- Open Access
A systematic review and meta-analysis of suicidality in autistic and possibly autistic people without co-occurring intellectual disability
Molecular Autism volume 14, Article number: 12 (2023)
Suicidality is highly prevalent in autistic people without co-occurring intellectual disabilities, and high autistic traits are found in adults who have attempted suicide. However, prevalence rates for both autistic and possibly autistic people have not been synthesised meta-analytically.
To (1) calculate pooled prevalence estimates of suicidality in autistic people and possibly autistic people without co-occurring intellectual disability; (2) evaluate the influence of participant and study level characteristics on heterogeneity; and (3) determine the quality of evidence.
Preferred Reporting Items for Systematic Reviews and Meta-Analysis guidelines were followed. PsycINFO, Embase, MEDLINE and Web of Science were systematically searched from 1992 to January 25, 2022. Empirical quantitative studies reporting prevalence of suicidal ideation, suicide plans, or suicide attempts and behaviours were considered for inclusion. Random effects models were used to estimate pooled prevalence of each suicidality outcome with 95% confidence intervals. Heterogeneity was explored using sensitivity and moderator analyses.
Data from 48,186 autistic and possibly autistic participants in 36 primary studies were meta-analysed. Pooled prevalence of suicidal ideation was 34.2% (95% CI 27.9–40.5), suicide plans 21.9% (13.4–30.4), and suicidal attempts and behaviours 24.3% (18.9–29.6). High levels of heterogeneity (I2 > 75) were observed in all three analyses. Estimates did not differ between autistic or possibly autistic samples. Geographical location (p = 0.005), transgender or gender non-conforming samples (p < 0.001) and type of report (p < 0.001) significantly moderated suicidal ideation, whereas age group (p = 0.001) and measure of suicidality (p = 0.001) significantly moderated suicide plans. There was a significant association between the proportion of male participants and prevalence of suicide plans, with a decrease in the proportion of males for every unit change of suicide plan prevalence (p = 0.013). No variables were found to moderate estimates of suicide attempts and behaviours.
The results confirm suicidality is highly prevalent in both autistic and possibly autistic people without co-occurring intellectual disability and highlights potential moderators. Possibly autistic individuals require more attention in clinical and research considerations going forward to further understand and prevent suicide in both groups.
People diagnosed with an Autism Spectrum Condition (ASC), henceforth autistic people,Footnote 1 are characterised by differences in their social communication and interaction, sensory processing, focused interests, and preference for routine and familiarity . Currently, it is estimated that 1.5% of the population in developed countries are autistic , with a male-to-female diagnostic ratio of approximately 3:1 . Autism is highly heterogeneous, and it is well-established that autistic people often experience various physical health problems and psychiatric comorbidities . Mental health problems in particular effect approximately 70–80% of autistic individuals across all age groups, with anxiety and depression being the most common and persistent of these [6,7,8,9].
In addition to high levels of mental health problems, autistic people are at a significantly increased risk of suicidality (suicidal ideation, suicide plans, suicide attempts, and death by suicide) compared to non-autistic people. An influential study of late diagnosed autistic adults found 66% had experienced suicidal ideation, which was nine times higher than the general population, and 35% had a suicide plan or had made a suicide attempt . Moreover, a greater number of autistic adults are found to score above the psychiatric cut-off on measures of suicide risk compared to non-autistic adults [11, 12]. Large-scale population studies also report a four- and ninefold increase in death by suicide among autistic people compared to the general population [13, 14], and up to a sevenfold increase in suicide attempts , where this risk is the highest in autistic females and autistic people without co-occurring intellectual disability (ID) [13,14,15,16]. As suicide is a critical global health challenge and one of the leading causes of death worldwide , understanding this increased risk of suicidality in autistic people is essential for adequate risk assessment and preventative strategies.
Despite the concerning findings, the overall prevalence of suicidality in autistic people is highly variable across studies. Previous systematic reviews demonstrate that estimates range between 1 and 72% for suicidal ideation and 1 to 47% for suicide attempts in autistic individuals [18, 19]. Similarly, prevalence of suicidal ideation and suicidal behaviours in autistic samples under the age of 18 is found to range between 11 and 73% . Possible explanations for this variation likely include a combination of diverse study and participant level characteristics, such as differences in sample size, recruitment from clinical or nonclinical settings [21, 22], and the way that suicidality is measured, reported, and defined . Moreover age, gender and presence of co-occurring ID in autistic participants also differ greatly across samples as sources of variability . Not only is it important to synthesise the current data on suicidality in autistic people, but also to understand the influence of which factors contribute the most significantly to these prevalence estimates.
An example of this variability includes the measures used to assess suicidality, which are inconsistent within the literature and have not been validated for use in autistic populations [11, 23]. Autistic people are found to interpret and respond to instruments designed for non-autistic people differently to what was intended by tool designers . The Suicidal Behaviours Questionnaire—Autism Spectrum Conditions (SBQ-ASC) is the only tool that has recently been adapted for autistic populations but is therefore yet to be fully utilised in research . Moreover, many studies, particularly with younger samples, use measures where items do not distinguish suicide attempts from self-injurious behaviour, such as the Child Behaviour Checklist  or the Paediatric Behaviour Scale . While self-injurious behaviour is also highly prevalent in autistic people across all ages , the function of self-injurious behaviour and whether it is experienced with intent to end life is currently not well-enough understood to assess as commensurate to suicide attempts . Additionally, measures that use informant-report may also lack sensitivity. Evidence of poor agreement is found between informant-report and an autistic person’s self-report on outcomes such as quality of life and mental health [29, 30]. If an autistic person’s experience of suicidality is not accurately and consistently captured, this may contribute to ranges in prevalence.
Regarding variability at the participant level, certain age groups of autistic people could contribute more to prevalence estimates of suicidality. Meta-analyses suggest suicidality varies with age in the general population, where adults (aged 18 +) demonstrate higher prevalence estimates than adolescents (aged 14–18), but older adults (aged 65 +) are at a lower risk compared to other age groups [31, 32]. If the developmental trajectory of suicidality follows a similar pattern in autistic people, we might expect age to account for some of the variability in prevalence estimates across studies. However, there is currently no research exploring this relationship in autistic people .
Gender may further explain some of the variance in prevalence. Males in the general population are 2.3 times more likely to die by suicide compared to females ; however, evidence suggests autistic females are at a higher risk of death by suicide and suicide attempts than autistic males [13, 15]. This may even be an underestimation, as autistic females frequently have their autism overlooked, misdiagnosed, or identified late , and can be inadvertently missed from relevant research as a result. Higher prevalence of suicidality is also found in autistic people who are transgender, and gender non-conforming compared to those who are cisgender (i.e. identify with sex assigned at birth) [33, 34]. Despite this, studies have only recently begun to acknowledge the joint impact of diverse gender identities and autism on mental health outcomes. Both female and transgender or gender non-conforming autistic people could therefore represent high risk groups that have a disproportionate influence on prevalence of suicidality.
Estimates could also vary depending on whether autistic people with and without co-occurring ID are included and analysed as separate groups within research. Some studies combine such groups into the same sample [e.g. 35–37], despite autistic people without co-occurring ID being at a greater risk of suicidality than those with co-occurring ID [13, 15, 18, 38, 39]. Prevalence may also be complicated by the frequent use of self-report for measures of suicidality, which are less accessible to individuals with co-occurring ID and may not provide an accurate representation of their internal experience . For the purpose of this review, it is hoped that focusing on autistic people without co-occurring ID will reduce some of this ambiguity.
While the seriousness of suicidality in autistic people is evident, the reasons why this increased risk exists are still unclear and under-researched . Similarly to within the general population, mental health problems, non-suicidal self-injury, unemployment and social isolation increase risk of suicide in autistic people; however these are significantly more prevalent [18, 41, 42]. Research also suggests there are risk factors for suicidality that are unique to autism, such as camouflaging (i.e. actively hiding autistic traits to be more accepted by non-autistic peers) and unmet support needs . Given high rates of comorbid mental health problems [9, 43] and non-suicidal self-injury [44, 45] in autistic people, we might expect to see increased prevalence of suicidality in nonclinical samples of autistic people, who are less likely to be accessing relevant support . Likewise, many autistic people find it difficult to initially obtain their diagnosis, whereby later age of diagnosis may also contribute to a lack of tangible support and increased suicidality . There is currently no evidence for age of diagnosis as a risk factor for suicidality, but this has only been examined in autistic people diagnosed in adulthood so far . The presence or absence of such risk factors within autistic samples should be considered in relation to the varying prevalence estimates of suicidality.
