A total of 40 articles met the inclusion criteria for this systematic review:
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Eleven articles tested the efficacy of dialectical behavior therapy (DBT).
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Six articles tested the efficacy of cognitive-behavioral therapy (CBT).
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Five articles tested the efficacy of psychodynamic therapy.
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Six articles tested the efficacy of family therapy (FT).
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One article tested the efficacy of support-based therapy.
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Four articles tested the efficacy of brief skills training.
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Three articles tested the efficacy of motivational interviewing-based intervention.
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Two articles tested the efficacy of intensive community care service.
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One article tested the efficacy of integrative therapies.
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One article tested the efficacy of combination therapies.
We created four tables (Table 1a–d) to summarize information for each study, providing detailed and transparent data. Supplementary Table 4 was created to provide a more detailed description of the different psychological interventions.
Dialectical behavior therapy
DBT has been one of the most widely used interventions for adolescents with self-injurious thoughts and behaviors. Until 2015, no randomized clinical trial (RCT) had examined the efficacy of DBT in adolescents, and no study had demonstrated the superiority of DBT over a control treatment [6]. Since then, this intervention has been proposed in a wide variety of studies for the treatment of SH, but only recently have the first trials supporting its efficacy emerged (Table 1a).
The first longitudinal research that tested the efficacy of DBT with promising results was carried out by Mehlum et al. in [12]. The authors found that DBT-Adolescents (19 weeks) is more effective than enhanced treatment as usual (E-TAU) in reducing SH (NSSI and SA combined) (Δ slope = −0.92, p = 0.021) and SI (Δ slope = −0.62, p = 0.010) in adolescents with features of borderline personality disorder (BPD). Subsequent 1-year and 3-year follow-ups showed that DBT-adolescents was superior to E-TAU in reducing SH episodes (Δ slope = −9.4, p < 0.05; E-TAU vs DBT interquartile range, IQR = 18.00 vs 7.00, p < 0.001, respectively) with no significant differences for SI [13, 14].
Another multisite trial assessing the effectiveness of DBT compared with individual and group supportive therapy (IGST) [15] differentiated SA from overall SH (6 months with weekly individual and multi-family group sessions). IGST offers a manualized intervention to address the limitations of the control intervention in the Mehlum study. Results demonstrated significant advantages of DBT-Adolescents in all primary outcome measures post-treatment (SA: odds ratio (OR) = 0.30; confidence interval (CI) 95% = 0.10, 0.91, p < 0.05), (NSSI: OR = 0.32; 95% CI: 0.13, 0.77, p < 0.05), (SH: OR = 0.33; 95% CI:0.14, 0.78, p < 0.05), (SI: t = 2.20, p = 0.03; Cohen’s d = 0.034). However, these between-group differences were not statistically significant at the 12-month follow-up. Another 6-month open-label trial to examine the efficacy of DBT in clinical community settings [16] (weekly individual sessions, weekly family group skills training, telephone counseling, and consultation with professional staff), showed significant pre/post-treatment decreases in SA (Z = −2.00, p = 0.046), NSSI (Z = −3.21, p = 0.001), and SI (t = 5.31, p < 0.001).
Hancock-Johnson et al. [17] performed a retrospective study to test the effectiveness of inpatient DBT skills training that showed statistically significant reductions in total SH (Z = −2.443, p = 0.015) (effect size = 0.37) and specifically in the frequency of head-banging (Z = −2.195, p = 0.028) (effect size = 0.34). However, the treatment had no effect on other self-injurious behaviors.
Flynn et al. [18] examined the pre/post-treatment effectiveness of 16-week DBT-adolescents in community settings. Significant pre/post-treatment improvements on the presence (89 vs 64%, p < 0.001) and frequency (p < 0.001) of SH and SI [mean, SE (95% CI): −4.19, 0.069 (−5.53, −2.84), p < 0.001] were observed and maintained over the 16-week follow-up: SH (presence: 60 vs 35%, p = 0.003; frequency: p = 0.03) and SI [mean, SE (95% CI): −6.28, 0.83 (−7.91, −4.65), p < 0.001]. On the other hand, they compared the effectiveness of 16-week vs 24-week DBT-Adolescents [19], and both groups showed significant improvements in the presence and frequency of SH and SI pre/post-treatment. However, 24-week DBT-Adolescents showed additional benefits in reducing SI [mean (95% CI): −2.46 (−4.65, −0.26), p = 0.03].
