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The influence of peer non-suicidal self-harm on young adults’ urges to self-harm: experimental study

Published online by Cambridge University Press:  28 November 2023

Alexandra Pitman Open the ORCID record for Alexandra Pitman [Opens in a new window] ,
Millie Lowther ,
Alexandra Pike ,
Jessica Davies ,
Angharad de Cates ,
Joshua E. J. Buckman  and
Oliver Robinson
Alexandra Pitman*
Affiliation:
Division of Psychiatry, UCL, London, UK Camden and Islington NHS Foundation Trust, St Pancras Hospital, London, UK
Millie Lowther
Affiliation:
UCL Institute of Cognitive Neuroscience, London, UK
Alexandra Pike
Affiliation:
UCL Institute of Cognitive Neuroscience, London, UK Department of Psychology and York Biomedical Research Institute, University of York, York, UK
Jessica Davies
Affiliation:
Division of Psychiatry, UCL, London, UK St Andrew’s Healthcare, Birmingham, UK Centre for Applied Psychology, University of Birmingham, Edgbaston, Birmingham, UK
Angharad de Cates
Affiliation:
Department of Psychiatry, University of Oxford, Warneford Hospital, Oxford, UK Oxford Health NHS Foundation Trust, Littlemore Mental Health Centre, Oxford, UK
Joshua E. J. Buckman
Affiliation:
Camden and Islington NHS Foundation Trust, St Pancras Hospital, London, UK Centre for Outcomes Research and Effectiveness (CORE), Research Department of Clinical, Educational & Health Psychology, University College London, London, UK
Oliver Robinson
Affiliation:
UCL Institute of Cognitive Neuroscience, London, UK
*
Corresponding author: Alexandra Pitman; Email: [email protected]
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Abstract

Objective:

To test the hypothesis that exposure to peer self-harm induces adolescents’ urges to self-harm and that this is influenced by individual suggestibility.

Methods:

We recruited 97 UK-based adults aged 18–25 years with a recent history of self-harm, measuring baseline suggestibility (Resistance to Peer Influence; RPI) and perceived ability to control urges to self-harm (using an adapted item from the Self-Efficacy to Resist Suicidal Action scale; SEASA) before and after two self-harm vignettes featuring named peers from the participant’s social network (to simulate exposure to peer non-suicidal self-harm) and after a wash-out exposure. We used paired t-tests to compare mean SEASA scores pre- and post-exposure, and linear regression to test for an association between RPI and change in SEASA scores pre- and post-exposure.

Results:

Perceived ability to control urges to self-harm was significantly reduced following exposure to peer self-harm (t(96) = 4.02, p < 0.001, mean difference = 0.61; 95% CI = 0.31, 0.91), but was not significantly different from baseline after exposure to a wash-out. We found no association between suggestibility and change in urges to self-harm after exposure to peer self-harm.

Conclusion:

Our findings support social influences on self-harm in a sample of young adults, regardless of their individual degree of suggestibility.

Keywords

Self-harmself-injurious behaviourpeer influencecognitionadolescent
Type
Original Article
Information
Acta Neuropsychiatrica , First View , pp. 1 - 13
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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
© The Author(s), 2023. Published by Cambridge University Press on behalf of Scandinavian College of Neuropsychopharmacology

Significant outcomes

  • In a lab setting, risk of self-harm in young people is influenced by peer self-harm, but this is irrespective of individual suggestibility.

  • A wash-out exposure neutralised negative effects of exposure to peer self-harm and has potential therapeutic effects in mitigating these risks.

  • This is the first experimental study to investigate suggestion effects after self-harm, and findings support those from epidemiological studies.

Limitations

  • All those sampled had a history of self-harm, although it is possible that a threshold value of suggestibility is a necessary condition for the onset of self-harm and for susceptibility to peer self-harm influences.

  • Findings relate to written vignettes rather than a more naturalistic exposure to peer self-harm.

  • Replication of this study is needed in other populations to compare findings.

Background

Adolescence, spanning the ages 10–24 years (Sawyer et al., Reference Sawyer, Azzopardi, Wickremarathne and Patton2018), is a period during which self-harm is common (Moran et al., Reference Moran, Coffey, Romaniuk, Olsson, Borschmann, Carlin and Patton2012). Its prevalence is rising among adolescents in high-income countries (Mercado et al., Reference Mercado, Holland, Leemis, Stone and Wang2017; Borschmann & Kinner, Reference Borschmann and Kinner2019; McManus et al., Reference McManus, Gunnell, Cooper, Bebbington, Howard, Brugha, Jenkins, Hassiotis, Weich and Appleby2019; Cybulski et al., Reference Cybulski, Ashcroft, Carr, Garg, Chew-Graham, Kapur and Webb2021). Self-harm covers a range of behaviours with varied motivations, reflecting either suicidal intent, non-suicidal distress, or mixed/unclear intentions (Skegg, Reference Skegg2005). People who engage in non-suicidal self-harm (NSSH) describe valuing it emotionally (releasing emotional pressure; expressing self-directed anger) and/or socially (peer conformity; communicating pain) (Klonsky, Reference Klonsky2009; Klonsky et al., Reference Klonsky, Glenn, Styer, Olino and Washburn2015; Edmondson et al., Reference Edmondson, Brennan and House2016). Increasing proportions of adults who self-harm explain it relieves unpleasant feelings of anger, tension, anxiety, or depression (McManus et al., Reference McManus, Gunnell, Cooper, Bebbington, Howard, Brugha, Jenkins, Hassiotis, Weich and Appleby2019). However, self-harm can be stigmatising (Burke et al., Reference Burke, Piccirillo, Moore-Berg, Alloy and Heimberg2019) and carries a risk of serious tissue damage (Gurung, Reference Gurung2018). Whilst it may have transient ameliorating effects on suicidal ideation (Herzog et al., Reference Herzog, Choo, Galfalvy, Mann and Stanley2022), it reinforces repeat self-harm (Cully et al., Reference Cully, Corcoran, Leahy, Griffin, Dillon, Cassidy, Shiely and Arensman2019), and is associated with accidental death (Hawton et al., Reference Hawton, Harriss and Zahl2006) and suicide (Hawton et al., Reference Hawton, Bergen, Cooper, Turnbull, Waters, Ness and Kapur2015). Where NSSH sets in early as a coping mechanism, it can normalise suicidal behaviour as a response to distress (John et al., Reference John, Marchant, Hawton, Gunnell, Cleobury, Thomson, Spencer, Dennis, Lloyd and Scourfield2022). The rising incidence of adolescent self-harm could therefore create a cohort effect of young people carrying this theoretical risk of suicide into adulthood (McManus et al., Reference McManus, Gunnell, Cooper, Bebbington, Howard, Brugha, Jenkins, Hassiotis, Weich and Appleby2019).

