well-tolerated as TAU.

Adherence and severe adverse events

Two videotapes per therapist were rated for treatment fidelity. Scores ranged from 9 to 26, with an average of 17, meaning low to moderate adherence. We found high interrater agreement (weighted kappa 0.86).

In the TAU condition, two participants died by suicide. Overall, 14 severe adverse events (SAEs) were reported: 9 (15.0%) in TAU, including both suicides and 5 in DBT (7.9%). In DBT, one SAE occurred immediately after randomization and before treatment started. All SAEs were reported to the medical ethics committee. None of the severe adverse events was considered to be caused by participation in the study. These findings may attest to the relative safety of DBT for managing suicidality in ASDs.

Evaluation of primary outcomes

Figure 2 shows how SIDAS suicidal ideation was significantly reduced over time in both conditions at post-treatment (b = −11.17, s.e. = 1.41; z = −7.94; p < 0.001) and follow-up (b = −14.46, s.e. = 1.38; z = −10.51; p < 0.001), but more so in DBT than TAU at post-treatment (b = −4.42, s.e. = 1.97; z = −2.24; p = 0.025), although this between-group difference was no longer statistically significant post-treatment (b = −3.30, s.e. = 1.94; z = −1.70; p = 0.089).

Figure 2. Change in main and secondary outcomes by condition over time.

SIDAS, Suicidal Ideation Attributes Scale; BDI, Beck Depression Inventory-II; SIAS, Social Interaction Anxiety Scale; DBT, dialectical behavior therapy; TAU, treatment as usual.

LPC suicide attempts consisted of counts (0, 1, …, K) of these behaviors as they occurred in the 6 months preceding the measurements at baseline, post-treatment, and follow-up. The incidence rate ratio (IRR) showed that the decline was much stronger in the DBT condition than in TAU at post-treatment (IRR = 0.05; s.e. = 0.05; z = −3.15; p = 0.002). The ratio was no longer statistically significant at 12-month follow-up (IRR = 0.25; s.e. = 0.21; z = −1.61; p = 0.107). The general picture for both primary outcomes is quite similar: from baseline to post-treatment, a decline in SIDAS suicidal ideation and LPC suicidal behaviors could be observed. This decline was more pronounced in the DBT condition during the experimental time interval. After post-treatment, the reductions in suicidality were sustained up to follow-up in both conditions.

Evaluation of secondary outcomes

BDI depressive symptom severity was significantly more strongly reduced in DBT than in TAU at post-treatment (b = −2.74, s.e. = 1.38; z = −1.99; p = 0.046) as well as at the 12-month follow-up (b = 3.38, s.e. = 1.37; z = −2.46; p = 0.014), see Fig. 2.

SIAS social anxiety declined over time in both conditions, but there was no statistically significant difference between DBT and TAU either at post-treatment (b = −3.11, s.e. = 1.90; z = −1.64; p = 0.101) or at follow-up (b = −2.78; s.e. = 1.89; z = −1.47; p = 0.142), see Fig. 2. For test results of primary and secondary outcomes over time, see Table 2.

Table 2. Weighted means, standard deviations, and test results of primary and secondary outcomes over time

M, mean; s.d., standard deviation; b, regression coefficient); IRR, incidence rate ratio; CI, confidence interval; n, number of participants; SIDAS, Suicidal Ideation Attributes Scale; LPC SUI, lifetime parasuicide count of self-harm behavior with suicidal intentions; BDI, Beck Depression Inventory-II; SIAS, Social Interaction Anxiety Scale; DBT, dialectical behavior therapy; TAU, treatment as usual; t 0, baseline; t 6, posttreatment; t 12, 12-month follow-up assessment.

a Values indicate the p values of time of the multilevel models. p values < 0.05 are presented in bold.

b Values indicate the p values of time × treatment of the multilevel models. p values < 0.05 are presented in bold.

Sensitivity analyses

To ascertain the robustness of the main analyses conducted with the mixed models, a pre-planned sensitivity analysis was conducted in which missing observations due to dropout were imputed using the LOCF method. Table 3 compares the regression coefficient, standard error, and p values of time effects (post-treatment and follow-up v. baseline) and of condition × time (DBT v. TAU at post-treatment and at follow-up) obtained by the base case analyses, the sensitivity analysis after LOCF imputation and the COVID lockdown adjusted analyses for SIDAS suicidal ideation, LPC suicide attempts, BDI depressive symptom severity and SIAS social anxiety.