Another study [8] implemented an RCT to examine the effectiveness of 16-week DBT-adolescents compared with treatment as usual (TAU) plus group sessions (GS) in adolescents with suicidal risk in community clinical settings. Findings indicated that DBT-Adolescents significantly reduced the frequency of NSSI compared with TAU + GS [baseline-adjusted means 1.3 (0.7–1.9) vs 2.1 (1.5–2.7); p = 0.045; difference (95% CI): −0.8 (−1.7, −0.02); Cohen’s d = 0.73]. Both interventions showed a reduction in the number of SA during the intervention, and no SA were reported at the end of treatment. Both treatments were equally effective on SI, but no statistically significant between-group differences were found.
Tebbett-Mock et al. [20, 21] examined the efficacy of DBT during hospitalization. Firstly [20], the authors conducted a retrospective chart review to compare DBT versus TAU in an acute care psychiatric unit. Gains for DBT were observed across all “behavior incidents” (SA, NSSI, and patient-to-patient or patient-to-staff aggressions). Adolescents in the DBT group reported significantly fewer incidents of SA (U = 78412.5, p = 0.01) and NSSI (U = 77436.5, p < 0.05) during treatment than those receiving TAU. However, no significant differences were found between adolescents receiving DBT and TAU in terms of constant observation hours for suicidal ideation or aggression, seclusions, or readmissions to the unit. They then selected a new cohort of hospitalized adolescents who received DBT (DBT Group-2) over the same period of 8 months the year after the first DBT group (DBT Group-1). Consistent with previous findings, DBT Group-2 was comparable to DBT Group-1 in the number of constant observation hours for self-injury, retrains, and days hospitalized. However, adolescents in DBT Group-2 reported a significantly greater number of SA than adolescents in DBT Group-1 (U = 82662.5, p = 0.037) and were comparable to the TAU group. Further, adolescents in DBT Group-2 had significantly greater episodes of NSSI compared to DBT Group-1 (U = 71724.5, p < 0.001) and TAU (U = 65649.0, p < 0.001). The authors concluded that staff turnover and lack of training may account for the lack of sustainability and efficacy of the intervention.
Finally, Hiller and Hughes [22] evaluated the effectiveness of DBT-adolescents in adolescents with BPD features under routine mental health-care conditions. All teens participated in at least one cycle of the program (19 weeks), with the possibility to continue in consecutive cycles (two and three). Results showed significant reductions in SA and NSSI during both the first treatment cycle (SA: Z = −2.52, p = 0.02) and the total course of treatment (SA: Z = −1.95, p = 0.05; NSSI: β = −0.009, Seβ = 0.004, t-ratio = −2.63, p = 0.009).
Cognitive-behavioral therapy
Six studies examined the efficacy of CBT in reducing suicidal thinking and behaviors in adolescents (Table 1b). Hetrick et al. [23] developed an Internet-based CBT (Reframe-IT) for adolescents at suicide risk. The Reframe-IT program consists of eight CBT modules delivered online over a 10-week intervention period and 22-week follow-up. Greater reductions in SA and SI were reported in the Reframe-IT group compared to the TAU group. However, between-group differences were not statistically significant either post-treatment or at follow-up.
Hogberg and Hällström [24] compared mood regulation-focused CBT (MR-CBT) with TAU over an 8-month period. Results showed that suicidal events (active SI and/or SA) were significantly reduced in the MR-CBT group at the end of treatment (p < 0.01), while this effect was not noticeable in the TAU group (p = 0.2). However, between-group differences were not statistically significant.
Esposito-Smythers et al. [25] conducted research to test whether family-focused outpatient CBT (F-CBT) would be more effective than E-TAU for adolescents with depression hospitalized for SA or SI. Over the course of treatment, both groups reported reductions in SA, SI, and NSSI rates. However, there were no significant between-group differences at 6–12–18 months post-randomization.
A randomized pilot trial was conducted to compare a cognitive-behavioral family-based alcohol, deliberate SH, and HIV prevention program (ASH-P) versus an assessment-only control (AO-C) in adolescents in mental care [26]. Results showed no significant differences in any risk behaviors between the two groups at 6-month follow-up. However, at 12-month follow-up, ASH-P was associated with significantly lower odds of SH (large effect; d = −1.01) (OR = −1.84; 95% CI: −3.63, −0.06; p ≤ 0.05) as well as significant reductions in number of SH (large effect; d = −1.90) (OR = −13.23; 95% CI: −21.67, −4.77; p ≤ 0.01) compared with AO-C. No significant differences were found across interventions in SI at 6–12-month follow-up.