There is a clear need to address our lack of understanding of the factors driving the rise in adolescent self-harm (Gunnell et al., Reference Gunnell, Kidger and Elvidge2018). Theoretical models of self-harm consider the role of exposure to other’s self-harm, social norms and media depictions of self-harm as influencing social cognitions (Hasking et al., Reference Hasking, Whitlock, Voon and Rose2017; O’Connor & Kirtley, Reference O’Connor and Kirtley2018). Exposure to peer self-harm is associated with the onset of personal suicidal and non-suicidal self-harm (Jarvi et al., Reference Jarvi, Jackson, Swenson and Crawford2013; Mueller & Abrutyn, Reference Mueller and Abrutyn2015; Quigley et al., Reference Quigley, Rasmussen and McAlaney2016; Zhu et al., Reference Zhu, Westers, Horton, King, Diederich, Stewart and Kennard2016), as consistent with qualitative accounts (Hodgson, Reference Hodgson2004; Klineberg et al., Reference Klineberg, Kelly, Stansfeld and Bhui2013; Hetrick et al., Reference Hetrick, Subsinghe, Anglin, Hart, Morgan and Robinson2020; Hall & Melia, Reference Hall and Melia2022). One explanation is that adolescent socialisation processes create pressure to emulate others’ behaviour or conform to social norms, and this may shape susceptibility to peer influences on self-harm and suicidal behaviour (Prinstein et al., Reference Prinstein, Heilbron, Guerry, Franklin, Rancourt, Simon and Spirito2010). Social influences have a greater impact on risk decision-making in adolescence than other age groups, driven by fear of social ostracism (Sebastian et al., Reference Sebastian, Viding, Williams and Blakemore2009; Blakemore & Mills, Reference Blakemore and Mills2014; Knoll et al., Reference Knoll, Magis-Weinberg, Speekenbrink and Blakemore2015). Peer conformity rises throughout adolescence (Berndt, Reference Berndt1979; Gardner & Steinberg, Reference Gardner and Steinberg2005; Steinberg & Monahan, Reference Steinberg and Monahan2007; Sumter et al., Reference Sumter, Bokhorst, Steinberg and Westenberg2009), and the neural correlates of sensitivity to peer influence are apparent in 10-year-olds (Grosbras et al., Reference Grosbras, Jansen, Leonard, McIntosh, Osswald, Poulsen, Steinberg, Toro and Paus2007). Adolescence therefore marks a critical developmental period in which there is both greatest susceptibility to peer influence and greatest prevalence of self-harm (Prinstein et al., Reference Prinstein, Heilbron, Guerry, Franklin, Rancourt, Simon and Spirito2010), but also opportunities to intervene.

Social influences on adolescent risk behaviours have been investigated experimentally in relation to driving (Simons-Morton et al., Reference Simons-Morton, Bingham, Li, Zhu, Buckley, Falk and Shope2019) and smoking (Kniskern et al., Reference Kniskern, Biglan, Lichtenstein, Ary and Bavry1983), but to our knowledge, no studies have measured self-harming behaviour before and after manipulating exposure to self-harm (Heilbron & Prinstein, Reference Heilbron and Prinstein2008). Understanding how these factors operate in real-time is critical to understanding the temporal sequence of hypothesised suggestion effects; i.e. the effect of a role model’s self-harm or suicidal behaviour on an observer’s self-harming behaviour (Abrutyn & Mueller, Reference Abrutyn and Mueller2014). The term suggestion is preferred to contagion or imitation, providing a categorical label for putative mechanisms. Such work is important because identifying individual cognitive markers and peer characteristics influencing susceptibility to self-harm suggestion might inform screening tools in health or educational settings. These could identify individuals who might benefit from targeted interventions after peer self-harm exposure, mitigating suggestion effects. We aimed to test the hypothesis that exposure to peer NSSH induces adolescents’ urges to self-harm, providing evidence to support peer influences on self-harm and that individual suggestibility predicts greater susceptibility to peer influences on self-harm. We also aimed to establish proof-of-concept evidence to support a wash-out exposure achieving neutralising effects.

Material and methods

Sample

We recruited adults in late adolescence via social media and research participation databases (see Supplementary Methods). Inclusion criteria were: aged 18–25 years, UK residence, and self-harm within the previous five years. Exclusion criteria were self-reported suicidal ideation or suicide attempt in the past month.

Individuals responding to the advert completed an online screening questionnaire, capturing socio-demographic characteristics and past history of suicidal thoughts, suicide attempts, and self-harm (McManus et al., Reference McManus, Gunnell, Cooper, Bebbington, Howard, Brugha, Jenkins, Hassiotis, Weich and Appleby2019), used for eligibility and risk screening. From June-October 2020 eligible participants (masked to hypotheses) booked an online session lasting 20–30 min, with telephone support from the research assistant on starting and ending.

Power calculation

We estimated we would need a sample size of approximately 73 participants to detect a difference (between samples paired t-test) of two intervals on the 10-point Self-Efficacy to Resist Suicidal Action scale (SEASA) with 80% power and α set at 0.05, calculated using G*Power (Faul et al., Reference Faul, Erdfelder, Lang and Buchner2007) version 3.1.9. Anticipating 20% drop-out and data exclusions, we inflated this to 100.

Ethics

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. All procedures involving human subjects/patients were approved by the UCL Research Ethics Committee (reference 14075/002). Our team’s lived experience researcher advised on project planning and interpretation of results (Lewis & Hasking, Reference Lewis and Hasking2019). Participants provided online informed consent, including for anonymised data being archived publicly.

Measures

We used the Gorilla Experiment Builder (www.gorilla.sc) to create and host the experiment (Anwyl-Irvine et al., Reference Anwyl-Irvine, Massonnié, Flitton, Kirkham and Evershed2019). We collected the following baseline (T0) measures using REDCap electronic data capture tools hosted at UCL (Harris et al., Reference Harris, Taylor, Thielke, Payne, Gonzalez and Conde2009, Reference Harris, Taylor, Minor, Elliott, Fernandez, O’Neal, McLeod, Delacqua, Delacqua, Kirby and Duda2019) (validity and scoring details are provided in Supplementary Methods):

  • Suggestibility: (independent variable) Measured using the Resistance to Peer Influence (RPI) Scale (Steinberg & Monahan, Reference Steinberg and Monahan2007), a validated scale that captures suggestibility to peer pressure as distinct from willingness to engage in antisocial activities. Higher scores denote greater resistance to peer influence (low suggestibility).

  • Perceived ability to control feelings of wanting to self-harm in the next 24 hours: (dependent variable) Measured using one item from the original SEASA scale (Czyz et al., Reference Czyz, Bohnert, King, Price, Kleinberg and Ilgen2014). Lower scores denote higher risk of imminent self-harm. We adapted the wording to remove references to suicidal intent: ‘How certain are you that you could control future feelings of wanting to harm yourself?’.

  • Socio-demographic characteristics : Age, gender, occupation, housing status, marital status, and ethnicity.

  • Personality disorder screen: using the Standardised Assessment of Personality – Abbreviated Scale (Fok et al., Reference Fok, Seegobin, Frissa, Hatch, Hotopf, Hayes and Moran2015).

  • Past self-harm or suicide attempt in friends and relatives: to derive measures of past exposure to others’ self-harm (none/ lifetime/last year/last week).

  • Suicide of a friend or relative: To derive measures of past exposure to suicide (none/ lifetime/last year/last week).