Table 3. Main v. sensitivity using LOCF v. COVID adjusted analyses- comparing b, s.e., p values

Boldface = statistically significant at p < 0.05; SIDAS, Suicidal Ideation Attributes Scale; LPC SUI, lifetime parasuicide count of self-harm behavior with suicidal intentions; BDI, Beck Depression Inventory-II; SIAS, Social Interaction Anxiety Scale; Base Case, base case analysis; Sens, sensitivity analysis; LOCF, last observation carried forward; COVID, lockdown adjusted analyses; b, regression coefficient; s.e., standard error; IRR, incidence rate ratio.

There were only a few differences between the base case and the LOCF sensitivity analyses. The p value changes for SIDAS and LPC were minute and could not materially alter the conclusions. However, in the LOCF sensitivity analysis of BDI depression, DBT was no longer significantly superior to TAU at post-treatment and follow-up. The BDI analysis contained a relatively high number of dropouts, possibly contributing to the conservative LOCF results. In the base case analysis, the time effect on the SIAS at follow-up was not significant, but it became statistically significant in the LOCF sensitivity analysis.

Table 3 demonstrated that the outcomes of the lockdown-adjusted analyses did not materially affect the original conclusions.

Discussion

Key findings

To our knowledge, this is the first well-powered randomized controlled trial to assess the effectiveness of DBT targeting suicidal ideation and suicide attempts in autistic adults receiving outpatient care in mental health services. The results support our hypotheses, indicating that DBT led to a more substantial and significant reduction in (1) suicidal ideation, (2) suicide attempts, and (3) depression compared to TAU until six months after baseline. However, the between-group differences lost significance for suicidal ideation and suicide attempts at the 12-month follow-up as the effects of TAU began to approach the effect levels of DBT. Regarding depressive symptom severity, the between-group difference favoring DBT over TAU remained statistically significant at follow-up. Our hypothesis had to be rejected for social anxiety as neither condition showed a statistically significant reduction over time and DBT did not outperform TAU. DBT was conducted with low to moderate fidelity but was well-received by participants, had a low attrition rate, and showed fewer adverse events than TAU. Sensitivity analyses with LOCF and COVID-19 lockdowns attested to the robustness of the key findings.

Findings in context

In general, the significant reductions in suicidal behaviors align with the consistent findings of DBT's effectiveness across various disorders (DeCou, Comtois, & Landes, Reference DeCou, Comtois and Landes2019). Our findings are consistent with other studies that targeted emotion regulation with interventions partially based on DBT in autistic adults. For instance, a study by Bemmouna, Coutelle, Weibel, and Weiner (Reference Bemmouna, Coutelle, Weibel and Weiner2022) demonstrated the feasibility and acceptability of an 18-week comprehensive DBT with seven autistic individuals, revealing effects on emotion regulation. Similarly, Ritschel, Guy, and Maddox (Reference Ritschel, Guy and Maddox2022) conducted a study on a 24-week DBT skill group, indicating effects on emotion regulation. Additionally, Hartmann et al. (Reference Hartmann, Urbano, Raffaele, Kreiser, Williams, Qualls and Elkins2019) assessed the effectiveness of a 12-week CBT and DBT-informed group intervention with seven young individuals, demonstrating effects on emotion regulation.

Follow-up data reported by Linehan et al. (Reference Linehan, Schmidt, Dimeff, Craft, Kanter and Comtois1999) and Linehan et al. (Reference Linehan, Comtois, Murray, Brown, Gallop, Heard and Lindenboim2006) demonstrated a sustained effect in treatment completers at 4 months after the end of treatment, and Linehan et al. (Reference Linehan, Schmidt, Dimeff, Craft, Kanter and Comtois1999) and Linehan et al. (Reference Linehan, Comtois, Murray, Brown, Gallop, Heard and Lindenboim2006) indicated lasting effects on suicide attempts at 12 months post-treatment. These findings provide further support for the data obtained in our current study, indicating the enduring effect of DBT over time.

Regarding the severity of depression, our study demonstrates significant and sustained improvement, which aligns with previous research (Lord et al., Reference Lord, Rutter, Goode, Heemsbergen, Jordan, Mawhood and Schopler1989; Lynch et al., Reference Lynch, Morse, Mendelson and Robins2003; Mehlum et al., Reference Mehlum, Ramleth, Tørmoen, Haga, Diep, Stanley and Grøholt2019; Neacsiu et al., Reference Neacsiu, Eberle, Kramer, Wiesmann and Linehan2014). Additionally, concerning the brief treatment duration, our results are consistent with those of a small open study with borderline personality patients, which showed that a brief DBT program significantly reduced suicidal thoughts and had demonstrated effects on self-harming behavior, suicidal ideation, and depression (Stanley et al., Reference Stanley, Day, Gallyer, Shelef, Kalla, Gutierrez and Joiner2020).