Finally, autism itself is thought to contribute to suicidality over and above other factors . Possibly autistic people (i.e. individuals who score highly on measures of autistic traits but do not have an official ASC diagnosis) also appear to be at a higher risk of suicidality. Forty-one per cent (40.6%) of adults with a lifetime history of suicide attempt(s) were found to score above the clinical threshold for autistic traits . Along with this, evidence of autism and elevated autistic traits were found in 10.7% of those who died by suicide in the UK . Many individuals can go undiagnosed for various reasons, such as a lack of age-appropriate diagnostic services and tools to identify autistic females. This is particularly true for individuals who fit the profile of autism without co-occurring language delay or ID . It is therefore important not to overlook these possibly autistic individuals when considering prevalence of suicidality.
To date, only two meta-analyses have examined suicidality in autistic people [21, 22]. One demonstrated approximately a threefold increase in the odds of suicidality (suicidal ideation, suicide attempts and suicide combined) in autistic people compared to non-autistic comparison groups, but did not examine suicidal ideation, suicide attempts or suicide as distinct outcomes . The other meta-analysis only focused on studies with autistic youth, where pooled prevalence estimates were 25.2% for suicidal ideation, 8.3% for suicide attempts and 0.2% for death by suicide . These meta-analyses provide useful findings, but do not address the prevalence of separate suicidality outcomes across the lifespan nor specifically for higher risk groups such as those without co-occurring ID and who are possibly autistic.
In summary, suicidality is worryingly common in autistic people, yet current prevalence estimates are highly varied, and the influence of participant and study level characteristics on suicidality is unknown. Robust prevalence estimates of suicidality outcomes are therefore needed to identify the existing service needs of at-risk autistic individuals, and to inform evidence-based suicide prevention within this population. It is also necessary to explore the influence of participant and study level characteristics and evaluate the impact of these on the prevalence of suicidality outcomes in autistic individuals. To our knowledge this review is the first of its kind to examine studies of suicidality in both diagnosed autistic individuals and possibly autistic individuals, with a focus on those without co-occurring ID, across all age groups.
Thus, the aim of the current systematic review and meta-analysis is:
To synthesise prevalence estimates of suicidality in autistic people and possibly autistic people without co-occurring ID.
To evaluate the influence of participant (age, gender, autism or possible autism, presence of risk factors) and study level characteristics (study setting, geographical location, measurement of suicidality, type of report) on heterogeneity in prevalence estimates.
To determine the quality of evidence available.
The review was conducted in line with guidelines for the Preferred Reporting for Items for Systematic Reviews and Meta-analysis (PRISMA) . The protocol was pre-registered with PROSPERO before searches were undertaken (available at: https://www.crd.york.ac.uk/prospero/display_record.php?ID=CRD42021266451).
A systematic literature search was carried out for papers published between 1992 and the search date, January 25, 2022. Four electronic databases (Embase, PsycINFO, MEDLINE and Web of Science) were reviewed using two search engines (PubMed and OVID) for studies examining the prevalence of suicidality in autistic and possibly autistic people without ID. Search terms (Table 1) were derived from recent systematic reviews [e.g. 11, 18], and were adapted to fit the specific search criteria of each database (see Additional file 1: Supplementary Materials 1 for full search terms and syntax). Reference lists of included primary studies and relevant prior systematic reviews or meta-analyses were also hand-searched for additional studies that may have been missed.
Papers of empirical quantitative studies with extractable prevalence estimates were included. Searches were limited to studies available in the English language and those published after 1992. The cut-off date of 1992 was chosen to coincide with the official recognition of Asperger Syndrome by the International Classification of Diseases (ICD-10) , as subsequent research would be more likely to clearly differentiate autistic people without co-occurring ID.
Autistic participants were required to have a formal diagnosis of ASC in line with ICD (9 or 10) or Diagnostic and Statistical Manual of Mental Disorders (DSM-II, III-R, IV, IV-TR, V) diagnostic criteria (self-reported or confirmed within the study). Possibly autistic participants were required to self-report suspected autism (not yet diagnosed) and/or screen positive for elevated autistic traits on a relevant measure (e.g. Autism Quotient). Data for autistic and possibly autistic participants had to be provided separately from any additional groups. Studies were excluded if any proportion of autistic or possibly autistic participants were specified to have co-occurring ID or an IQ below 70, or when data for participants without co-occurring ID was not provided or analysed separately to those with co-occurring ID. Where studies did not specify IQ or confirm ID status, but it could be inferred through other means (e.g. self-report, level of education), this was taken as an acceptable indicator.
Studies were included if suicidality was clinically defined based on the ICD-10 or DSM-5; encompassing suicidal ideation (or thoughts), plans, and attempts or behaviours. Studies of self-harm or self-injury without suicidal intent (e.g. non-suicidal self-injury), where suicidal intent could not be determined, or where measurement items did not distinguish suicidality outcomes from self-harm or self-injury, were not included. This is in line with a dichotomous conceptualisation of self-harm consistent with previous autism research where non-suicidal self-injury and suicidality are generally examined as separate constructs [28, 52]. Full eligibility criteria are described in Table 2.
Electronic searches of the databases identified 4560 potentially eligible studies. After the removal of duplicates, 1995 studies were then screened for eligibility using the criteria at title and abstract, and then 359 at full text by the first author (VN). Those that did not meet the selection criteria were excluded. If there was uncertainty regarding an article at the title and abstract screen, it was put forward for a full-text screen.
To eliminate the risk of researcher bias, 25% of papers at both stages were checked by an independent reviewer (LP). Inter-rater reliability was calculated using percentage agreement and Prevalence- And Bias-Adjusted Kappa (PABAK) , where strength of agreement was determined by PABAK as poor (< 0.20), fair (0.21–0.40), moderate (0.41–0.60), good (0.61–0.81) or very good (0.81–1) . Agreement was fair for the title and abstract screen (66.18%, PABAK = 0.23), and moderate for the full-text screen (86.17%, PABAK = 0.55). All discrepancies were discussed to reach a consensus, and where this could not be resolved, the opinion of a third reviewer was sought (SC, CR).
Data extraction and synthesis
From the studies eligible for the review, data of interest was manually extracted by the first author (VN). This included:
Citation level data—author name(s), year of publication, and geographical location.
Participant level data—whether participants were autistic (with an ASC diagnosis) or possibly autistic (e.g. scoring above threshold on a measure of autistic traits); total number of participants; absolute number of participants with suicidality outcomes; age; gender; whether sample was transgender or gender non-conforming; sample setting; and where available, comorbidities, age of diagnosis, proportion of participants in employment (full-time, part-time, or volunteering), and presence of non-suicidal self-injury.
Study level data—study design; ascertainment of autism or possible autism; measure of suicidality; type of report used in suicidality measure; and observation period of suicidality assessment.
Prevalence was classified into outcomes of suicidal ideation, suicide plans, or suicide attempts and behaviours. Suicide attempts and behaviours covered both suicide attempts and estimates of suicidal behaviour where it was unclear whether this was a suicide attempt per se but was still assumed to have had suicidal intent. Prevalence for each suicidality outcome was established from the absolute number of autistic or possibly autistic individuals experiencing suicidality and the total number of autistic or possibly autistic participants.
Some studies provided prevalence for more than one suicidality outcome, meaning a single study could contribute to multiple pooled prevalence estimates in the review. If no absolute number of events could be obtained, authors were contacted to provide the information, or this was calculated from the related proportion and total number of participants. In circumstances where it was clear that multiple studies had used the same sample or dataset, these were evaluated and the one which was most relevant to the objectives of the review was included in the quantitative synthesis.
Age was stratified into two subgroups based on previous research . If mean age of participants at enrolment was younger than 20 years, the age group was classified as youth, and where mean age was 20 years-old and above, the age group was classified as adult. Where mean age was not available, the median or midpoint of the given age range was used instead. Study setting was defined as clinical if participants were recruited from a clinical population or setting (e.g. outpatient clinics, emergency departments), and nonclinical if participants were obtained from a community or population sample, databases, or other. Subgroups were classed as transgender or gender non-conforming when all participants in that sample or group did not identify with or were questioning their sex assigned at birth. The proportion of males was reported more frequently compared to females, so this was used as the indicator of gender.
Quality of studies included in the final synthesis were assessed using an adapted Newcastle–Ottawa scale (NOS)  based on versions used in previous research [21, 56] (see Additional file 1: Supplementary Materials 2). The NOS is widely used to evaluate the methodological quality of observational studies  as it can be easily adapted to be study specific, is straightforward to administer, and provides a continuous score that is consistent across study designs.