  • Catastrophising: to capture the contribution of negative cognitive–affective responses to others’ self-harm (Pike et al., Reference Pike, Serfaty and Robinson2021). Catastrophising is defined as overestimating the probability of a severe negative outcome or perceiving a specific negative event as catastrophic (Pike et al., Reference Pike, Serfaty and Robinson2021).

Experimental task

We asked each participant for the first names of three different friends who would feature in a set of three vignettes (two simulating exposure to peer NSSH; one as a wash-out). First, we asked them for the name of someone they admired, then someone they felt ambivalent about, and finally, for our wash-out vignette, we asked them for the name of someone who they enjoyed the company of (see Supplementary Methods for wording). In reporting findings, we term these peers admired, neutral, and wash-out, respectively.

We collected data on nominated peers’ characteristics: age, gender, ethnicity, subjective emotional closeness (using a Likert-style scale from one denoting ‘not close at all’, to five denoting ‘As close as any relationship I’ve had before or since’), perceived likelihood of self-harming in real life (using a Likert-style scale from 0 denoting ‘not likely’ to nine denoting ‘very likely’), and length of the relationship (in years).

We then presented each participant with two self-harm vignettes, each describing one of the nominated peers enacting NSSH in response to a life stressor, randomly counterbalanced to present an admired or neutral peer first (Fig. 1).

“You mentioned earlier that you had a friend called ____________ who you have known for ___years, and who you rated as __ out of 5 on our closeness scale. We would like you to imagine a situation in which you have met up with _______ and at one point in the conversation they mention that things have been difficult recently, and they have been coping with this by self-harming. They don’t describe this to you in any detail but reassure you that they are not suicidal. You get the impression that they have found this helpful in coping with recent problems they have been having.”

Figure 1. Chronology of tasks and Self-Efficacy to Resist Suicidal Action (SEASA) item measurement.

The SEASA item was repeated after each vignette (T1 and T2).

Finally, we presented a wash-out vignette describing a named peer using an app to help them cope with a life stressor. This was intended to neutralise the content presented in the previous self-harm vignettes.

“You mentioned earlier that you had a friend called ____________ who you have known for ___years, and who you rated as __ out of 5 on our closeness scale. We would like you to imagine a situation in which you have met up with _______ and at one point in the conversation they mention that things have been difficult recently, and they have been coping with this by using an app that helps with anxious thoughts. They tell you about the app and its functions, and explain that it has been really helpful in managing their difficulties. You get the impression that they have found this helpful in coping with recent problems they have been having.”

Finally, participants repeated the SEASA item (T3).

Outcomes

Our main outcome was a change in perceived ability to control urges to self-harm , measured as a score difference on the SEASA item (from −9 to + 9) from baseline (T0) to after each self-harm vignette (T1 and T2). We considered score differences to be of more interest than post-exposure score, as the focus of this study was on change from each individual’s baseline.

Covariates

Multivariate models were adjusted for seven covariates specified a priori: age (continuous), gender (seven categories), occupational status (six categories) as a proxy for socio-economic status (Buckman et al., Reference Buckman, Saunders, Stott, Cohen, Arundell, Eley, Hollon, Kendrick, Ambler, Watkins, Gilbody, Kessler, Wiles, Richards, Brabyn, Littlewood, DeRubeis, Lewis and Pilling2022), ethnicity (five categories), personality disorder screen (binary), past history of non-fatal self-harm in friends and relatives (categorised on recency), and order of vignette presentation (admired/neutral first). Table 1 specifies categories.

Table 1. Demographic and clinical characteristics of study participants

IQR, interquartile range; SD, standard deviation.

a Median split at a RPI score value of 2.7 (IQR = 2.3–3.1; mean = 2.67; SD = 0.60; range = 1.4–3.9).

b 2-sided significance threshold of p = 0.01 for all tests.

c Mean scores on this item in a validation sample of 464 US adults enrolled in a substance use disorder treatment programme were 6.92 (SD = 2.87) for the full sample, and 4.39 (SD = 2.82) for the sub-sample of 103 with current suicidal ideation (Czyz et al., Reference Czyz, Bohnert, King, Price, Kleinberg and Ilgen2014).

Statistical analysis

We pre-registered our analysis plan prior to analysis on the Open Science Framework (OSF), made publicly available on 07/09/21 (https://osf.io/2eq8z/; doi: 10.17605/OSF.IO/2EQ8Z).

SEASA item score differences and RPI were fitted as continuous variables in linear regression models.

We presented descriptive statistics on our main measures as univariate associations, split by high versus low suggestibility (RPI dichotomised at the median) for ease of interpretation.

To test hypothesis 1, that there was a reduction in the perceived ability to control urges to self-harm after exposure to peer self-harm, we used paired t-tests to assess differences in mean SEASA item scores pre- and post-exposure. In a set of hypothesis-generating analyses (see Supplementary Methods), we tested the effect of stratifying t-tests by six peer characteristics specified a priori (peer’s age, peer’s gender, peer’s ethnicity, a rating of emotional closeness, perceived likelihood of self-harming in real life, and length of the friendship) and by peer status (whether the admired or neutral peer was presented first).

To test hypothesis 2, we used multivariate linear regression models to estimate the association between suggestibility scores (RPI, continuous measure; independent variable) and change in urges to self-harm between baseline and after exposure to each peer self-harm vignette (difference in SEASA item scores, continuous measure; dependent variable), adjusted for the seven pre-specified covariates above. Residuals for RPI values were checked to test assumptions for linear modelling. Multilevel models included two measures per individual (one score difference per vignette), clustered on the individual, using robust standard errors. For comparison of findings (to aid interpretability), linear regression models were repeated with a binary exposure (median split).

In our proof-of-concept analysis of the effects of a wash-out vignette, we used paired t-tests to estimate the mean difference between SEASA item scores: (a) after exposure to the self-harm vignettes (using the mean of scores after exposure to self-harm of the admired peer and of the neutral peer) and after exposure to the wash-out vignette (hypothesising an improvement in perceived ability to control urges to self-harm after wash-out), and (b) after exposure to the wash-out vignette and baseline scores (hypothesising no difference).

To test our secondary hypotheses (see Supplementary Methods), we conducted interaction tests by fitting the following terms to our multivariate linear regression models: peer status, participant age, and history of suicide bereavement.

In an additional hypothesis-generating analysis to test the contribution of high catastrophising scores in explaining whether those with a negative cognitive-affective response to others’ self-harm may be more likely to exhibit change in scores post-exposure, we added catastrophising scores to our final linear regression models to assess whether this changed the magnitude or direction of any association.

For all tests, we used a significance threshold of p < 0.01 to reflect multiple testing (see Supplementary Methods). All analyses were conducted using Stata 17 software (StataCorp, 2017).

Due to the nature of data collection, there were no missing data for any of the covariates used in models.

Sensitivity analyses

In our sensitivity, analyses we explored the effect on our main findings of:

  • Excluding participants who nominated friends outside their age group (defined as over 5 years younger or over 10 years older).