In this study, the statistically non-significant decline in social anxiety was steeper in DBT, both after treatment and at follow-up. Various factors contribute to the reduction of social anxiety in both groups. Regression to the mean is notable, as participants initially at a high suicide risk likely experienced heightened anxiety at pre-treatment. Plausibly, their anxiety scores decreased during post-assessment and follow-up. Autistic individuals may benefit from a supportive therapeutic relationship, easing social anxiety. Additionally, DBT components like emotion regulation and mindfulness training directly impact social anxiety (Renna et al., Reference Renna, Quintero, Soffer, Pino, Ader, Fresco and Mennin2018).

The intervention is costly, with twice-a-week skill group training plus weekly psychotherapy during a limited period of six months. Of course, reduced suicidality may reduce other healthcare and societal costs, and a paper with economic analyses of the results is in preparation to consider the cost-effectiveness of DBT viz-a-viz TAU.

COVID-19

According to a recent review by Scheeren, Crane, Heyworth, and Pellicano (Reference Scheeren, Crane, Heyworth and Pellicano2023), the COVID-19 pandemic significantly affected autistic adults, leading to higher infection and hospitalization rates, heightened the levels of distress and depression and reduced their quality of life (Mutluer, Doenyas, & Aslan Genc, Reference Mutluer, Doenyas and Aslan Genc2020).

However, our clinical observations suggest that many autistic patients responded positively to the general reduction in public social activity and the increase in online appointments brought about by COVID-19 restrictions. They reported benefits from these changes, including relief from external pressures, improved control over sensory stimulation, and a sense of sharing circumstances equally with others. These findings could account for our low dropout rate.

Strengths and limitations

The study has several strengths. One strength is the study's pragmatic trial design which increased the ecological validity of the study because our study was conducted in routine mental healthcare conditions with therapists from the services, allowing our findings to be generalized to routine clinical practice. This approach may facilitate the broader implementation of DBT for suicidality across mental health services for ASD. Another strength is that the existing DBT manual was reworked in cooperation with autistic adults with suicidal behavior, resulting in enhanced accessibility of the manual for autistic people.

The study had several limitations. First, we had an active control group, but it was unstructured. Any treatment and intensity were permitted in the control group during a 12-month treatment duration, whereas DBT treatment ended after 6 months. Second, monitoring of treatment fidelity showed that some DBT sessions deviated from protocol. Adherence to the protocol is essential for the internal validity of the results in our study and how these can be transferred and replicated in other health services. Third, telephone consultation (if needed) was limited to the therapist's availability, so not all patients could access 24-hour consultation. This may have inhibited skills generalization across sessions. Lastly, COVID-19 lockdowns impacted our research, necessitating a temporary but significant shift from in-person to online treatment. However, our sensitivity analysis suggests that these lockdowns did not confound, thus bias, treatment outcomes.

Implications for clinical practice

This study demonstrated that a shortened 26-week DBT treatment was effective in autistic adults with suicidal ideation and suicide attempts. Specifically, participants received DBT well, as evidenced by the low attrition rate, and DBT was shown to be safe in clinical practice, as it did not provoke severe adverse events.

Implications for future research

For future research, we propose several methodological recommendations. These include engaging experienced DBT clinicians, comparing DBT with a well-structured control condition, extending follow-up periods, performing mediation and moderator analysis, and conducting an economic evaluation. Implementing these strategies would enhance our comprehension of DBT's effectiveness, sustainability, change mechanisms, cost-effectiveness, and possible variations across subgroups.

Conclusion

This study demonstrates that DBT reduces suicidality more rapidly than TAU and is effective, safe, and acceptable for autistic people and suicidal thoughts and behaviors.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0033291724000825

Acknowledgements

We sincerely thank Marion Bruns for her assistance in organizing and managing the data collection, filing and fact-checking. We thank the six mental health services for participating in the trial: Rivierduinen, Lentis, Vincent van Gogh, Parnassia Den Haag, Haarlem/Zaandam and Antes/ Rotterdam. We also thank all the participants, therapists, research assistants (Sophie Wissenburg and Gaby van der Palm in particular), local researchers and all others who contributed to this study. We extend our heartfelt gratitude to all the participants for their commitment to this study and for providing valuable feedback on treatment material and session content.