We assessed the following criteria: (1) selection, (2) comparability, and (3) outcome for cross-sectional and cohort studies; and (1) selection, (2) comparability and (3) exposure for case–control studies. Items were adapted in line with the specific aims of the review. Sample representativeness was determined from both the sampling method and using the 3:1 male-to-female autism diagnostic ratio (i.e. at least 25% of participants were required to have either been assigned female at birth or identify as female) identified in previous research . Sample size was deemed justified and satisfactory where there was statistical evidence of adequate power reported in the paper, or where the sample size would be considered large enough (n > 1000) to account for heterogeneity between and within autistic and possibly autistic individuals .
Primary studies were given an overall score of 0 to 9 and a rating of high (0–3), unclear (4–6) or low risk of bias (7–9) based on this score. VN assessed the quality of all studies, and 50% of these were independently checked by LP. Agreement was moderate (80%, PABAK = 0.60). All discrepancies were discussed, and a joint consensus was reached.
Individual pooled prevalence estimates were generated for suicidal ideation, suicide plans, and suicide attempts and behaviours in autistic and possibly autistic people without co-occurring ID. Statistical power was not adequate to conduct meta-analyses for each suicidality outcome in just the possibly autistic group (k ≥ 10) . Therefore, autistic and possibly autistic groups were meta-analysed as one but explored as a potential moderator using subgroup analyses. Given substantial heterogeneity in the extracted prevalence estimates, the random effects model was chosen as the most appropriate method of meta-analysis. Random effects models assume that both variability in sampling error and differences in study level characteristics account for heterogeneity between studies . The decision to use random effects was supported with Quantile–Quantile plots as an indicator of primary study effects relative to that of an expected normal distribution.
Between studies variance (tau2) was calculated with the restricted maximum-likelihood estimator (REML), which is considered more robust to non-normal distributions of effect than the more traditional DerSimonian Laird estimate . Level of heterogeneity within studies was established with Higgins I2, where a value above 75% suggested high heterogeneity  and significance was quantified using Cochran’s Q statistic. Prediction intervals were provided alongside pooled prevalence estimates and confidence intervals. While a 95% confidence interval indicates where, in 95% of cases, the average prevalence estimate will fall; the 95% prediction interval indicates where, in 95% of cases, the true prevalence estimate of a new study will fall . When heterogeneity is high, prediction intervals are expected to be wider than confidence intervals to account for between study variability and provide a more conservative way to incorporate uncertainty in analyses .
The impact of influential and discrepant studies on the overall meta-analytic effect was explored using Baujat plots and “leave-one-out” sensitivity analyses. The Baujat plot shows the contribution of each study to the overall heterogeneity statistic on the x-axis and its influence on the pooled effect size on the y-axis . Higher values on the x-axis reflect increasing heterogeneity associated with omission of a study, whereas higher values on the y-axis indicate greater change in the overall effect associated with a studies omission. Therefore, those in the upper right corner may be particularly influential . This influence is further determined by a “leave-one-out” sensitivity analysis, where a random effects model is calculated with each of the primary studies removed in turn. Based on a rule of thumb used in previous research , if omission of influential primary studies resulted in an effect that lay outside the 95% confidence interval for the complete meta-analysis, it was deemed to have a disproportionate influence on prevalence and excluded from subsequent analyses.
Visual inspection of funnel plots were used to detect publication bias in each meta-analysis. This was also quantitatively informed with Egger’s regression test of asymmetry when at least 10 estimates were included . For the funnel plot, effect estimates were plotted on the horizontal axis and the measure of study size on the vertical axis. In the absence of publication bias, the plot should resemble a symmetrical funnel-shaped distribution where lower precision studies scatter widely on both sides of the average, with the spread narrowing among larger studies, and those of highest precision at the top .
An absence of studies in the area of the funnel plot associated with small or non-significant effects sizes in smaller studies indicated publication bias. In this case, a trim and fill procedure was undertaken to identify and correct for funnel plot asymmetry by estimating the number of unpublished studies and imputing these missing values to provide a pooled prevalence estimate adjusted for publication bias . This was then compared with the uncorrected random effects model. Orwin’s Fail-safe N  also calculated the number of studies with null results that would have to be added to reduce the observed meta-analytic effect to that of the general population [31, 69]. If N is large, the effect can be considered robust to publication bias.
Further moderator analyses were conducted to explore heterogeneity related to participant and study level covariates. These were determined post hoc based on the available data and were only performed when a minimum of 10 estimates were available to ensure adequate statistical power [59, 70]. For each meta-analysis that met this requirement, prevalence estimates and associated heterogeneity measures were calculated and compared for the following categorical variables: group (autistic vs possibly autistic), age (youth vs adult), (Asia vs Europe vs North America vs Oceania), sample setting (clinical vs nonclinical), transgender or gender non-conforming (yes vs no), and type of report for suicidality measure (self vs informant vs observational). Meta-regression analyses were also used to assess the relationship between continuous moderators and each outcome. Insufficient data were available for age of diagnosis, proportion employed, and proportion reporting non-suicidal self-injury; therefore, it was only possible to explore the continuous variables for proportion of male participants (%) and year of publication. Each potential moderator was assessed in separate univariate analyses (including a different covariate), and the corresponding results were interpreted.
Primary studies were included regardless of their quality score. Sensitivity analyses were conducted to ascertain the impact on the pooled prevalence estimate of each random effects model using a meta-regression of the adapted NOS overall score, and a subgroup analysis of risk of bias (low risk vs any (unclear and high) risk).
The searched databases yielded 4560 potentially eligible studies published between 1992 and January 25, 2022. Of these, 2565 studies were identified as duplicates through referencing software or hand searching, then removed. The remaining 1995 studies were screened at title and abstract using the criteria in Table 2. Seventeen studies were not accessible to the authors and could not be screened further. Full-text screening was conducted for 359 studies, 319 of which were excluded for the following reasons: 45 did not meet the criteria for the autistic or possibly autistic sample; 25 contained participants with ID or an IQ below 70; 37 did not meet the criteria for suicidality; 24 did not report prevalence estimates for suicidality outcomes; 42 did not meet the criteria for study design; 58 were not empirical papers; 64 were conference abstracts; 4 were theses or dissertations; 11 were not available in the English Language; and 9 were excluded for other reasons, such as using the same sample or data from another study. The full selection process according to PRISMA guidelines is depicted in Fig. 1.
Forty primary studies with extractable prevalence rates were included (see Table 3). This represented 48,692 autistic and possibly autistic participants without co-occurring ID (autistic n = 46,875; possibly autistic n = 1817). Over two-thirds of studies included only autistic participants (k = 31; 77.5%), 10% included only possibly autistic participants (k = 4), and 12.5% included both groups (k = 5). Twenty-three primary studies included autistic adults (age ≥ 20 years; 57.5%) and 17 included autistic youth (age < 20 years; 42.5%). Of primary studies which gave a mean age, this ranged from 10.1 (SD = 2.7) to 42.3 (SD = 13.9). Thirteen studies contained a predominately male sample (32.5%), where the proportion of males made up 75% or more of the autistic or possibly autistic participants.
Primary studies covered 16 countries worldwide, with 50% in Europe (France k = 1; Italy k = 2; Luxembourg k = 1; Norway k = 1; The Netherlands k = 3; Sweden k = 2; Turkey k = 2; UK k = 8), followed by 22.5% in North America (US k = 8; Canada k = 1); 20% in Asia (China k = 1; Japan k = 3; Korea k = 1; Singapore k = 1; Taiwan k = 2) and 7.5% in Oceania (Australia k = 3). The main design utilised was cross-sectional (k = 33; 82.5%), along with a small number of retrospective chart reviews (k = 2; 5%), case–control studies (k = 3; 7.5%), one cohort (2.5%), and one intervention (2.5%). Most reported prevalence estimates for suicidal ideation (k = 29; 72.5%), followed by suicide attempts and behaviours (k = 26; 65%), with fewer reporting on suicide plans (k = 8; 20%). Five studies gave an estimate of overall suicidality or the proportion of those at risk of suicidality using a standardised measure (12.5%).
To ascertain autism or possible autism, 60% of primary studies utilised a validated screening tool for non-diagnostic purposes (e.g. AQ), or extracted autism diagnoses from medical records (k = 24); 27.5% employed validated diagnostic assessments (e.g. Autism Diagnostic Observation Schedule) to confirm autism diagnosis (k = 11); and 12.5% determined autism or possible autism based solely on self- or informant-report (k = 5). Conversely, 40% of primary studies used a measurement tool specifically validated for suicidality or record linkage (k = 16); 27.5% utilised a general validated measurement tool which included items or modules relevant to suicidality or extracted relevant information from medical records (k = 11); and the remainder used unstandardised questions or did not specify exactly how suicidality was measured (k = 13; 32.5%).