  • Excluding data on participants with very fast completion times on the task (defined as the bottom quartile for total time taken), assuming that these participants had thought less carefully about the task.

  • Conducting analyses using the statistical package R (version 4.0.3) (R Core Team, 2020).

Results

Sample characteristics

Of 169 adults responding to our adverts, 97 met inclusion criteria (Fig. 2). Participants identified predominantly as female (83%), White (74%), and residents in England (91%) (Table 1). Mean age was 21.8 years (SD = 2.29). A high proportion reported having friends or relatives with a history of self-harm (90%), suicide (35%), or both (35%). Baseline suggestibility (RPI) and SEASA item scores were normally distributed. There were no significant group differences on any variable when comparing those with low versus high suggestibility scores (based on a median split). The peers nominated for the three vignettes (Supplementary Table 2) ranged in age from 10 to 69 years and were predominantly female (66%).

Figure 2. Flow of participants.

Influence of exposure to peer self-harm on urges to self-harm

We present comparisons of the SEASA item scored at four points: baseline (T0); after first self-harm vignette (T1), after second self-harm vignette (T2), and after wash-out vignette (T3; Table 1; Fig. 3).

Figure 3. (a) and (b): Mean Self-Efficacy to Resist Suicidal Action (SEASA) item scores at baseline (T0), post-exposure (T1/T2), and wash-out (T3).

In support of hypothesis 1, perceived ability to control urges to self-harm decreased significantly between baseline and after: (i) any exposure to a self-harm vignette (mean difference = −0.61; 95% CI = −0.31, −0.91) (Table 2; Fig. 3 left panel); (ii) exposure to an admired peer’s self-harm (mean difference = −0.74; 95% CI = −0.39 to 1.10) (Fig. 3 right panel); and (iii) after exposure to a neutral peer’s self-harm (mean difference = −0.47; 95% CI = −0.17 to 0.78). Supplementary Table 3 presents findings regarding the influence of peer characteristics.

Table 2. Results of paired t-tests comparing SEASA item scores between baseline, exposure to self-harm vignettes, and wash-out vignette

Number of observations for all t-tests = 97; degrees of freedom for all t-tests = 96.

Significance threshold of p < 0.01 for all tests.

Association between suggestibility and changes in urges to self-harm

Change in SEASA item scores between baseline and after exposure to self-harm was normally distributed (Fig. 4). We found no evidence to support hypothesis 2 regarding an association between suggestibility (RPI, continuous measure) and changes in perceived ability to control urges to self-harm between baseline and after exposure to self-harm (adjusted coefficient = 0.153; 95% CI = −0.556, 0.863; p = 0.669), taking into account clustering (Model 4; Table 3). Findings were also non-significant using a binary exposure.

Figure 4. Distribution of change in Self-Efficacy to Resist Suicidal Action (SEASA) item scores between baseline and after exposure to self-harm vignettes.

Table 3. Association between suggestibility scores and change in perceived ability to control urges to self-harm (n = 97)

SEASA, Self-Efficacy to Resist Suicidal Action; CI, confidence interval.

Accounting for clustering based on two measurements per participant (exposed to two self-harm vignettes).

Significance threshold of p < 0.01 for all tests.

Influence of wash-out exposure on urges to self-harm

There was evidence to support our hypothesis of a significant difference between SEASA item scores before and after the wash-out vignette (mean difference = 0.93; 95% CI = 0.66, 1.20), and of no significant difference between SEASA item scores after the wash-out vignette and baseline (mean difference = 0.32, 95% CI = 0.05, 0.59). A high proportion of peers selected for the wash-out vignette were rated as close (93%), similar to ratings for admired peers (95%) but in contrast to those for neutral peers (26%; Supplementary Table 2).

Secondary hypotheses

There was no evidence to support a modifying effect for any of three variables (peer status, participant age, and history of suicide bereavement) in the association between suggestibility and changes in perceived ability to control urges to self-harm (Supplementary Results), acknowledging under-powered analyses. Adding catastrophising scores to our final model did not influence the magnitude or direction of the non-significant association (Table 3).

Sensitivity analyses

Our findings were unchanged when repeating our analyses for hypotheses 1 and 2 where: (a) excluding participants completing the task very rapidly, (b) excluding participants who selected peers outside their age group, (c) using R.

Discussion

Main findings

We found evidence to support our main hypothesis: exposure to peer NSSH influences adolescents’ urges to self-harm regardless of the peer’s social status. However, findings did not support our hypothesis that more suggestible individuals would demonstrate a more marked inability to control urges to self-harm after self-harm exposure. This suggests that our sample of young adults with a history of self-harm were susceptible to peer self-harm influences regardless of their individual suggestibility, with no grounds for risk stratification based on suggestibility scores. The wash-out exposure we designed for this experiment, modelling alternatives to NSSH, was found to have achieved its aim of restoring self-harm risk to baseline values, thereby neutralising the negative effects of peer NSSH exposure. However, this may have partly relied on peers nominated for this vignette being perceived as close friends.

Findings in the context of other studies

To our knowledge, this is the first experimental study to investigate suggestion effects after self-harm. Our findings are consistent with longitudinal epidemiological evidence describing an increased risk of self-harm after exposure to peer self-harm, although those analyses captured outcomes at a much longer interval after exposure (Quigley et al., Reference Quigley, Rasmussen and McAlaney2016). The limited number of studies investigating clustering of self-harm within adolescent communities provide evidence to support clustering effects within psychiatric units (Taiminen et al., Reference Taiminen, Kallio-Soukainen, Nokso-Koivisto, Kaljonen and Helenius1998) but not in schools (Pisinger et al., Reference Pisinger, Hawton and Tolstrup2019). Our findings from a sample of people who all had a history of self-harm would be consistent with this. There has been little research investigating the influence of perceived social norms of NSSH (including anticipation of social approval/sanctions and misperceptions of others’ NSSH rates) on own NSSH (Dempsey et al., Reference Dempsey, Fedorowicz and Wood2023), and more work is needed to understand how these modify the effects of direct exposure to peer NSSH. Our findings regarding the wash-out are consistent with evidence that adolescents demonstrate sensitivity to the quality of social information, integrating safe social information into their decision-making (Ciranka & Van Den Bos, Reference Ciranka and Van Den Bos2019). They also accord with findings regarding media influences, finding that exposure to recovery-oriented and hopeful media depictions of self-harm is associated with positive attitudes towards recovery among young people who self-harm (Lewis et al., Reference Lewis, Seko and Joshi2018). This highlights the importance of guidelines for the responsible representation of NSSH in the media (Westers et al., Reference Westers, Lewis, Whitlock, Schatten, Ammerman, Andover and Lloyd-Richardson2021).