Funding statement

This study was funded by the Dutch support foundation Stichting tot Steun Vereniging voor Christelijke Verzorging van Geestes en Zenuwzieken (grant number 240) and by the Innovatie Platform Parnassia Groep (grant number 211001).

Competing interest

None.

Ethical standards

The authors assert that all procedures contributing to this work comply with the ethical standards of the relevant national and institutional committees on human experimentation and with the Helsinki Declaration of 1975, as revised in 2008.

References

American Psychiatric Association (2013). Diagnostic and statistical manual of mental disorders (5th ed.). Washington, DC: American Psychiatric Publishing.Google Scholar
Anderson, S., & Morris, J. (2006). Cognitive behaviour therapy for people with asperger syndrome. Behavioural and Cognitive Psychotherapy, 34(3), 293303. doi: 10.1017/S1352465805002651CrossRefGoogle Scholar
Arwert, T. G., & Sizoo, B. B. (2020). Self-reported suicidality in male and female adults with autism spectrum disorders: Rumination and self-esteem. Journal of Autism and Developmental Disorders, 50(10), 35983605. doi: 10.1007/s10803-020-04372-zCrossRefGoogle ScholarPubMed
Beck, A. T., Steer, R. A., Ball, R., & Ranieri, W. (1996). Comparison of beck depression inventories -IA and -II in psychiatric outpatients. Journal of Personality Assessment, 67(3), 588597. doi: 10.1207/s15327752jpa6703_13CrossRefGoogle Scholar
Bemmouna, D., Coutelle, R., Weibel, S., & Weiner, L. (2022). Feasibility, acceptability and preliminary efficacy of dialectical behavior therapy for autistic adults without intellectual disability: A mixed methods study. Journal of Autism and Developmental Disorders, 52(10), 43374354. doi: 10.1007/s10803-021-05317-wCrossRefGoogle ScholarPubMed
Borges, G., Nock, M. K., Haro Abad, J. M., Hwang, I., Sampson, N. A., Alonso, J., … Kessler, R. C. (2010). Twelve-month prevalence of and risk factors for suicide attempts in the world health organization world mental health surveys. Journal of Clinical Psychiatry, 71(12), 16171628. doi: 10.4088/JCP.08m04967bluCrossRefGoogle ScholarPubMed
Bottema-Beutel, K., Kapp, S. K., Lester, J. N., Sasson, N. J., & Hand, B. N. (2021). Avoiding ableist language: Suggestions for autism researchers. Autism Adulthood, 3(1), 1829. doi: 10.1089/aut.2020.0014CrossRefGoogle ScholarPubMed
Boulton, K. A., & Guastella, A. J. (2021). Social anxiety symptoms in autism spectrum disorder and social anxiety disorder: Considering the reliability of self-report instruments in adult cohorts. Autism Research, 14(11), 23832392. doi: 10.1002/aur.2572CrossRefGoogle ScholarPubMed
Camm-Crosbie, L., Bradley, L., Shaw, R., Baron-Cohen, S., & Cassidy, S. (2019). ‘People like me don't get support’: Autistic adults’ experiences of support and treatment for mental health difficulties, self-injury and suicidality. Autism, 23(6), 14311441. doi: 10.1177/1362361318816053CrossRefGoogle ScholarPubMed
Cantor, J., McBain, R. K., Kofner, A., Stein, B. D., & Yu, H. (2020). Fewer than half of us mental health treatment facilities provide services for children with autism spectrum disorder. Health Affairs (Millwood), 39(6), 968974. doi: 10.1377/hlthaff.2019.01557CrossRefGoogle ScholarPubMed
Cassidy, S., Bradley, L., Shaw, R., & Baron-Cohen, S. (2018). Risk markers for suicidality in autistic adults. Molecular Autism, 9, 42. doi: 10.1186/s13229-018-0226-4CrossRefGoogle ScholarPubMed
Castillejos, M. C., Huertas, P., Martín, P., & Moreno Küstner, B. (2021). Prevalence of suicidality in the European general population: A systematic review and meta-analysis. Archives Suicide Research, 25(4), 810828. doi: 10.1080/13811118.2020.1765928CrossRefGoogle ScholarPubMed