Three primary studies (7.5%; 1 intervention study and 2 retrospective chart reviews) were not assessed for quality as there were no corresponding versions of the NOS for these study designs. Of the 37 that were assessed, five primary studies were classified at high risk of bias based on the adapted NOS score (13.5%), 28 at an unclear risk (75.7%), and four at a low risk (10.8%). Studies mainly failed to justify sample size (k = 28; 75.7%) or did not report adequate response or participation rates (k = 27, 73%).
From the 40 included primary studies, 36 of these were able to be numerically synthesised. Four primary studies were not included in this synthesis because they did not provide separate estimates of suicidality outcomes [12, 71, 72] or only provided an estimate for multiple suicide attempts . The population of these four studies represented 506 autistic and 68 possibly autistic individuals without co-occurring ID, which made up 1.2% of the overall population in the review.
All three random effects models yielded significant pooled prevalence estimates of suicidality among autistic and possibly autistic individuals without co-occurring ID. Pooled prevalence estimates were 34.2% for suicidal ideation (95% CI 27.9%; 40.5%, p < 0.001, I2 = 96.5%, τ2 = 0.033) with a 95% prediction interval (-3.3%; 72.7%), seen in Fig. 2; 21.9% for suicide plans (95% CI 13.4%; 30.4%, p < 0.001, I2 = 95.9%, τ2 = 0.020) with a 95% prediction interval (11.4%; 55.2%), seen in Fig. 3; and 24.3% for suicide attempts and behaviours (95% CI 18.9%; 29.6%, p < 0.001, I2 = 96.7%, τ2 = 0.020) with a 95% prediction interval (-5.4%; 53.9%), seen in Fig. 4. High levels of heterogeneity (I2 > 75)  were observed in all three analyses, indicating estimates of prevalence may be biased by the presence of uncontrolled or confounding factors. TE, seTE, prevalence rate, confidence intervals, prediction intervals and weighting by the random effects model are reported in Figs. 2, 3 and 4.
Given substantial heterogeneity, sensitivity analyses of random effects models were conducted. Baujat plots revealed estimates with a potential disproportional influence were present in the random effects model for suicidal ideation , suicide plans [75,76,77], and suicide attempts and behaviours . Omission of these using “leave-one-out” analyses did not reveal any significant changes in the overall meta-analytic effect, with 95% CIs still substantially overlapping with main results across all analyses (see Additional file 1: Supplementary Materials 5).
Visual inspection of the funnel plot and Egger’s regressions indicated possibility of publication bias and small study effects in the distribution of prevalence estimates for suicide attempts and behaviours; however, trim and fill procedures yielded no corrections (see Additional file 1: Supplementary Materials 6). Orwin’s method  indicated 220 studies with a null effect would be required to reduce the observed pooled prevalence of suicide attempts and behaviours to that of the general population [31, 79] suggesting the observed effect is robust to publication bias.
Subsequent analyses focused on identifying sources of heterogeneity between prevalence estimates of suicidal ideation, suicide plans and suicide attempts and behaviours in the primary studies. Subgroup analyses were carried out for categorical covariates (see Table 4). This revealed geographical location (p = 0.005), transgender or gender non-conforming samples (p < 0.001) and type of report (p < 0.001) significantly moderated suicidal ideation. Prevalence estimates were higher in samples of transgender or gender non-conforming participants (63.8%) compared to samples that were not (30.8%), and higher when measures used self-report (36.7%) compared to informant-report (19.5%). Post hoc comparisons of geographical location also indicated prevalence estimates of suicidal ideation were significantly lower in Asia (21.3%) vs Europe (37.8%; p = 0.012), and Asia vs Oceania (54.86%, p = 0.012).
Age group (p = 0.001) and suicidality measures (p = 0.001) significantly moderated suicide plans. Prevalence estimates were higher in autistic adults (22.9%) compared to autistic youth (7.9%). Post hoc comparisons of suicidality measures indicated prevalence estimates of suicide plans were higher when using a tool specific to suicidality (28.5%) vs a general measure (7.9%; p < 0.001) or vs an unstandardised measure (11.2%; p = 0.004). No significant moderators were demonstrated for prevalence estimates of suicide attempts and behaviours using subgroup analyses.
Univariate meta-regressions were also carried out for continuous covariates (see Table 5). Proportion of male participants was a significant moderator for suicide plan prevalence only, accounting for over a third of the proportion of variance in the prevalence estimate (R2 = 35.5%), with a decrease of 0.4036 in the proportion of male participants for every unit change of suicide plan prevalence. Neither year of publication nor NOS total score as covariates significantly impacted on the results across any of the analyses.
The main aim of the current systematic review and meta-analysis was to synthesise prevalence estimates of suicidality in autistic people and possibly autistic people without co-occurring ID. From 40 primary studies, 36 of these were meta-analysed representing 48,692 autistic and possibly autistic participants. Moderator analyses were conducted to evaluate how study and participant level characteristics influenced the prevalence of suicidality outcomes. This is the first meta-analysis to synthesise data in autistic people and possibly autistic people without co-occurring ID across all ages and provides novel pooled prevalence estimates for outcomes of suicidal ideation, suicide plans, and suicide attempts and behaviours in both groups. Such findings have important clinical and scientific implications to understanding and preventing suicide. Moreover, the use of robust, stringent and standardised procedures in line with PRISMA guidelines  ensures the accuracy of estimates and enhances the validity of findings.
High pooled prevalence estimates were demonstrated across all three suicidality outcomes; suicidal ideation was prevalent in over a third (34.2%) of autistic and possibly autistic people without co-occurring ID; suicide plans were prevalent in 21.9%, and suicide attempts and behaviours in 24.3%. These estimates remain considerably higher than those in the general population. For example, cross-national prevalence of suicidal ideation in the general population is approximately 9%, and between 2 and 3% for suicide plans and suicide attempts and behaviours [31, 78]. The large difference between these rates compounds the evidence that autistic people are at a particularly increased risk of suicidality [10, 18,19,20,21,22]. Additionally, prevalence estimates of suicidal ideation, suicide plans and suicide attempts and behaviours were found to be comparable between autistic and possibly autistic groups. This finding adds weight to previous research showing that possibly autistic people are equally at risk of suicidality [47, 48], and therefore should also be included in research and clinical considerations going forward.
High levels of heterogeneity were observed in each of the random effects models (I2 = 95.9–96.7%) and so subgroup analyses and univariate meta-regressions were conducted. These analyses showed prevalence of suicidal ideation and suicide plans varied for certain participant and study level characteristics; however, this was not the case for suicide attempts and behaviours.
Firstly, prevalence of suicidal ideation was moderated by geographical location, transgender or gender non-conforming samples and type of report. Suicidal ideation was found to differ across geographical locations, with lower prevalence estimates in Asia compared to Europe and Oceania. This finding is interesting, considering around two-thirds of global deaths by suicide occur in Asia . In the current review, the geographical location of Asia predominately consisted of East Asian countries (Korea, Taiwan, China, Singapore and Japan), where lower prevalence may be explained by a range of factors such as the criminalisation of suicide , stigma towards both mental health problems [82,83,84] and autism [85,86,87], and the importance of maintaining family reputation within collectivist Asian societies . As such, it is possible that self-reported suicidality or an autism diagnosis/ autistic traits may not be an accurate reflection of reality. More research is needed to better understand the complexities of suicidality in autistic and possibly autistic people across Asia.
The current findings also suggest suicidal ideation is higher in autistic and possibly autistic samples who are transgender or gender non-conforming. This is unsurprising, as transgender and gender non-conforming individuals in the general population exhibit much higher rates of suicidal ideation and suicidal behaviour than their cisgender peers [89,90,91]. Along with this, autistic people are more likely to be gender diverse than non-autistic people [74, 92], and gender-diverse people are also more likely to be autistic . It is therefore possible that the intersection of these two identities compounds the risk of suicidality, resulting in a higher prevalence estimate. There is a clear need for future studies to report on diverse gender identities to investigate this relationship further. Moreover, clinicians working with transgender or gender non-conforming people and/or autistic people should be made aware of this possible overlap and the associated risk, to appropriately screen for and manage suicidality .
In addition, prevalence of suicidal ideation was higher for self-report measures of suicidality compared to informant-report. The two primary studies that only utilised informant-report were those that included samples of autistic adolescents’ or children [94, 95]. Studies which have used both informant and self-report found there to be poor agreement between parents and their autistic youth, where parents seem to underreport on various psychiatric symptoms, including suicidality [29, 96, 97]. This suggests self-report may provide a more accurate reflection of autistic youth’s internal experiences of suicidality and highlights the need for corroborating accounts alongside informant-report when this method is utilised.