Strengths and limitations

We conducted a hypothesis-led study, recruiting nationally within the UK with clear inclusion criteria, lived experience involvement, and a robust safeguarding procedure. We recruited sufficient participants to exceed the number needed for adequate power in our main analyses and followed a pre-published analysis plan. Our sampling methods achieved good representation of ethnic minorities; with 76% of our sample identifying as of White ethnicity compared with 82% of the population in England and Wales in 2021 (ONS, 2022). Although our internet-based recruitment approach created potential for broad geographic reach, our strategy failed to attract respondents from Northern Ireland, where there are higher suicide rates than other devolved nations (O’Neill & O’Connor, Reference O’Neill and O’Connor2020) but lower rates of adolescent self-harm (O’Connor et al., Reference O’Connor, Rasmussen and Hawton2014). The age range of our sample was intentionally narrow as there were ethical concerns about recruiting children for a newly designed experiment. However, with appropriate safeguards, studies spanning the full adolescent age range (10–24 years) would be informative in exploring associations with suggestibility, as this decreases steadily in a curvilinear fashion throughout adolescence (Steinberg & Monahan, Reference Steinberg and Monahan2007). The age range of peers nominated by participants was wide, ranging from 10 to 69 years, suggesting that peer influences within young people’s social circles are not restricted to the same age range. However, this might relate to the wording of our prompts to select peers. Eliciting the names of peers for our experimental task was likely to increase its salience to participants. We were unable to account for the contribution of assortative relating; genetic similarities arising from the tendency for young people to select their friends based on similar characteristics (Joiner, Reference Joiner2003; Prinstein et al., Reference Prinstein, Heilbron, Guerry, Franklin, Rancourt, Simon and Spirito2010). Epidemiological studies show that assortative relating only partially explains the association between peer self-harm and own self-harm (Prinstein et al., Reference Prinstein, Heilbron, Guerry, Franklin, Rancourt, Simon and Spirito2010; Randall et al., Reference Randall, Nickel and Colman2015), but further work is needed to investigate the contribution of genetic similarities.

Our definitions of admired and neutral peers were articulated in ways that attempted to avoid revealing our hypotheses and lacked age restrictions. This meant different participants may have interpreted these instructions differently, particularly in identifying a neutral peer. Other markers of peer status would have been helpful in understanding mechanisms. Further research using larger samples is needed to investigate the influence of self-harm suggestion effects of similarities in peers’ socio-demographic and clinical characteristics. It is also possible that participants guessed our hypotheses, creating the potential for response bias. However, minimising interpersonal contact between research assistants and participants was intended to reduce the effect of such demand characteristics. Whilst we used a validated measure of suggestibility, developed to minimise socially desirable responding (Steinberg & Monahan, Reference Steinberg and Monahan2007), we were limited in available measures of propensity to self-harm given the requirement to capture changes over a short timescale. Whilst the SEASA item used was not designed for our specific purpose, it captured change in the expected direction both after exposure to self-harm and exposure to wash-out. As it does not inquire about intent, we cannot infer whether exposure to self-harm increases probability of enacted self-harm. We acknowledge that ceiling and floor effects of the RPI and/or SEASA item may have limited opportunities to detect change.

Our exposure was hypothetical NSSH so our findings may not be generalisable to those exposed to enacted self-harm or suicide. Findings from a sample recruited from the internet and research databases may also not be representative of the wider population of young UK-based adults. Finally, it is possible that our vignettes exposed participants to a generic anxiety-inducing stimulus, such that score changes reflected general arousal rather than specific self-harm exposure. Inclusion of multiple threat scenarios (for example exam failure, relationship breakdown) would have controlled for a threat stimulus, allowing us to test the effects of specific exposure to self-harm, and whether this differs by knowing the person and/or being close to that person. Such a study design could carry the risk of respondents acclimatising to repeated exposure to stressful scenarios (or conversely becoming increasingly distressed), indicating the need for careful use of wash-out exposures between exposures.

Clinical, policy, and research implications

Our findings support clinical concerns about self-harm suggestion effects within adolescent friendship groups, suggesting that young people may need extra support when exposed to peer NSSH. They may also have implications for unintended effects of group interventions for young people who self-harm (Abou Seif et al., Reference Abou Seif, John-Baptiste Bastien, Wang, Davies, Isaken, Ball, Pitman and Rowe2022). An estimated 39% of British adolescents know a friend who self-harms, rising to 77% for those who self-harm themselves (Mars et al., Reference Mars, Heron, Crane, Hawton, Kidger, Lewis, Macleod, Tilling and Gunnell2014). Identifying who is most at risk within this population is challenging because we did not find suggestibility scores predictive of risk and our sample was restricted to those with prior self-harm. There is clearly a need for primary prevention approaches to mitigate social influences on self-harm in schools, colleges, and other adolescent communities. Our proof-of-concept findings regarding our wash-out exposure suggest that an acceptable co-produced intervention modelling adaptive coping may be therapeutic for adolescents exposed to peer NSSH. This is likely to be more potent in the immediate aftermath, and when featuring relatively admired peers, thereby propagating positive influences on self-harm. One approach is to appeal to an adolescent’s concerns about a friend who self-harms, providing access to psychoeducation regarding alternatives to self-harm when managing urges (Pengelly et al., Reference Pengelly, Ford, Blenkiron and Reilly2008) alongside modelling alternative means of processing distress. This could potentially reduce anxiety about their friend whilst also mitigating self-harm suggestion effects. This direct approach may be preferable to universal screening for risk of self-harm, which is resource demanding, lacks supporting evidence, and has documented adverse effects (Morken et al., Reference Morken, Dahlgren, Lunde and Toven2020). More broadly, our findings suggest a need for better awareness of the potential risks of adolescent exposure to peer self-harm, and research identifying appropriate responses and safer ways of managing distress.

Further experimental work is needed to quantify the longevity of the effects of peer influence, identifying the window of opportunity for therapeutic intervention, and the importance of peer status. In our study, the magnitude of the difference in SEASA item scores was greater for an admired than neutral peer, but we did not compare these differences formally, and this needs testing in a larger sample. It is also possible that a threshold value of suggestibility is a necessary condition for the onset of self-harm (and for behavioural responses to peer self-harm). Suggestibility scores in our sample were lower (denoting greater suggestibility) than those for two normative samples of young people not defined by self-harm history (Steinberg & Monahan, Reference Steinberg and Monahan2007; Grosbras et al., Reference Grosbras, Jansen, Leonard, McIntosh, Osswald, Poulsen, Steinberg, Toro and Paus2007), and it is possible that our sample recruited were above such a threshold, based on their self-harm history. There is therefore a need to conduct this experiment in a representative sample of adolescents with and without past self-harm. Further work is also needed to understand the cognitive and neural basis for social influences on self-harming behaviour, and how they are modified by perceptions of the index self-harmer (social status, emotional closeness). Such work would explore the relative contribution of psychological processes such as social modelling, emotional contagion, outcome expectancies, cognitive availability of methods, and cultural norms. These advances might also inform our understanding of how peer suicide influences suicidal behaviour, with implications for managing suicide clusters (Hawton et al., Reference Hawton, Hill, Gould, John, Lascelles and Robinson2020).