Chen, E. Y., Matthews, L., Allen, C., Kuo, J. R., & Linehan, M. M. (2008). Dialectical behavior therapy for clients with binge-eating disorder or bulimia nervosa and borderline personality disorder. International Journal of Eating Disorders, 41(6), 505512. doi: 10.1002/eat.20522CrossRefGoogle ScholarPubMed
Comtois, K. A., & Linehan, M. M. (1999). Lifetime parasuicide count: Description and psychometrics. Proceedings from 32nd annual meeting of the American Association of Suicidology, Houston, TX.Google Scholar
Conner, C. M., Golt, J., Righi, G., Shaffer, R., Siegel, M., & Mazefsky, C. A. (2020). A comparative study of suicidality and its association with emotion regulation impairment in large ASD and us census-matched samples. Journal of Autism and Developmental Disorders, 50(10), 35453560. doi: 10.1007/s10803-020-04370-1CrossRefGoogle ScholarPubMed
Costa, A. P., Loor, C., & Steffgen, G. (2020). Suicidality in adults with autism spectrum disorder: The role of depressive symptomatology, alexithymia, and antidepressants. Journal of Autism and Developmental Disorders, 50(10), 3585–3597. doi: 10.1007/s10803-020-04433-3CrossRefGoogle ScholarPubMed
Crane, L., Davidson, I., Prosser, R., & Pellicano, E. (2019). Understanding psychiatrists’ knowledge, attitudes and experiences in identifying and supporting their patients on the autism spectrum: Online survey. The British Journal of Psychiatry Open, 5(3), e33. doi: 10.1192/bjo.2019.12CrossRefGoogle ScholarPubMed
DeCou, C. R., Comtois, K. A., & Landes, S. J. (2019). Dialectical behavior therapy is effective for the treatment of suicidal behavior: A meta-analysis. Behavior Therapy, 50(1), 6072. doi: 10.1016/j.beth.2018.03.009CrossRefGoogle ScholarPubMed
DeFilippis, M. (2018). Depression in children and adolescents with autism spectrum disorder. Children (Basel), 5(9), 112. doi: 10.3390/children5090112Google ScholarPubMed
Delparte, C. A., Power, H. A., Gelinas, B. L., Oliver, A. M., Hart, R. D., & Wright, K. D. (2019). Examination of the effectiveness of a brief, adapted dialectical behavior therapy-skills training group for bariatric surgical candidates. Obesity Surgery, 29(1), 252261. doi: 10.1007/s11695-018-3515-2CrossRefGoogle Scholar
Fleming, A. P., McMahon, R. J., Moran, L. R., Peterson, A. P., & Dreessen, A. (2015). Pilot randomized controlled trial of dialectical behavior therapy group skills training for ADHD among college students. Journal of Attention Disorders, 19(3), 260271. doi: 10.1177/1087054714535951CrossRefGoogle ScholarPubMed
Harley, R., Sprich, S., Safren, S., Jacobo, M., & Fava, M. (2008). Adaptation of dialectical behavior therapy skills training group for treatment-resistant depression. The Journal of Nervous and Mental Disease, 196(2), 136143. doi: 10.1097/NMD.0b013e318162aa3fCrossRefGoogle Scholar
Harned, M. S., Korslund, K. E., Schmidt, S. C., & Gallop, R. J. (2021). The dialectical behavior therapy adherence coding scale (DBT ACS): Psychometric properties. Psychological Assessment, 33(6), 552561. doi: 10.1037/pas0000999CrossRefGoogle ScholarPubMed
Hartmann, K., Urbano, M. R., Raffaele, C. T., Kreiser, N. L., Williams, T. V., Qualls, L. R., & Elkins, D. E. (2019). Outcomes of an emotion regulation intervention group in young adults with autism spectrum disorder. Bulletin of the Menninger Clinic, 83(3), 259277. doi: 10.1521/bumc.2019.83.3.259CrossRefGoogle ScholarPubMed
Hedley, D., Batterham, P. J., Bury, S. M., Clapperton, A., Denney, K., Dissanayake, C., … Stokes, M. A. (2023). The suicidal ideation attributes scale-modified (sidas-m): Development and preliminary validation of a new scale for the measurement of suicidal ideation in autistic adults. Autism, 27(4), 11151131. doi: 10.1177/13623613221131234CrossRefGoogle ScholarPubMed
Hedley, D., & Uljarević, M. (2018). Systematic review of suicide in autism spectrum disorder: Current trends and implications. Current Developmental Disorders Reports, 5(1), 6576. doi: 10.1007/s40474-018-0133-6CrossRefGoogle Scholar