Secondly, prevalence of suicide plans was moderated by age group, measurement of suicidality, and proportion of male participants. Prevalence of suicide plans were higher in autistic or possibly autistic adults (age ≥ 20 years) than youth (age < 20 years), but these age moderation effects were not observed for suicidal ideation or suicide attempts and behaviours. Similarly, large population-based studies show incidence of suicide attempts in autistic people with and without co-occurring ID does not significantly differ with age . This comparable prevalence of suicidal ideation and suicide attempts and behaviours across age groups may be accounted for by risk factors of suicidality that are experienced by autistic people throughout their lives (e.g. mental health problems) [6,7,8,9, 41]. Consequently, older individuals could be more likely to have a suicide plan but are no more likely to think about suicide or make an attempt than those who are younger. Despite this, there is currently no research exploring this developmental trajectory of suicidality in autism , and more is needed to accurately determine any relationships between age and suicidality.
Moreover, suicide plans were found to be the highest when using a measurement tool specific to suicidality compared to a general or unstandardised tool. We know that autistic people interpret and respond differently to items and measures validated for use in the general population . However, most studies reporting suicide plans used the SBQ-R , with one using the adapted version of this: the SBQ-ASC . It is possible that these measures which assess suicide plans are homogenous enough to be sensitive to prevalence differences, compared to the wider variation of assessment methods used to measure suicidal ideation and suicide attempts and behaviours.
However, the current review only somewhat supported previous evidence that suicidality is more prevalent in autistic females [13, 15]. Meta-regression results highlighted an association between the proportion of male participants and prevalence of suicide plans only, in that as the proportion of male participants decreased, the prevalence of suicide plans increased. Interestingly, all but two of the studies reporting suicide plans included predominately female participants [75, 96] and several also reported on other gender identities [24, 76, 99, 100], providing a more representative sample. Failure to detect this association in suicidal ideation and suicide attempts and behaviours may indicate other samples were not diverse enough in terms of gender to reliably explore it as a moderator.
Lastly, no significant moderators were found for suicide attempts and behaviours, suggesting comparable prevalence across the subgroups examined. Alternatively, it is possible that heterogeneity may be explained by other variables, such as age of diagnosis, unemployment, or the presence of non-suicidal self-injury . These are suggested to be risk factors for suicidality in autistic people, but further investigation was not possible due to insufficient data in primary studies. Further research is warranted to determine which of these factors, if any, moderate prevalence estimates of suicide attempts and behaviours in those who are autistic or possibly autistic.
While the current review was robust and inclusive, it did have some limitations which should be acknowledged. One of these being that 91.7% (n = 33) of the primary studies that were meta-analysed were conducted in high income countries. However, approximately 75% of suicides occur in low- and middle-income countries (LMIC), where rates of poverty are higher, and there are limited resources to support people experiencing suicidality . In addition, there is a shortage of screening and diagnostic instruments for ASCs, along with a reduced awareness of autism in healthcare professions [102, 103]. The combination of these factors presents unique systemic challenges to autistic people in LMICs compared to higher income countries and limits the generalisability of our findings to all autistic populations.
The current review also only included samples of autistic and possibly autistic people without co-occurring ID, as this population was identified as higher risk . However, autistic people with co-occurring ID are not exempt from suicidality; co-occurring ID in autistic people is found to be associated with an increased risk of suicide attempts/ self-injurious behaviour, but not suicidal ideation . It may be that this finding reflects high levels of self-injurious behaviour in those with co-occurring ID  without necessarily having suicidal intent . Alternatively, it could indicate difficulties in assessment of suicidal ideation in those with co-occurring ID where self-report measures present additional challenges for understanding and responding to questions, over and above those associated with being autistic . This could lead to lower reports of internally experienced outcomes (i.e. suicidal ideation) but not outwardly observable behaviours (i.e. suicide attempts/ self-injurious behaviour). Future meta-analyses should aim to compare evidence of suicidality in autistic people with and without co-occurring ID to determine if this is the case.
The results of the review were also somewhat limited by the quality of primary studies and their methodology, where few demonstrated low risk of bias. To address this limitation, moderation analyses were carried out using risk of bias rating and total NOS score, but quality did not significantly influence prevalence rates across studies for any of the outcomes. Regardless, this still highlights the need for research in the field to better address sources of bias.
Finally, even though heterogeneity of suicidality measures were explored with subgroup analyses, there were still inherent differences in the ways that “suicidality” was conceptualised, making it difficult to draw concrete conclusions . Studies generally did not distinguish passive suicidal ideation (i.e. desire to be dead) from active suicidal ideation (i.e. desire to kill oneself), and some used definitions of suicidal ideation that included suicide plans, while others consider suicide plans to be a discrete stage . There were also wide variations in the observation period within which the measured suicidality outcomes occur, particularly for suicidal ideation (e.g. current, 6 months, 12 months, lifetime, etc.). This review also utilised a dichotomous conceptualisation of self-harm [107, 108]; however, not all literature distinguishes suicide attempts from self-harm. For example, some studies were excluded for using items encompassing both suicide attempts and self-injurious behaviour [25, 26]. It is therefore possible that some relevant literature may have been missed. Not only should future research aim to measure suicidality in autistic and possibly autistic people homogenously with validated measures (which is more feasible now using the SBQ-ASC ), but also provide clear and fine-grained categorisations of suicidality.
Nonetheless, the high prevalence of suicidality in autistic and possibly autistic people found in the current review has important implications for suicide prevention both clinically and scientifically. Future research should continue to address priorities for better suicide prevention that are in line with those identified by the autistic community . One such example is to adapt and develop methods that accurately measure relevant constructs (i.e. suicidality and self-harm) in autistic populations. It is essential that this process also be guided by recommendations from a validated research tool, such as the Consensus-Based Standards for the Selection of Health Measurement Instruments, which emphasises the importance of content validity .
Likewise, significant gaps in the literature as to why autistic people are more at risk of suicidality need to be addressed. While there is an overlap with known risk markers in the general population, these tend to be significantly more prevalent in autistic people, and others have been identified that are unique to autism . Research should also explore whether such risk markers of suicidality extend to possibly autistic people too.
With an increased understanding of the epidemiology of suicidality in autistic and possibly autistic people, further research is also needed to explore the mechanisms underpinning both the development of suicidal ideation, and the progression from suicidal ideation to suicide attempts and behaviours . This should be routed in theory such as the Interpersonal Theory of Suicide (IPTS) . Theories of suicide have been underused in the autism field so far, but the IPTS has emerging utility within autistic and possibly autistic populations [75, 113]. The IPTS stipulates a combination of perceived burdensomeness and thwarted belongingness create a desire for suicide, and acquired capability to attempt suicide is dependent on overcoming fear of death and the pain that accompanies a suicide attempt . Autistic people are more likely to report experiencing thwarted belongingness and perceived burdensomeness than non-autistic people, where both mediate the association between autistic traits and suicidality . Likewise, in individuals with high autistic traits, camouflaging is associated with increased thwarted belongingness . The IPTS could facilitate better understanding of suicidality in autistic and possibly autistic people by determining who is at risk of suicide, and therefore how to reduce this .
In summary, the current meta-analysis has generated robust prevalence estimates for suicidal ideation, suicide plans and suicide attempts and behaviours in both autistic and possibly autistic people without co-occurring ID. Significant heterogeneity was found across primary studies, where moderator analysis demonstrated prevalence varied as a result of participant and study level characteristics. Prevalence estimates of suicidal ideation were lower for studies conducted in Asia, but higher in transgender or gender non-conforming samples and when using self-report. Prevalence estimates of suicide plans were higher for autistic adults and when using suicidality specific measures. Gender was also associated with suicide plans, where a decrease in the proportion of males was associated with an increase in estimates of suicide plans. Conversely, no variables were found to moderate prevalence of suicide attempts and behaviours. More research is needed, in partnership with the autistic community, to understand why the increased risk of suicidality exists in this population. Recommendations include better quality measures, evidence for risk or protective factors, and extension of theoretical models. This will aid suicide prevention by ensuring autistic and possibly autistic people experiencing suicidality receive the appropriate and timely support they need.
Availability of data and materials
The data that support the findings of this study are available from the corresponding author (VN) on reasonable request.
Identity first language will be used to refer to individuals diagnosed with ASC (e.g. autistic community/ person/ individual), which is the preferred language of the autistic community .
Autism spectrum condition
Diagnostic and statistical manual of mental disorders
International classification of diseases
Interpersonal theory of suicide
Low- and middle-income counties
Prevalence- and bias-adjusted kappa
Preferred reporting for items for systematic reviews and meta-analysis
Suicidal behaviours questionnaire-autism spectrum conditions
Kenny L, Hattersley C, Molins B, Buckley C, Povey C, Pellicano E. Which terms should be used to describe autism? Perspectives from the UK autism community. Autism. 2016;20(4):442–62.