Conclusions

Our experimental study supported self-harm suggestion effects in older adolescents with a history of self-harm, irrespective of individual suggestibility. Given proof-of-concept evidence that our wash-out exposure neutralises the negative effects of self-harm exposure, further co-produced development is indicated for implementation among young people exposed to peer self-harm. As all participants in our sample had a history of self-harm, our hypotheses require further testing in a larger, representative sample of adolescents.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/neu.2023.51

Acknowledgements

We acknowledge support with recruitment from MQ Participate, Call for Participants, the KCL study recruitment platform, the UCL research subject databases, and the GLAD (Genetic Links to Anxiety and Depression) study participant database (NIHR BioResource). We are grateful to Professor Laurence Steinberg for permission to use the Resistance to Peer Influence measure.

Author contribution

A Pitman conceived the idea for the study, with input from OJR, JEJB and A Pike, and together they gained competitive funding from the UCL Institute of Mental Health for the project. The screening questionnaire, experimental task, risk protocol and recruitment strategy were developed by A Pitman, OJR, JEJB, A Pike, JD, A de C and ML. Recruitment, risk screening, experimental task facilitation, and database management were conducted by ML. A Pitman conducted the analysis with input from A Pike and ML. All authors contributed to interpretation of findings. AP drafted the paper with input from all authors. All authors provided final approval of the version to be published.

Financial support

This project was specifically funded by the UCL Institute of Mental Health Small Grant Funding scheme to encourage collaborative and interdisciplinary work in mental health research.

A Pitman is supported by the NIHR University College London Hospitals Biomedical Research Centre.

At the time of this study, A de C was supported by a Wellcome Trust Clinical Doctoral Fellowship (216430/Z/19/Z) and has received additional funding from the Gatsby / Royal College of Psychiatrists and the British Association of Psychopharmacology.

JEJB was supported by the Wellcome Trust (Grant Code 201292/Z/16/Z) and a grant from the Royal College of Psychiatrists.

OJR’s MRC senior fellowship is partially in collaboration with Cambridge Cognition (who plan to provide in-kind contribution) and he is running an investigator-initiated trial with medication donated by Lundbeck (escitalopram and placebo, no financial contribution). He also holds an MRC-Proximity to discovery award with Roche (who provides in-kind contributions and have sponsored travel for ACP) regarding work on heart-rate variability and anxiety. He has also completed consultancy work for Peak, IESO digital health and Roche. OJR sits on the committee of the British Association of Psychopharmacology.

Competing interests

None.

Ethical statement

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. All procedures involving human subjects/patients were approved by the UCL Research Ethics Committee (reference 14075/002).