Hedley, D., Uljarević, M., Foley, K. R., Richdale, A., & Trollor, J. (2018). Risk and protective factors underlying depression and suicidal ideation in autism spectrum disorder. Depression and Anxiety, 35(7), 648657. doi: 10.1002/da.22759CrossRefGoogle ScholarPubMed
Hossain, M. M., Khan, N., Sultana, A., Ma, P., McKyer, E. L. J., Ahmed, H. U., & Purohit, N. (2020). Prevalence of comorbid psychiatric disorders among people with autism spectrum disorder: An umbrella review of systematic reviews and meta-analyses. Psychiatry Research, 287, 112922. doi: 10.1016/j.psychres.2020.112922CrossRefGoogle ScholarPubMed
Huntjens, A., Landlust, A., Wissenburg, S., & van der Gaag, M. (2024). The prevalence of suicidal behavior in autism spectrum disorder. Crisis, 45(2), 144–153. doi: 10.1027/0227-5910/a000922CrossRefGoogle ScholarPubMed
Huntjens, A., van den Bosch, L. M. C. W., Sizoo, B., Kerkhof, A., Huibers, M. J. H., & van der Gaag, M. (2020). The effect of dialectical behaviour therapy in autism spectrum patients with suicidality and/ or self-destructive behaviour (DIASS): Study protocol for a multicentre randomised controlled trial. BMC Psychiatry, 20(1), 127. doi: 10.1186/s12888-020-02531-1CrossRefGoogle ScholarPubMed
Jadav, N., & Bal, V. H. (2022). Associations between co-occurring conditions and age of autism diagnosis: Implications for mental health training and adult autism research. Autism Research, 15(11), 21122125. doi: 10.1002/aur.2808CrossRefGoogle ScholarPubMed
Kan, C. C., Geurts, H. M., & Sizoo, B. B. (2013). Multidisciplinaire richtlijn diagnostiek en behandeling van autismespectrumstoornissen bij volwassenen. Utrecht: Tijdstroom.Google Scholar
Kenny, L., Hattersley, C., Molins, B., Buckley, C., Povey, C., & Pellicano, E. (2016). Which terms should be used to describe autism? Perspectives from the UK autism community. Autism, 20(4), 442462. doi: 10.1177/1362361315588200CrossRefGoogle ScholarPubMed
Kõlves, K., Fitzgerald, C., Nordentoft, M., Wood, S. J., & Erlangsen, A. (2021). Assessment of suicidal behaviors among individuals with autism spectrum disorder in Denmark. JAMA Network Open, 4(1), e2033565. doi: 10.1001/jamanetworkopen.2020.33565CrossRefGoogle ScholarPubMed
Lever, A. G., & Geurts, H. M. (2016). Psychiatric co-occurring symptoms and disorders in young, middle-aged, and older adults with autism spectrum disorder. Journal of Autism and Developmental Disorders, 46(6), 19161930. doi: 10.1007/s10803-016-2722-8CrossRefGoogle ScholarPubMed
Linehan, M. M. (1993). Cognitive behavioural therapy of borderline personality disorder. New York: The Guilford Press.Google Scholar
Linehan, M. M., Comtois, K. A., Murray, A. M., Brown, M. Z., Gallop, R. J., Heard, H. L., … Lindenboim, N. (2006). Two-year randomized controlled trial and follow-up of dialectical behavior therapy vs therapy by experts for suicidal behaviors and borderline personality disorder. Archives Of General Psychiatry, 63(7), 757766. doi: 10.1001/archpsyc.63.7.757CrossRefGoogle ScholarPubMed
Linehan, M. M., Schmidt, H., Dimeff, L. A., Craft, J. C., Kanter, J., & Comtois, K. A. (1999). Dialectical behavior therapy for patients with borderline personality disorder and drug-dependence. The American Journal on Addictions, 8(4), 279292. doi: 10.1080/105504999305686CrossRefGoogle ScholarPubMed
Lipinski, S., Boegl, K., Blanke, E. S., Suenkel, U., & Dziobek, I. (2022). A blind spot in mental healthcare? Psychotherapists lack education and expertise for the support of adults on the autism spectrum. Autism, 26(6), 15091521. doi: 10.1177/13623613211057973CrossRefGoogle ScholarPubMed