American Psychiatric Association. Diagnostic and statistical manual of mental disorders (DSM-5®). American Psychiatric Pub; 2013.
Lyall K, Croen L, Daniels J, Fallin MD, Ladd-Acosta C, Lee BK, Park BY, Snyder NW, Schendel D, Volk H, Windham GC. The changing epidemiology of autism spectrum disorders. Annu Rev Public Health. 2017;38:81.
Loomes R, Hull L, Mandy WP. What is the male-to-female ratio in autism spectrum disorder? A systematic review and meta-analysis. J Am Acad Child Adolesc Psychiatry. 2017;56(6):466–74.
Forde J, Bonilla PM, Mannion A, Coyne R, Haverty R, Leader G. Health status of adults with autism spectrum disorder. Rev J Autism Dev Disord. 2021:1–1.
Lever AG, Geurts HM. Psychiatric co-occurring symptoms and disorders in young, middle-aged, and older adults with autism spectrum disorder. J Autism Dev Disord. 2016;46(6):1916–30.
Simonoff E, Pickles A, Charman T, Chandler S, Loucas T, Baird G. Psychiatric disorders in children with autism spectrum disorders: prevalence, comorbidity, and associated factors in a population-derived sample. J Am Acad Child Adolesc Psychiatry. 2008;47(8):921–9.
Strang JF, Kenworthy L, Daniolos P, Case L, Wills MC, Martin A, Wallace GL. Depression and anxiety symptoms in children and adolescents with autism spectrum disorders without intellectual disability. Res Autism Spect Disord. 2012;6(1):406–12.
Hossain MM, Khan N, Sultana A, Ma P, McKyer EL, Ahmed HU, Purohit N. Prevalence of comorbid psychiatric disorders among people with autism spectrum disorder: an umbrella review of systematic reviews and meta-analyses. Psychiatry Res. 2020;287: 112922.
Cassidy S, Bradley P, Robinson J, Allison C, McHugh M, Baron-Cohen S. Suicidal ideation and suicide plans or attempts in adults with Asperger’s syndrome attending a specialist diagnostic clinic: a clinical cohort study. The Lancet Psychiatry. 2014;1(2):142–7.
Cassidy SA, Bradley L, Bowen E, Wigham S, Rodgers J. Measurement properties of tools used to assess suicidality in autistic and general population adults: a systematic review. Clin Psychol Rev. 2018;62:56–70.
Costa AP, Loor C, Steffgen G. Suicidality in adults with autism spectrum disorder: the role of depressive symptomatology, alexithymia, and antidepressants. J Autism Dev Disord. 2020;50(10):3585–97.
Hirvikoski T, Mittendorfer-Rutz E, Boman M, Larsson H, Lichtenstein P, Bölte S. Premature mortality in autism spectrum disorder. Br J Psychiatry. 2016;208(3):232–8.
Kõlves K, Fitzgerald C, Nordentoft M, Wood SJ, Erlangsen A. Assessment of suicidal behaviors among individuals with autism spectrum disorder in Denmark. JAMA Netw Open. 2021;4(1): e2033565.
Hirvikoski T, Boman M, Chen Q, D’Onofrio BM, Mittendorfer-Rutz E, Lichtenstein P, et al. Individual risk and familial liability for suicide attempt and suicide in autism: a population-based study. Psychol Med. 2020;50(9):1463–74.
Kirby AV, Bakian AV, Zhang Y, Bilder DA, Keeshin BR, Coon H. A 20-year study of suicide death in a statewide autism population. Autism Res. 2019;12(4):658–66.
World Health Organisation. Suicide worldwide in 2019: global health estimates. Geneva: World Health Organisation; 2021.
Hedley D, Uljarević M. Systematic review of suicide in autism spectrum disorder: current trends and implications. Curr Dev Disord Rep. 2018;5(1):65–76.
Zahid S, Upthegrove R. Suicidality in autistic spectrum disorders. Crisis. 2017;38(4):237–46.
Oliphant RY, Smith EM, Grahame V. What is the prevalence of self-harming and suicidal behaviour in under 18s with ASD, with or without an intellectual disability? J Autism Dev Disord. 2020;50(10):3510–24.
O’Halloran L, Coey P, Wilson C. Suicidality in autistic youth: a systematic review and meta-analysis. Clin Psychol Rev. 2022;93: 102144.
Blanchard A, Chihuri S, DiGuiseppi CG, Li G. Risk of self-harm in children and adults with autism spectrum disorder: a systematic review and meta-analysis. JAMA Netw Open. 2021;4(10): e2130272.
Howe SJ, Hewitt K, Baraskewich J, Cassidy S, McMorris CA. Suicidality among children and youth with and without autism spectrum disorder: a systematic review of existing risk assessment tools. J Autism Dev Disord. 2020;50(10):3462–76.
Cassidy SA, Bradley L, Cogger-Ward H, Rodgers J. Development and validation of the suicidal behaviours questionnaire: autism spectrum conditions in a community sample of autistic, possibly autistic and non-autistic adults. Mol Autism. 2021;12(1):46.
Achenbach TM. The Child Behavior Checklist and related instruments. In: Maurish ME, editor. The use of psychological testing for treatment planning and outcomes assessment. Mahwah: Lawrence Erlbaum Associates; 1999. p. 429–66.
Lindgren SD, Koeppl GK. Assessing child behavior problems in a medical setting: Development of the Pediatric Behavior Scale. In: Prinz RJ, editor. Advances in behavioral assessment of children and families, vol. 3. Greenwich, CT: JAI; 1987. p. 57–90.
Steenfeldt-Kristensen C, Jones CA, Richards C. The prevalence of self-injurious behaviour in autism: a meta-analytic study. J Autism Dev Disord. 2020;50(11):3857–73.
Cassidy S. Suicidality and self-harm in autism spectrum conditions. In: White S, Maddox B, Mazefsky C, editors. Oxford handbook of autism and co-occurring psychiatric conditions. Oxford: Oxford University Press; 2020.
Hurtig T, Kuusikko S, Mattila ML, Haapsamo H, Ebeling H, Jussila K, Joskitt L, Pauls D, Moilanen I. Multi-informant reports of psychiatric symptoms among high-functioning adolescents with Asperger syndrome or autism. Autism. 2009;13(6):583–98.
Sandercock RK, Lamarche EM, Klinger MR, Klinger LG. Assessing the convergence of self-report and informant measures for adults with autism spectrum disorder. Autism. 2020;24(8):2256–68.
Castillejos MC, Huertas P, Martin P, Moreno KB. Prevalence of suicidality in the European general population: a systematic review and meta-analysis. Arch Suicide Res. 2021;25(4):810–28.
Carrasco-Barrios MT, Huertas P, Martín P, Martín C, Castillejos MC, Petkari E, et al. Determinants of suicidality in the European general population: a systematic review and meta-analysis. Int J Environ Res Public Health. 2020;17(11):4115.
Strang JF, Anthony LG, Song A, Lai MC, Knauss M, Sadikova E, et al. In Addition to Stigma: Cognitive and Autism-Related Predictors of Mental Health in Transgender Adolescents. J Clin Child Adolesc Psychol. 2021:1–18.
Chang JC, Lai MC, Tai YM, Gau SS. Mental health correlates and potential childhood predictors for the wish to be of the opposite sex in young autistic adults. Autism. 2022;26(1):146–59.
Chen MH, Pan TL, Lan WH, Hsu JW, Huang KL, Su TP, Li CT, Lin WC, Wei HT, Chen TJ, Bai YM. Risk of suicide attempts among adolescents and young adults with autism spectrum disorder: a nationwide longitudinal follow-up study. J Clin Psychiatry. 2017;78(9):1709.
Hand BN, Angell AM, Harris L, Carpenter LA. Prevalence of physical and mental health conditions in Medicare-enrolled, autistic older adults. Autism. 2020;24(3):755–64.
Hand BN, Benevides TW, Carretta HJ. Suicidal ideation and self-inflicted injury in Medicare enrolled autistic adults with and without co-occurring intellectual disability. J Autism Dev Disord. 2020;50(10):3489–95.
Cassidy S, Rodgers J. Understanding and prevention of suicide in autism. The Lancet Psychiatry. 2017;4(6): e11.
Hannon G, Taylor EP. Suicidal behaviour in adolescents and young adults with ASD: findings from a systematic review. Clin Psychol Rev. 2013;33(8):1197–204.