Goldston et al. [27] developed an integrated CBT grounded in the relapse prevention model (CBT-RP) for treating adolescents with co-occurring suicidal behavior, depression, and substance use disorders. In a small pilot RCT among outpatient adolescents, CBT-RP (20 weeks) plus enhanced TAU was compared with enhanced TAU alone. The majority of adolescents in both groups showed reductions in SI from baseline to the end of treatment and at 3-month follow-up. The SA rate also did not differ between the two treatments.
Finally, Duarté-Vélez et al. [28] conducted a 6–14-week randomized pilot trial to compare sociocognitive-behavioral therapy for suicidal behaviors (SCBT-SB) versus TAU in adolescents in community clinics through home-based services. Adolescents in both conditions reported reductions in SI over the course of treatment. There was no between-groups treatment effect on SI at any follow-up assessment point. However, a large effect was found on SA in the SCBT-SB group from the 6 to 12-month follow-ups (Cohen’s h = 0.8).
Psychodynamic therapy
Mentalization-based therapy (MBT)
Based on prior positive results of MBT-Adolescents [29], Griffiths et al. [30] adapted the adult MBT introductory group manual (MBTi) [31] in a 12-week intervention for adolescents (MBT-Ai). Over the course of treatment, self-reported SH and emergency department visits for SH decreased significantly in both MBT-Ai and TAU groups (F = 6.29, p < 0.01; F = 9.55, p < 0.001, respectively), although there were no significant between-group differences.
Beck et al. [32] examined the effectiveness of MTB in groups (MBT-G) (1 year) for adolescents with BPD. Compared with TAU, no significant between-group differences were found in the frequency of SH at the end of 1 year of treatment. Consistent with these findings, Jørgensen et al. [33] found that MBT-G was not more effective than TAU at follow-up after 3 and 12 months. In addition, mean SH values were almost unchanged during treatment and subsequent follow-ups in both groups. Despite no indication of the superiority of either therapy, these RCTs were based on the preliminary findings of Bo et al. [34], who found that MBT-G significantly reduced the frequency of SH from baseline to end of treatment in adolescents with BPD (t = 3.13; p = 0.005) (OR = 7.6; 95% CI: 2.6, 12.6) (Table 1b).
Psychodynamic family-based therapy
Based on prior positive results [35], Diamond et al. [36] conducted a second RCT to compare the efficacy of attachment-based family therapy (ABFT) to family-enhanced nondirective supportive therapy (FE-NST) during 16 weeks. Over the course of treatment, adolescents in both groups experienced significant reductions in the rate of change in self-reported SI (ABFT: t = 12.61, p < 0.0001; effect size: d = 2.24) (FE-NST: t = 10.88, p < 0.0001; effect size: d = 1.93), but this decrease was not significantly greater in the ABFT group. In addition, in SI, between-group differences in remission on a 15-item self-report (SIQ-Jr <12) and response rates (≥50% decrease from baseline SIQ-Jr) were also not statistically significant over the intervention period. There were also no significant between-group differences in SA. It is noteworthy that a significantly higher percentage of adolescents in the FE-NST group reported a previous history of NSSI compared with the ABFT group, so these sample differences could condition the subsequent results of the interventions (67.6 vs 48.4%; χ2 = 4.82, p < 0.05) (Table 1b).
Family therapy
Systemic family therapy
In a large multicenter trial among adolescents referred to mental health services for repetitive SH, Cottrell et al. [37] compared family therapy (SHIFT) to TAU. Over the 6-month treatment period (5–8 sessions) and the 18-month follow-up, there were no statistically significant between-group differences in the repetition of SH (SA, NSSI) requiring hospital care. However, compared with TAU, SHIFT significantly reduced SI at 12-month follow-up (OR = 0.64; 95% CI: 0.44, 0.94; p = 0.024), but the effects were not maintained at 18-month follow-up.
To examine the long-term effectiveness of this manualized family therapy, Cottrell et al. [38] conducted an extended follow-up (18-36 months) and found no significant between-group differences in SH repetition rates during the extended follow-up period. In addition, adolescents aged 15-17 presented fewer repeated SH episodes compared with those aged 11–14 [hazard ratio (HR) = 0.7; 95% CI: 0.56, 0.88; p = 0.0019], with younger females being more likely to repeat SH (p = 0.022) (Table 1c).
Integrated family therapy
Based on their preliminary RCT [37], Asarnow et al. [39] conducted another trial to assess the efficacy of a 12-week cognitive-behavioral DBT-informed family program, Safe alternatives for teens & youths (SAFETY), compared with E-TAU in adolescents referred through different clinical settings. Survival analysis indicated a significantly higher probability of survival without SA by the 3-month follow-up in the SAFETY group compared with E-TAU (0.67, SE 0.14, Z = 2.45, p = 0.01) and for the overall survival curves (Wilcoxon χ2 = 5.81; p = 0.02). There were no statistically significant differences in the probability of survival without an NSSI between the two treatment groups.