References

Abou Seif, N, John-Baptiste Bastien, R, Wang, B, Davies, J, Isaken, M, Ball, E, Pitman, A and Rowe, S (2022) Effectiveness, acceptability and potential harms of peer support for self-harm in non-clinical settings: systematic review. BJPsych Open 8(1). DOI: 10.1192/bjo.2021.1081.Google Scholar
Abrutyn, S and Mueller, AS (2014) Are suicidal behaviors contagious in adolescence? Using longitudinal data to examine suicide suggestion. American Sociological Review 79(2), 211227.Google Scholar
Anwyl-Irvine, AL, Massonnié, J, Flitton, A, Kirkham, N and Evershed, JK (2019) Gorilla in our midst: an online behavioral experiment builder. Behavior Research Methods 52(1), 388407.Google Scholar
Berndt, TJ (1979) Developmental changes in conformity to peers and parents. Developmental Psychology 15(6), 608616. DOI: 10.1037/0012-1649.15.6.608.Google Scholar
Blakemore, SJ and Mills, KL (2014) Is adolescence a sensitive period for sociocultural processing? Annual Review of Psychology 65(1), 187207. DOI: 10.1146/annurev-psych-010213-115202.Google Scholar
Borschmann, R and Kinner, SA (2019) Responding to the rising prevalence of self-harm. The Lancet Psychiatry 6(7), 548549. DOI: 10.1016/S2215-0366(19)30210-X.Google Scholar
Buckman, JEJ, Saunders, R, Stott, J, Cohen, ZD, Arundell, L-L, Eley, TC, Hollon, SD, Kendrick, T, Ambler, G, Watkins, E, Gilbody, S, Kessler, D, Wiles, N, Richards, D, Brabyn, S, Littlewood, E, DeRubeis, RJ, Lewis, G and Pilling, S (2022) Socioeconomic indicators of treatment prognosis for adults with depression: a systematic review and individual patient data meta-analysis. JAMA Psychiatry 79(5), 406. DOI: 10.1001/jamapsychiatry.2022.0100.Google Scholar
Burke, TA, Piccirillo, ML, Moore-Berg, SL, Alloy, LB and Heimberg, RG (2019) The stigmatization of non-suicidal self-injury. Journal of Clinical Psychology 75(3), 481498.Google Scholar
Ciranka, S and Van Den Bos, W (2019) Social influence in adolescent decision-making: a formal framework. Frontiers in Psychology. DOI: 10.3389/fpsyg.2019.01915.Google Scholar
Cully, G, Corcoran, P, Leahy, D, Griffin, E, Dillon, C, Cassidy, E, Shiely, F and Arensman, E (2019) Method of self-harm and risk of self-harm repetition: findings from a national self-harm registry. Journal of Affective Disorders 246, 843850.Google Scholar
Cybulski, L, Ashcroft, DM, Carr, MJ, Garg, S, Chew-Graham, CA, Kapur, N and Webb, RT (2021) Temporal trends in annual incidence rates for psychiatric disorders and self-harm among children and adolescents in the UK, 2003-2018. BMC Psychiatry 21(1). DOI: 10.1186/s12888-021-03235-w.Google Scholar
Czyz, EK, Bohnert, ASB, King, CA, Price, AM, Kleinberg, F and Ilgen, MA (2014) Self-efficacy to avoid suicidal action: factor structure and convergent validity among adults in substance use disorder treatment. Suicide and Life-Threatening Behavior 44(6), 698709.Google Scholar
Dempsey, RC, Fedorowicz, SE and Wood, AM (2023) The role of perceived social norms in nonsuicidal self-injury and suicidality: a systematic scoping review. PLoS ONE 18(6), e0286118. DOI: 10.1371/journal.pone.0286118.Google Scholar
Edmondson, AJ, Brennan, CA and House, AO (2016) Non-suicidal reasons for self-harm: a systematic review of self-reported accounts. Journal of Affective Disorders 191, 109117. DOI: 10.1016/j.jad.2015.11.043.CrossRefGoogle ScholarPubMed
Faul, F, Erdfelder, E, Lang, AG and Buchner, A (2007) G*Power 3: a flexible statistical power analysis program for the social, behavioral, and biomedical sciences. Behavior Research Methods 39(2), 175191. DOI: 10.3758/BF03193146.CrossRefGoogle ScholarPubMed
Fok, ML-Y, Seegobin, S, Frissa, S, Hatch, SL, Hotopf, M, Hayes, RD and Moran, P (2015) Validation of the standardised assessment of personality-abbreviated scale in a general population sample. Personality and Mental Health 9, 250257. DOI: 10.1002/pmh.1307.Google Scholar
Gardner, M and Steinberg, L (2005) Peer influence on risk taking, risk preference, and risky decision making in adolescence and adulthood: an experimental study. Developmental Psychology 41(4), 625635. DOI: 10.1037/0012-1649.41.4.625.CrossRefGoogle ScholarPubMed
Grosbras, M-H, Jansen, M, Leonard, G, McIntosh, A, Osswald, K, Poulsen, C, Steinberg, L, Toro, R and Paus, T (2007) Neural mechanisms of resistance to peer influence in early adolescence. Journal of Neuroscience 27(30), 80408045.Google Scholar
Gunnell, D, Kidger, J and Elvidge, H (2018) Adolescent mental health in crisis. BMJ (Online). DOI: 10.1136/bmj.k2608.Google Scholar
Gurung, K (2018) Bodywork: self-harm, trauma, and embodied expressions of pain. Arts and Humanities in Higher Education 17(1), 3247. DOI: 10.1177/1474022216684634.Google Scholar
Hall, S and Melia, Y (2022) I just pulled myself together and realised I had to be responsible: adolescents’ experiences of having a friend who self-harms. Child and Youth Care Forum 51(2), 291311. DOI: 10.1007/s10566-021-09629-x.Google Scholar
Harris, PA, Taylor, R, Minor, BL, Elliott, V, Fernandez, M, O’Neal, L, McLeod, L, Delacqua, G, Delacqua, F, Kirby, J and Duda, SN (2019) The REDCap consortium: building an international community of software platform partners. Journal of Biomedical Informatics 95, 103208. DOI: 10.1016/j.jbi.2019.103208.Google Scholar
Harris, PA, Taylor, R, Thielke, R, Payne, J, Gonzalez, N and Conde, JG (2009) Research electronic data capture (REDCap)-A metadata-driven methodology and workflow process for providing translational research informatics support. Journal of Biomedical Informatics 42(2), 377381. DOI: 10.1016/j.jbi.2008.08.010.Google Scholar
Hasking, P, Whitlock, J, Voon, D and Rose, A (2017) A cognitive-emotional model of NSSI: using emotion regulation and cognitive processes to explain why people self-injure. Cognition and Emotion 31(8), 15431556. DOI: 10.1080/02699931.2016.1241219.Google Scholar
Hawton, K, Bergen, H, Cooper, J, Turnbull, P, Waters, K, Ness, J and Kapur, N (2015) Suicide following self-harm: findings from the Multicentre Study of self-harm in England, 2000-2012. Journal of Affective Disorders 175, 147151. DOI: 10.1016/j.jad.2014.12.062.CrossRefGoogle ScholarPubMed
Hawton, K, Harriss, L and Zahl, D (2006) Deaths from all causes in a long-term follow-up study of 11 583 deliberate self-harm patients. Psychological Medicine 36(3), 397405. DOI: 10.1017/S0033291705006914.Google Scholar
Hawton, K, Hill, NTM, Gould, M, John, A, Lascelles, K and Robinson, J (2020) Clustering of suicides in children and adolescents. The Lancet Child & Adolescent Health 4(1), 5867.CrossRefGoogle ScholarPubMed
Heilbron, N and Prinstein, MJ (2008) Peer influence and adolescent nonsuicidal self-injury: a theoretical review of mechanisms and moderators. Applied and Preventive Psychology 12(4), 169177.Google Scholar
Herzog, S, Choo, TH, Galfalvy, H, Mann, JJ and Stanley, BH (2022) Effect of non-suicidal self-injury on suicidal ideation: real-time monitoring study. British Journal of Psychiatry 221(2), 485487. DOI: 10.1192/bjp.2021.225.Google Scholar
Hetrick, SE, Subsinghe, A, Anglin, K, Hart, L, Morgan, A and Robinson, J (2020) Understanding the needs of young people who engage in self-harm: a qualitative investigation. Frontiers in Psychology. DOI: 10.3389/fpsyg.2019.02916.Google Scholar
Hodgson, S (2004) Cutting through the silence: a sociological construction of self-injury. Sociological Inquiry 74(2), 162179. DOI: 10.1111/j.1475-682X.2004.00085.x.Google Scholar
Jarvi, S, Jackson, B, Swenson, L and Crawford, H (2013) The impact of social contagion on non-suicidal self-injury: a review of the literature. Archives of Suicide Research 17(1), 119.Google Scholar
John, A, Marchant, A, Hawton, K, Gunnell, D, Cleobury, L, Thomson, S, Spencer, S, Dennis, M, Lloyd, K and Scourfield, J (2022) Understanding suicide clusters through exploring self-harm: semi-structured interviews with individuals presenting with near-fatal self-harm during a suicide cluster. Social Science and Medicine 292, 114566. DOI: 10.1016/j.socscimed.2021.114566.Google Scholar
Joiner, TE (2003) Contagion of suicidal symptoms as a function of assortative relating and shared relationship stress in college roommates. Journal of Adolescence 26(4), 495504.CrossRefGoogle ScholarPubMed
Klineberg, E, Kelly, MJ, Stansfeld, SA and Bhui, KS (2013) How do adolescents talk about self-harm: a qualitative study of disclosure in an ethnically diverse urban population in England. BMC Public Health 13(1), 572.Google Scholar