Nicolaidis C, Raymaker DM, McDonald KE, Lund EM, Leotti S, Kapp SK, Katz M, Beers LM, Kripke C, Maslak J, Hunter M. Creating accessible survey instruments for use with autistic adults and people with intellectual disability: lessons learned and recommendations. Autism Adulthood. 2020;2(1):61–76.
Cassidy S, Bradley L, Shaw R, Baron-Cohen S. Risk markers for suicidality in autistic adults. Mol Autism. 2018;9:42.
Pelton MK, Cassidy S. Are autistic traits associated with suicidality? A test of the interpersonal-psychological theory of suicide in a non-clinical young adult sample. Autism Res. 2017;10(11):1891–904.
Lai MC, Kassee C, Besney R, Bonato S, Hull L, Mandy W, Szatmari P, Ameis SH. Prevalence of co-occurring mental health diagnoses in the autism population: a systematic review and meta-analysis. The Lancet Psychiatry. 2019;6(10):819–29.
Maddox BB, Trubanova A, White SW. Untended wounds: Non-suicidal self-injury in adults with autism spectrum disorder. Autism. 2017;21(4):412–22.
Moseley RL, Gregory NJ, Smith P, Allison C, Baron-Cohen S. Links between self-injury and suicidality in autism. Molecular Autism. 2020;11(1).
Camm-Crosbie L, Bradley L, Shaw R, Baron-Cohen S, Cassidy S. “People like me don’t get support”: autistic adults’ experiences of support and treatment for mental health difficulties, self-injury and suicidality. Autism. 2019;23(6):1431–41.
Richards G, Kenny R, Griffiths S, Allison C, Mosse D, Holt R, et al. Autistic traits in adults who have attempted suicide. Mol Autism. 2019;10:26.
Cassidy S, Au-Yeung S, Robertson A, Cogger-Ward H, Richards G, Allison C, Bradley L, Kenny R, O'Connor R, Mosse D, Rodgers J. Autism and autistic traits in those who died by suicide in England. The British Journal of Psychiatry. 2022:1–9.
Lai MC, Baron-Cohen S. Identifying the lost generation of adults with autism spectrum conditions. The Lancet Psychiatry. 2015;2(11):1013–27.
Page MJ, McKenzie JE, Bossuyt PM, Boutron I, Hoffmann TC, Mulrow CD, Shamseer L, Tetzlaff JM, Akl EA, Brennan SE, Chou R. The PRISMA 2020 statement: an updated guideline for reporting systematic reviews. Syst Rev. 2021;10(1):1–1.
World Health Organization. The ICD-10 classification of mental and behavioural disorders: clinical descriptions and diagnostic guidelines. World Health Organization; 1992.
Licence L, Oliver C, Moss J, Richards C. Prevalence and risk-markers of self-harm in autistic children and adults. J Autism Dev Disord. 2020;50(10):3561–74.
Byrt T, Bishop J, Carlin JB. Bias, prevalence and kappa. J Clin Epidemiol. 1993;46(5):423–9.
Altman DG. Practical statistics for medical research Chapman and Hall. London and New York. 1991.
Wells GA, Shea B, O’Connell D, Peterson J, Welch V, Losos M, Tugwell P. The Newcastle-Ottawa Scale (NOS) for assessing the quality of nonrandomised studies in meta-analyses. Appl Eng Agric. 2014;18(6):727–34.
Herzog R, Álvarez-Pasquin M, Díaz C, Del Barrio JL, Estrada JM, Gil Á. Are healthcare workers’ intentions to vaccinate related to their knowledge, beliefs and attitudes? A systematic review. BMC Public Health. 2013;13(1):1–7.
Moskalewicz A, Oremus M. No clear choice between Newcastle-Ottawa Scale and Appraisal Tool for Cross-Sectional Studies to assess methodological quality in cross-sectional studies of health-related quality of life and breast cancer. J Clin Epidemiol. 2020;120:94–103.
Lombardo MV, Lai MC, Baron-Cohen S. Big data approaches to decomposing heterogeneity across the autism spectrum. Mol Psychiatry. 2019;24(10):1435–50.
Borenstein M, Hedges LV, Higgins JP, Rothstein HR. A basic introduction to fixed-effect and random-effects models for meta-analysis. Res Synth Methods. 2010;2:97–111.
Banks BD, Mao IL, Walter JP. Robustness of the restricted maximum likelihood estimator derived under normality as applied to data with skewed distributions. J Dairy Sci. 1985;68(7):1785–92.
Higgins JP, Thompson SG, Deeks JJ, Altman DG. Measuring inconsistency in meta-analyses. BMJ. 2003;327(7414):557–60.
Faggion CM Jr, Menne MC, Pandis N. Prediction intervals should be included in meta-analyses published in dentistry. Eur J Oral Sci. 2021;129(6): e12827.
Barker TH, Migliavaca CB, Stein C, Colpani V, Falavigna M, Aromataris E, Munn Z. Conducting proportional meta-analysis in different types of systematic reviews: a guide for synthesisers of evidence. BMC Med Res Methodol. 2021;21(1):1–9.
Baujat B, Mahé C, Pignon JP, Hill C. A graphical method for exploring heterogeneity in meta-analyses: application to a meta-analysis of 65 trials. Stat Med. 2002;21(18):2641–52.
Egger M, Smith GD, Schneider M, Minder C. Bias in meta-analysis detected by a simple, graphical test. BMJ. 1997;315(7109):629–34.
Sterne JA, Sutton AJ, Ioannidis JP, Terrin N, Jones DR, Lau J, Carpenter J, Rücker G, Harbord RM, Schmid CH, Tetzlaff J. Recommendations for examining and interpreting funnel plot asymmetry in meta-analyses of randomised controlled trials. Bmj. 2011;343.
Duval S, Tweedie R. Trim and fill: a simple funnel-plot–based method of testing and adjusting for publication bias in meta-analysis. Biometrics. 2000;56(2):455–63.
Orwin RG. A fail-safe N for effect size in meta-analysis. J Educ Stat. 1983;8(2):157–9.
Nock MK, Borges G, Bromet EJ, Alonso J, Angermeyer M, Beautrais A, Bruffaerts R, Chiu WT, De Girolamo G, Gluzman S, De Graaf R. Cross-national prevalence and risk factors for suicidal ideation, plans and attempts. Br J Psychiatry. 2008;192(2):98–105.
Schwarzer G, Carpenter JR, Rücker G. Meta-analysis with R. Cham: Springer; 2015.
Dell’Osso L, Carpita B, Muti D, Morelli V, Salarpi G, Salerni A, et al. Mood symptoms and suicidality across the autism spectrum. Compr Psychiatry. 2019;91:34–8.
Hu HF, Liu TL, Hsiao RC, Ni HC, Liang SH, Lin CF, et al. Cyberbullying victimization and perpetration in adolescents with high-functioning autism spectrum disorder: correlations with depression, anxiety, and suicidality. J Autism Dev Disord. 2019;49(10):4170–80.
Rydén G, Rydén E, Hetta J. Borderline personality disorder and autism spectrum disorder in females: a cross-sectional study. Clin Neuropsychiatry. 2008;5(1):22–30.
Strauss P, Cook A, Watson V, Winter S, Whitehouse A, Albrecht N, et al. Mental health difficulties among trans and gender diverse young people with an autism spectrum disorder (ASD): findings from Trans Pathways. J Psychiatr Res. 2021;137:360–7.
Dow D, Morgan L, Hooker JL, Michaels MS, Joiner TE, Woods J, et al. Anxiety, depression, and the interpersonal theory of suicide in a community sample of adults with autism spectrum disorder. Arch Suicide Res. 2021;25(2):297–314.
Pelton MK, Crawford H, Robertson AE, Rodgers J, Baron-Cohen S, Cassidy S. Understanding suicide risk in autistic adults: comparing the interpersonal theory of suicide in autistic and non-autistic samples. J Autism Dev Disord. 2020;50(10):3620–37.
South M, Beck JS, Lundwall R, Christensen M, Cutrer EA, Gabrielsen TP, et al. Unrelenting depression and suicidality in women with autistic traits. J Autism Dev Disord. 2020;50(10):3606–19.
Chaplin E, McCarthy J, Allely CS, Forrester A, Underwood L, Hayward H, et al. Self-harm and Mental Health Characteristics of Prisoners with elevated rates of autistic traits. Research in Developmental Disabilities. 2021;114.
Nock MK, Green JG, Hwang I, McLaughlin KA, Sampson NA, Zaslavsky AM, Kessler RC. Prevalence, correlates, and treatment of lifetime suicidal behavior among adolescents: results from the National Comorbidity Survey Replication Adolescent Supplement. JAMA Psychiat. 2013;70(3):300–10.