Lord, C., Rutter, M., Goode, S., Heemsbergen, J., Jordan, H., Mawhood, L., & Schopler, E. (1989). Austism diagnostic observation schedule: A standardized observation of communicative and social behavior. Journal of Autism and Developmental Disorders, 19(2), 185212. doi: 10.1007/BF02211841CrossRefGoogle Scholar
Lynch, T. R., Morse, J. Q., Mendelson, T., & Robins, C. J. (2003). Dialectical behavior therapy for depressed older adults: A randomized pilot study. The American Journal of Geriatric Psychiatry, 11(1), 3345. doi: 10.1097/00019442-200301000-00006CrossRefGoogle ScholarPubMed
Maddox, B. B., & Gaus, V. L. (2019). Community mental health services for autistic adults: Good news and bad news. Autism Adulthood, 1(1), 1519. doi: 10.1089/aut.2018.0006CrossRefGoogle ScholarPubMed
Mattick, R. P., & Clarke, J. C. (1998). Development and validation of measures of social phobia scrutiny fear and social interaction anxiety. Behaviour Research and Therapy, 36(4), 455470. doi: 10.1016/s0005-7967(97)10031-6CrossRefGoogle ScholarPubMed
McMain, S. F., Chapman, A. L., Kuo, J. R., Guimond, T., Streiner, D. L., Dixon-Gordon, K. L., … Hoch, J. S. (2018). The effectiveness of 6 versus 12-months of dialectical behaviour therapy for borderline personality disorder: The feasibility of a shorter treatment and evaluating responses (faster) trial protocol. BMC Psychiatry, 18(1), 230. doi: 10.1186/s12888-018-1802-zCrossRefGoogle ScholarPubMed
Mehlum, L., Ramleth, R. K., Tørmoen, A. J., Haga, E., Diep, L. M., Stanley, B. H., … Grøholt, B. (2019). Long term effectiveness of dialectical behavior therapy versus enhanced usual care for adolescents with self-harming and suicidal behavior. Journal of Child Psychology and Psychiatry, 60(10), 11121122. doi: 10.1111/jcpp.13077CrossRefGoogle ScholarPubMed
Mutluer, T., Doenyas, C., & Aslan Genc, H. (2020). Behavioral implications of the COVID-19 process for autism spectrum disorder, and individuals’ comprehension of and reactions to the pandemic conditions. Frontiers in Psychiatry, 11, 561882. doi: 10.3389/fpsyt.2020.561882CrossRefGoogle Scholar
Neacsiu, A. D., Eberle, J. W., Kramer, R., Wiesmann, T., & Linehan, M. M. (2014). Dialectical behavior therapy skills for transdiagnostic emotion dysregulation: A pilot randomized controlled trial. Behaviour Research and Therapy, 59, 4051. doi: 10.1016/j.brat.2014.05.005CrossRefGoogle ScholarPubMed
Paquette-Smith, M., Weiss, J., & Lunsky, Y. (2014). History of suicide attempts in adults with Asperger syndrome. Crisis, 35(4), 273277. doi: 10.1027/0227-5910/a000263CrossRefGoogle ScholarPubMed
Renna, M. E., Quintero, J. M., Soffer, A., Pino, M., Ader, L., Fresco, D. M., & Mennin, D. S. (2018). A pilot study of emotion regulation therapy for generalized anxiety and depression: Findings from a diverse sample of young adults. Behavior Therapy, 49(3), 403418. doi: 10.1016/j.beth.2017.09.001CrossRefGoogle ScholarPubMed
Richards, G., Kenny, R., Griffiths, S., Allison, C., Mosse, D., Holt, R., … Baron-Cohen, S. (2019). Autistic traits in adults who have attempted suicide. Molecular Autism, 10, 26. doi: 10.1186/s13229-019-0274-4CrossRefGoogle ScholarPubMed
Rijksoverheid. (2021). Timeline Coronavirus. Retrieved from https://www.rijksoverheid.nl/onderwerpen/coronavirus-tijdlijnGoogle Scholar
Ritschel, L. A., Guy, L., & Maddox, B. B. (2022). A pilot study of dialectical behaviour therapy skills training for autistic adults. Behavioural and Cognitive Psychotherapy, 50(2), 187202. doi: 10.1017/S1352465821000370CrossRefGoogle ScholarPubMed
Sampson, K. N., Upthegrove, R., Abu-Akel, A., Haque, S., Wood, S. J., & Reniers, R. (2020). Co-occurrence of autistic and psychotic traits: Implications for depression, self-harm and suicidality. Psychological Medicine, 51(8), 19. doi: 10.1017/S0033291720000124Google ScholarPubMed