Klonsky, ED (2009) The functions of self-injury in young adults who cut themselves: clarifying the evidence for affect regulation. Psychiatry Research 166(2-3), 260268.Google Scholar
Klonsky, ED, Glenn, CR, Styer, DM, Olino, TM and Washburn, JJ (2015) The functions of nonsuicidal self-injury: converging evidence for a two-factor structure. Child and Adolescent Psychiatry and Mental Health 9(1). DOI: 10.1186/s13034-015-0073-4.Google Scholar
Kniskern, J, Biglan, A, Lichtenstein, E, Ary, D and Bavry, J (1983) Peer modeling effects in the smoking behavior of teenagers. Addictive Behaviors 8(2), 129132.Google Scholar
Knoll, LJ, Magis-Weinberg, L, Speekenbrink, M and Blakemore, S-J (2015) Social influence on risk perception during adolescence. Psychological Science 26(5), 583592.CrossRefGoogle ScholarPubMed
Lewis, SP and Hasking, P (2019) Putting the “self” in self-injury research: inclusion of people with lived experience in the research process. Psychiatric Services 70(11), 10581060. DOI: 10.1176/appi.ps.201800488.Google Scholar
Lewis, SP, Seko, Y and Joshi, P (2018) The impact of YouTube peer feedback on attitudes toward recovery from non-suicidal self-injury: an experimental pilot study. Digital Health 4. DOI: 10.1177/2055207618780499.Google Scholar
Mars, B, Heron, J, Crane, C, Hawton, K, Kidger, J, Lewis, G, Macleod, J, Tilling, K and Gunnell, D (2014) Differences in risk factors for self-harm with and without suicidal intent: findings from the ALSPAC cohort. Journal of Affective Disorders 168, 407414. DOI: 10.1016/j.jad.2014.07.009.Google Scholar
McManus, S, Gunnell, D, Cooper, C, Bebbington, PE, Howard, LM, Brugha, T, Jenkins, R, Hassiotis, A, Weich, S and Appleby, L (2019) Prevalence of non-suicidal self-harm and service contact in England, 2000-14: repeated cross-sectional surveys of the general population. The Lancet Psychiatry 6(7), 573581. DOI: 10.1016/S2215-0366(19)30188-9.Google Scholar
Mercado, MC, Holland, K, Leemis, RW, Stone, DM and Wang, J (2017) Trends in emergency department visits for nonfatal self-inflicted injuries among youth aged 10 to 24 years in the United States, 2001-2015. JAMA 318(19), 19311933.Google Scholar
Moran, P, Coffey, C, Romaniuk, H, Olsson, C, Borschmann, R, Carlin, JB and Patton, GC (2012) The natural history of self-harm from adolescence to young adulthood: a population-based cohort study. The Lancet 379(9812), 236243. DOI: 10.1016/S0140-6736(11)61141-0.Google Scholar
Morken, IS, Dahlgren, A, Lunde, I and Toven, S (2020) The effects of interventions preventing self-harm and suicide in children and adolescents: an overview of systematic reviews. F1000Research 8, 890. DOI: 10.12688/f1000research.19506.2.Google Scholar
Mueller, AS and Abrutyn, S (2015) Suicidal disclosures among friends: using social network data to understand suicide contagion. Journal of Health and Social Behavior 56(1), 131148.Google Scholar
O’Connor, RC and Kirtley, OJ (2018) The integrated motivational-volitional model of suicidal behaviour. Philosophical Transactions of the Royal Society B: Biological Sciences 373, 20170268.Google Scholar
O’Connor, RC, Rasmussen, S and Hawton, K (2014) Adolescent self-harm: a school-based study in Northern Ireland. Journal of Affective Disorders 159, 4652.Google Scholar
O’Neill, S and O’Connor, RC (2020) Suicide in Northern Ireland: epidemiology, risk factors, and prevention. The Lancet Psychiatry 7(6), 538546. DOI: 10.1016/S2215-0366(19)30525-5.Google Scholar
ONS (2022) Ethnic group, England and Wales: Census 2021 . London, UK: ONS. Available at https://www.ons.gov.uk/peoplepopulationandcommunity/culturalidentity/ethnicity/bulletins/ethnicgroupenglandandwales/census2021 Google Scholar
Pengelly, N, Ford, B, Blenkiron, P and Reilly, S (2008) Harm minimisation after repeated self-harm: development of a trust handbook. Psychiatric Bulletin 32(2), 6063. DOI: 10.1192/pb.bp.106.012070.Google Scholar
Pike, AC, Serfaty, JR and Robinson, OJ (2021) The development and psychometric properties of a self-report Catastrophizing Questionnaire. Royal Society Open Science 8(1), 201362. DOI: 10.1098/rsos.201362.Google Scholar
Pisinger, VSC, Hawton, K and Tolstrup, JS (2019) School- and class-level variation in self-harm, suicide ideation and suicide attempts in Danish high schools. Scandinavian Journal of Public Health 47(2), 146156. DOI: 10.1177/1403494818799873.Google Scholar
Prinstein, MJ, Heilbron, N, Guerry, JD, Franklin, JC, Rancourt, D, Simon, V and Spirito, A (2010) Peer influence and nonsuicidal self injury: longitudinal results in community and clinically-referred adolescent samples. Journal of Abnormal Child Psychology 38(5), 669682.CrossRefGoogle ScholarPubMed
Quigley, J, Rasmussen, S and McAlaney, J (2016) The associations between children’s and adolescents’ suicidal and self-harming behaviors, and related behaviors within their social networks: a systematic review. Archives of Suicide Research 21(2), 185236.Google Scholar
Randall, JR, Nickel, NC and Colman, I (2015) Contagion from peer suicidal behavior in a representative sample of American adolescents. Journal of Affective Disorders 186, 219225. DOI: 10.1016/j.jad.2015.07.001.Google Scholar
R Core Team (2020) R: A Language and Environment for Statistical Computing . Vienna, Austria: R Foundation for Statistical Computing.Google Scholar
Sawyer, SM, Azzopardi, PS, Wickremarathne, D and Patton, GC (2018) The age of adolescence. The Lancet Child and Adolescent Health 2(3), 223228. DOI: 10.1016/S2352-4642(18)30022-1.Google Scholar
Sebastian, C, Viding, E, Williams, KD and Blakemore, S-J (2009) Social brain development and the affective consequences of ostracism in adolescence. Brain and Cognition 72(1), 134145.Google Scholar
Simons-Morton, BG, Bingham, CR, Li, K, Zhu, C, Buckley, L, Falk, EB and Shope, JT (2019) The effect of teenage passengers on simulated risky driving among teenagers: a randomized trial. Frontiers in Psychology. DOI: 10.3389/fpsyg.2019.00923.Google Scholar
Skegg, K (2005) Self-harm. Lancet (London, England) 366(9495), 14711483.Google Scholar
StataCorp (2017) Stata Statistical Software: Release 15. College Station, TX: StataCorp LLC.Google Scholar
Steinberg, L and Monahan, KC (2007) Age differences in resistance to peer influence. Developmental Psychology 43(6), 15311543.Google Scholar
Sumter, SR, Bokhorst, CL, Steinberg, L and Westenberg, PM (2009) The developmental pattern of resistance to peer influence in adolescence: will the teenager ever be able to resist? Journal of Adolescence 32(4), 10091021.Google Scholar
Taiminen, TJ, Kallio-Soukainen, K, Nokso-Koivisto, H, Kaljonen, A and Helenius, H (1998) Contagion of deliberate self-harm among adolescent inpatients. Journal of the American Academy of Child and Adolescent Psychiatry 37(2), 211217. DOI: 10.1097/00004583-199802000-00014.Google Scholar
Westers, NJ, Lewis, SP, Whitlock, J, Schatten, HT, Ammerman, B, Andover, MS and Lloyd-Richardson, EE (2021) Media guidelines for the responsible reporting and depicting of non-suicidal self-injury. The British Journal of Psychiatry 219(2), 415418.Google Scholar
Zhu, L, Westers, NJ, Horton, SE, King, JD, Diederich, A, Stewart, SM and Kennard, BD (2016) Frequency of exposure to and engagement in nonsuicidal self-injury among inpatient adolescents. Archives of Suicide Research 20(4), 580590. DOI: 10.1080/13811118.2016.1162240.Google Scholar
Figure 0

Figure 1. Chronology of tasks and Self-Efficacy to Resist Suicidal Action (SEASA) item measurement.

Figure 1

Table 1. Demographic and clinical characteristics of study participants

Figure 2

Figure 2. Flow of participants.

Figure 3

Figure 3. (a) and (b): Mean Self-Efficacy to Resist Suicidal Action (SEASA) item scores at baseline (T0), post-exposure (T1/T2), and wash-out (T3).

Figure 4

Table 2. Results of paired t-tests comparing SEASA item scores between baseline, exposure to self-harm vignettes, and wash-out vignette

Figure 5

Figure 4. Distribution of change in Self-Efficacy to Resist Suicidal Action (SEASA) item scores between baseline and after exposure to self-harm vignettes.

Figure 6

Table 3. Association between suggestibility scores and change in perceived ability to control urges to self-harm (n = 97)

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