Wijana et al. [40] conducted a preliminary evaluation of a 3-month manual-based treatment that included principles of FT, DBT, and CBT, called intensive contextual treatment for SH and Suicidality (ICT). Regarding the main variables, adolescents reported significant reductions in the frequency of SH (F = 10.91, p = 0.001; d = 0.54) and SA (F = 11.85, p < 0.0001; d = 1.38) pre/post-treatment. However, the intervention effect weakened from post-treatment to the 6- and 12-month follow-ups, and the mean frequency of SA was almost at the same levels as pretreatment (F = 11.85, p = 0.001; d = 1.03). The proportion of adolescents reporting SH at baseline was 71.2% and 54.3% at post-treatment, followed by a reduction at 6 months to 50.0% and 12 months to 30.8% (F = 1.52, p = 0.22; d = 0.20).
Finally, Ayer et al. [41] compared the effectiveness of individual (Adolescent community reinforcement approach, A-CRA, followed by assertive continuing care, ACC) versus family-based treatment (FBT) (multisystemic therapy, MST, and family support network, FSN) for self-injurious thoughts and behaviors in adolescent substance users. Results showed a potentially positive trend for A-CRA on SI (from baseline to follow-up: 10.5 to 6.0%. Effect size = 0.15; 95% CI: −0.01, 0.38) and SA (from baseline to follow-up: 4.3 to 1.0%. Effect size = 0.14; 95% CI: −0.12, 0.41) and a small treatment effect of FBT on NSSI (from baseline to follow-up: 12.0 to 5.4%. Effect size = −0.06; 95% CI: −0.27, 0.11). However, the findings were not statistically significant (Table 1c).
Brief family-based therapy
In an RCT in adolescents presenting to the emergency department with suicidality, Wharff et al. [42] examined the efficacy of family-based crisis intervention (FBCI) compared with TAU. Over the course of the study, levels of suicidality decreased for all adolescents (F = 23.1, p < 0.001), but no statistically significant between-group differences were found after the intervention or at 1-month follow-up (Table 1c).
Support-based therapy
King et al. [43] conducted a study to examine whether Youth-Nominated Support Team Intervention for Suicidal Adolescents-Version II (YST-II) [44], is associated with lower mortality 11 to 14 years after psychiatric hospitalization for suicide risk. The HR indicated that those in the TAU group had a 6.6 times greater risk of death than those in the YST group (HR = 6.62; 95% CI: 1.49, 29.35, p < 0.01) (Table 1c).
Brief skills training
The period following hospital discharge is a critical time with a higher risk of suicide. Therefore, independent research groups specifically designed interventions to decrease the high risk during the transition from inpatient to outpatient care (Table 1d).
As Safe as Possible (ASAP) [45] is a brief inpatient intervention to reduce SA following discharge among adolescents hospitalized for suicidality. The intervention is supported by a telephone app (BRITE). After hospital discharge, BRITE provided access to a personalized safety plan, distress tolerance strategies, and emotion regulation skills. Based on their previous open trial, Kennard et al. [46] conducted an RCT to compare the efficacy of ASAP (added to TAU) versus TAU alone among adolescents hospitalized for SA or SI. The ASAP intervention did not have a statistically significant effect on SA or SI.
The coping long term with active suicide program (CLASP) is another intervention designed specifically for the critical post-discharge transition period. Based on prior findings in an adult population [47], Yen et al. [48] adapted the CLASP for adolescents (CLASP-A). To test the efficacy of this treatment program, the authors carried out an open pilot development trial and, subsequently, a pilot RCT. From baseline to 6-month follow-up, SA decreased for all adolescents, but there was no significant effect of the intervention.
In another trial, Rengasamy and Sparks (2019) [49] compared the effectiveness of two brief telephone interventions in reducing suicidal behavior post-hospitalization. Over a 3-month period, adolescents were assigned to either a single call intervention (SCI), consisting of one telephone contact, or a multiple call intervention (MCI), consisting of six telephone contacts. Findings indicate that patients receiving MCI report a significantly lower SA rate compared with SCI (6 vs 17%; OR = 0.28; 95% CI: 0.09, 0.93, p = 0.037).