Scheeren, A. M., Crane, L., Heyworth, M., & Pellicano, E. (2023). Impact of the COVID-19 pandemic on autistic adults: A scoping review. Current Developmental Disorders Report, 10(1), 92122. doi: 10.1007/s40474-023-00268-6CrossRefGoogle ScholarPubMed
South, M., Beck, J. S., Lundwall, R., Christensen, M., Cutrer, E. A., Gabrielsen, T. P., … Lundwall, R. A. (2020). Unrelenting depression and suicidality in women with autistic traits. Journal of Autism and Developmental Disorders, 50, 36063619. doi: 10.1007/s10803-019-04324-2CrossRefGoogle ScholarPubMed
Spain, D., Sin, J., Chalder, T., Murphy, D., & Happe, F. (2015). Cognitive behaviour therapy for adults with autism spectrum disorders and psychiatric co-morbidity: A review. Research in Autism Spectrum Disorders, 9, 151162. doi: 10.1016/j.rasd.2014.10.019CrossRefGoogle Scholar
Spek, A. A., van Ham, N. C., & Nyklíček, I. (2013). Mindfulness-based therapy in adults with an autism spectrum disorder: A randomized controlled trial. Research in Developmental Disabilities, 34(1), 246253. doi: 10.1016/j.ridd.2012.08.009CrossRefGoogle ScholarPubMed
Stanley, I. H., Day, T. N., Gallyer, A. J., Shelef, L., Kalla, C., Gutierrez, P. M., & Joiner, T. E. (2020). Autism-related traits and suicide risk among active duty U. S. military service members. Psychological Services, 18(3), 377–388. doi: 10.1037/ser0000418Google ScholarPubMed
van Spijker, B. A., Batterham, P. J., Calear, A. L., Farrer, L., Christensen, H., Reynolds, J., & Kerkhof, A. J. (2014). The suicidal ideation attributes scale (SIDAS): Community-based validation study of a new scale for the measurement of suicidal ideation. Suicide & Life-threatening Behavior, 44(4), 408419. doi: 10.1111/sltb.12084CrossRefGoogle ScholarPubMed
Wechsler, D. (2011). Wechsler abbreviated scale of intelligence, second edition (WASI-II) (2nd ed.). San Antonio, TX: NCS Pearson. doi: 10.1177/0734282912467756Google Scholar
White, S. W., Mazefsky, C. A., Dichter, G. S., Chiu, P. H., Richey, J. A., & Ollendick, T. H. (2014). Social-cognitive, physiological, and neural mechanisms underlying emotion regulation impairments: Understanding anxiety in autism spectrum disorder. International Journal of Developmental Neuroscience, 39, 2236. doi: 10.1016/j.ijdevneu.2014.05.012CrossRefGoogle ScholarPubMed
Wijnhoven, L. A., Niels-Kessels, H., Creemers, D. H., Vermulst, A. A., Otten, R., & Engels, R. C. (2019). Prevalence of comorbid depressive symptoms and suicidal ideation in children with autism spectrum disorder and elevated anxiety symptoms. Journal of Child & Adolescent Mental Health, 31(1), 7784. doi: 10.2989/17280583.2019.1608830CrossRefGoogle ScholarPubMed
Williams, Z. J., Everaert, J., & Gotham, K. O. (2021). Measuring depression in autistic adults: Psychometric validation of the Beck Depression Inventory-II. Assessment, 28(3), 858876. doi: 10.1177/1073191120952889CrossRefGoogle ScholarPubMed
Zahid, S., & Upthegrove, R. (2017). Suicidality in autistic spectrum disorders. Crisis, 38(4), 237246. doi: 10.1027/0227-5910/a000458CrossRefGoogle ScholarPubMed
Figure 0

Figure 1. The flow of participants through the trial.

Figure 1

Table 1. Baseline characteristics of participants by condition

Figure 2

Figure 2. Change in main and secondary outcomes by condition over time.SIDAS, Suicidal Ideation Attributes Scale; BDI, Beck Depression Inventory-II; SIAS, Social Interaction Anxiety Scale; DBT, dialectical behavior therapy; TAU, treatment as usual.

Figure 3

Table 2. Weighted means, standard deviations, and test results of primary and secondary outcomes over time

Figure 4

Table 3. Main v. sensitivity using LOCF v. COVID adjusted analyses- comparing b, s.e., p values

Supplementary material: File

Huntjens et al. supplementary material

Huntjens et al. supplementary material
Download Huntjens et al. supplementary material(File)
File 41.8 KB