Alonzo D, Gearing RE. Suicide assessment and treatment: Empirical and evidence-based practices. Springer Publishing Company; 2017.
Mishara BL, Weisstub DN. The legal status of suicide: a global review. Int J Law Psychiatry. 2016;1(44):54–74.
Shorey S, Ng ED, Haugan G, Law E. The parenting experiences and needs of Asian primary caregivers of children with autism: a meta-synthesis. Autism. 2020;24(3):591–604.
Zhang Z, Sun K, Jatchavala C, Koh J, Chia Y, Bose J, Li Z, Tan W, Wang S, Chu W, Wang J. Overview of stigma against psychiatric illnesses and advancements of anti-stigma activities in six Asian societies. Int J Environ Res Public Health. 2020;17(1):280.
Yang LH. Application of mental illness stigma theory to Chinese societies: synthesis and new direction. Singapore Med J. 2007;48(11):977.
Someki F, Torii M, Brooks PJ, Koeda T, Gillespie-Lynch K. Stigma associated with autism among college students in Japan and the United States: An online training study. Res Dev Disabil. 2018;1(76):88–98.
Yu L, Stronach S, Harrison AJ. Public knowledge and stigma of autism spectrum disorder: Comparing China with the United States. Autism. 2020;24(6):1531–45.
Kim SY, Cheon JE, Gillespie-Lynch K, Kim YH. Is autism stigma higher in South Korea than the United States? Examining cultural tightness, intergroup bias, and concerns about heredity as contributors to heightened autism stigma. Autism. 2022;26(2):460–72.
Ng CH. The stigma of mental illness in Asian cultures. Aust N Z J Psychiatry. 1997;31(3):382–90.
Adams N, Hitomi M, Moody C. Varied reports of adult transgender suicidality: synthesizing and describing the peer-reviewed and gray literature. Transgender health. 2017;2(1):60–75.
Surace T, Fusar-Poli L, Vozza L, Cavone V, Arcidiacono C, Mammano R, Basile L, Rodolico A, Bisicchia P, Caponnetto P, Signorelli MS. Lifetime prevalence of suicidal ideation and suicidal behaviors in gender non-conforming youths: a meta-analysis. Eur Child Adolesc Psychiatry. 2021;30(8):1147–61.
Marshall E, Claes L, Bouman WP, Witcomb GL, Arcelus J. Non-suicidal self-injury and suicidality in trans people: a systematic review of the literature. Int Rev Psychiatry. 2016;28(1):58–69.
De Vries AL, Noens IL, Cohen-Kettenis PT, van Berckelaer-Onnes IA, Doreleijers TA. Autism spectrum disorders in gender dysphoric children and adolescents. J Autism Dev Disord. 2010;40(8):930–6.
Warrier V, Greenberg DM, Weir E, Buckingham C, Smith P, Lai MC, Allison C, Baron-Cohen S. Elevated rates of autism, other neurodevelopmental and psychiatric diagnoses, and autistic traits in transgender and gender-diverse individuals. Nat Commun. 2020;11(1):1–2.
Bal VH, Leventhal BL, Carter G, Kim H, Koh YJ, Ha M, et al. Parent-reported suicidal ideation in three population-based samples of school-aged korean children with autism spectrum disorder and autism spectrum screening questionnaire screen positivity. Arch Suicide Res. 2022;26(3):1232–49.
Greger HK, Myhre AK, Lydersen S, Jozefiak T. Previous maltreatment and present mental health in a high-risk adolescent population. Child Abuse Negl. 2015;45:122–34.
Pilunthanakul T, Goh TJ, Fung DSS, Sultana R, Allen JC, Sung M. Validity of the patient health questionnaire 9-item in autistic youths: a pilot study. BMC Psychiatry. 2021;21(1):564.
Storch EA, Sulkowski ML, Nadeau J, Lewin AB, Arnold EB, Mutch PJ, et al. The phenomenology and clinical correlates of suicidal thoughts and behaviors in youth with autism spectrum disorders. J Autism Dev Disord. 2013;43(10):2450–9.
Osman A, Bagge CL, Gutierrez PM, Konick LC, Kopper BA, Barrios FX. The Suicidal Behaviors Questionnaire-Revised (SBQ-R): validation with clinical and nonclinical samples. Assessment. 2001;8(4):443–54.
Anderson AH, Carter M, Stephenson J. An on-line survey of university students with autism spectrum disorder in Australia and New Zealand: characteristics, support satisfaction, and advocacy. J Autism Dev Disord. 2020;50(2):440–54.
Jackson SLJ, Hart L, Brown JT, Volkmar FR. Brief report: self-reported academic, social, and mental health experiences of post-secondary students with autism spectrum disorder. J Autism Dev Disord. 2018;48(3):643–50.
Jordans M, Rathod S, Fekadu A, Medhin G, Kigozi F, Kohrt B, Luitel N, Petersen I, Shidhaye R, Ssebunnya J, Patel V. Suicidal ideation and behaviour among community and health care seeking populations in five low-and middle-income countries: a cross-sectional study. Epidemiol Psychiatr Sci. 2018;27(4):393–402.
Uwaezuoke SN. Autism Spectrum Disorder in children: the disparities between the developed and developing countries. Autism Open Access. 2015;5(3):152.
Hahler EM, Elsabbagh M. Autism: a global perspective. Curr Dev Disord Rep. 2015;2(1):58–64.
Minshawi NF, Hurwitz S, Fodstad JC, Biebl S, Morriss DH, McDougle CJ. The association between self-injurious behaviors and autism spectrum disorders. Psychol Res Behav Manage. 2014;7:125.
Segers M, Rawana J. What do we know about suicidality in autism spectrum disorders? a systematic review. Autism Res. 2014;7(4):507–21.
Harmer B, Lee S, Duong T, Saadabadi A. Suicidal ideation. In: StatPearls [Internet]. Treasure Island, FL: StatPearls Publishing; 2022. https://0-www-ncbi-nlm-nih-gov.brum.beds.ac.uk/books/NBK565877/. Accessed 24 May 2022.
Kapur N, Cooper J, O'Connor RC, Hawton K. Non-suicidal self-injury v. attempted suicide: new diagnosis or false dichotomy? Br J Psychiatry. 2013;202(5):326–8.
Hawton K, Saunders KE, O'Connor RC. Self-harm and suicide in adolescents. Lancet. 2012;379(9834):237–82.
James Lind Alliance. Priority setting partnerships. Autism top 10 [Internet]. 2016. www.jla.nihr.ac.uk/priority-setting-partnerships/autism/top-10-priorities/. Accessed 24 May 2022.
Mokkink LB, Terwee CB, Patrick DL, Alonso J, Stratford PW, Knol DL, Bouter LM, de Vet HC. COSMIN checklist manual. Amsterdam: University Medical Center. 2012.
Klonsky ED, Saffer BY, Bryan CJ. Ideation-to-action theories of suicide: a conceptual and empirical update. Curr Opin Psychol. 2018;22:38–43.
Joiner TE. Why people die by suicide. Harvard University Press; 2005.
Cassidy SA, Gould K, Townsend E, Pelton M, Robertson AE, Rodgers J. Is camouflaging autistic traits associated with suicidal thoughts and behaviours? Expanding the interpersonal psychological theory of suicide in an undergraduate student sample. J Autism Dev Disord. 2020;50(10):3638–48.
Klonsky ED, May AM, Saffer BY. Suicide, suicide attempts, and suicidal ideation. Annu Rev Clin Psychol. 2016;12(1):307.
This work was supported by the Economic and Social Research Council [Grant Number: ES/P000711/1].
Ethics approval and consent to participate
Consent for publication
The authors declare that they have no competing interests.
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Additional file 1: Supplementary Materials 1.
Search Syntax and Terms for Each Database; Supplementary Materials 2. Adapted Newcastle–Ottawa Scale (NOS) Rating Scale; Supplementary Materials 3. Deviations from the PRISMA protocol; Supplementary Materials 4. Supplemental Reference List of Included Primary Studies; Supplementary Materials 5. Baujat Diagnostic Plot of Sources of Heterogeneity; Supplementary Materials 6. Funnel Plots of Prevalence Outcomes.
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated in a credit line to the data.
About this article
Cite this article
Newell, V., Phillips, L., Jones, C. et al. A systematic review and meta-analysis of suicidality in autistic and possibly autistic people without co-occurring intellectual disability. Molecular Autism 14, 12 (2023). https://0-doi-org.brum.beds.ac.uk/10.1186/s13229-023-00544-7
- Autism spectrum disorder
- Autistic disorder
- Asperger syndrome
- Suicidal ideation
- Suicidal behaviour
- Attempted suicide
- Self-injurious behaviour