Finally, Gryglewicz et al. [50] developed and evaluated linking individuals needing care (LINC), an intervention that includes strategies for suicide risk management and strategies to increase adherence and commitment to mental health services. Over the course of treatment, adolescents receiving LINC reported significant reductions in SA (OR = 0.46; 95% CI: 0.37, 0.57, p < 0.001) and SI (OR = −0.84; 95% CI: −0.92, −0.77, p < 0.001). In addition, the use of various beneficial services (individual therapy, medication management, and non-mental health supports) significantly increased at the end of the intervention (p < 0.05).
Motivational interviewing-based Intervention
This intervention has previously been included in other treatment packages. Recently, different research groups have developed interventions specifically focused on the motivational interview (Table 1d).
Grupp-Phelan et al. [51] tested the suicidal teens accessing treatment after an emergency department visit (STAT-ED), a brief intervention focused on motivational interviewing (MI). In an RCT in adolescents seen in the emergency department without psychiatric concerns but with suicide risk, STAT-ED was compared to E-TAU. There were no significant between-group differences either in SA or in SI at the 6-month follow-up period.
In a pilot RCT in adolescents hospitalized due to suicide risk, Czyz et al. [52] examined a motivational interview-enhanced safety planning intervention (MI-SafeCope). The intervention was compared with TAU including the recovery action plan. Despite findings indicating that adolescents in the MI-SafeCope reported significantly higher self-efficacy to refrain from SA (OR = 1.15; 95% CI: 0.11, 2.18, p = 0.030; Cohen’s d = 0.25), greater reliance on self to cope with SI (OR = 4.69; 95% CI: 1.06, 20.81, p = 0.042), and higher likelihood to use the safety plan and skills to manage suicidal thoughts (OR = 0.25; 95% CI: 0.08, 0.42, p = 0.004), there were no between-group differences in SA or SI severity (frequency and duration).
Extending this work, Czyz et al. [53] conducted a non-restricted pilot sequential, multiple assignment, randomized trial (SMART) to develop adaptive interventions for reducing suicide risk after hospitalization. During phase-1 intervention, adolescent inpatients were assigned to receive a Motivational Interview-Enhanced Safety Plan (MI-SP) alone or together with post-discharge text-based support, sent daily for four weeks and focusing on crisis management strategies. Subsequently, two weeks post-discharge, they were re-randomized in phase 2 to receive added booster calls or no calls. Over the course of treatment, adolescents in MI-SP + texts reported significantly lower intensity of SI compared with MI-SP alone (B = −0.59, p = 0.018; d = 0.39), but these differences were not maintained during phase 2 (booster calls versus no calls). Furthermore, at 1- and 3-month follow-up, neither intervention showed a significant effect on SI severity. In addition, adolescents in MI-SP + texts (phase-1) and booster calls (phase-2) reported a lower risk of SA and suicidal behavior 3 months post-discharge; however, there were no significant differences between treatment conditions.
Intensive community care service
Ougrin et al. [54] found that adolescents included in the supported discharge service (SDS) group, receiving an intensive community care service (ICCS), were significantly less likely to report multiple episodes of SH (five or more) at 6-month follow-up compared with inpatient TAU (24 vs 42%, OR = 0.18; 95% CI: 0.05, 0.64, p = 0.008). However, using the same sample, there was no between-group difference in the proportion of adolescents reporting any SH or presenting to the emergency department with serious SH (OR = 1.41; 95% CI: 0.45, 4.41, p = 0.560) [55] (Table 1d).
Integrative therapies
English et al. [56], developed the specialized therapeutic assessment-based recovery-focused treatment (START), which includes therapeutic assessment followed by one of the following modules: solution-focused brief therapy (SFBT) (4–6 sessions), CBT (8–16 sessions), or MBT-A (16–24 sessions), depending on adolescents’ needs and preferences. START significantly reduced the number of pre/post-treatment SH episodes [mean, (SD) = 7.93 (12.26) to 1.00 (1.47), p < 0.02]. With CBT, there was also a significant decrease in mean SH (p = 0.027). However, data were insufficient to prove the efficacy of SFBT or MBT-A alone (Table 1d).
Combination therapies
Joyce et al. [57] conducted a longitudinal cohort study of adolescents diagnosed with depression to determine the trajectories of 4 treatment patterns: no treatment, antidepressant monotherapy, psychotherapy as monotherapy (CBT), and dual therapy (antidepressant monotherapy plus CBT). The group receiving psychotherapy as monotherapy had the lowest incidence of SA during the 12-month assessment period and 12-month post-assessment period (0.5 per 100 person-years and 1.3 per 100 person-years, respectively). In contrast, the group receiving dual therapy showed high rates of SA across all periods (4.7– 7.1 per 100 person-years and 1.5–1.7 per 100 person-years, respectively) (Table 1d).
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