The goal of this clinical trial is to evaluate the effectiveness and cost-effectiveness of a digital mindfulness-based intervention in adults (aged 18-65) diagnosed with emotional disorders like depression or anxiety. The main questions it aims to answer are: * Does adding a digital mindfulness intervention to usual care help people recover from emotional disorders faster and more sustainably over two years? * Is this combined approach more cost-effective than usual care alone? Researchers will compare the group receiving the digital mindfulness intervention plus their usual treatment to the group receiving only their usual treatment to see if the intervention leads to better long-term recovery and represents good value for money. Participants in the intervention group will: * Attend eight weekly 2-hour online group mindfulness sessions. * Use a WeChat mini-program for 49 days of guided mindfulness exercises and daily tasks. * Patients who have not achieved reliable recovery after group retraining voluntarily participate in individual UP\&MIED counseling. * Complete regular questionnaires and interviews over two years to track their progress. All participants will continue to receive their usual medical care from their doctors throughout the study.
The prevalence of emotional disorders remains high, with depression and anxiety disorders being the most common (Freeman, 2022; Huang et al., 2019). Although existing treatments can alleviate symptoms in the short term, emotional disorders often follow a chronic and recurrent course, making long-term recovery difficult for patients (Mulder, 2015) and resulting in a persistent and heavy socioeconomic burden (Amos et al., 2018; GBD, 2022). Furthermore, individuals with emotional disorders often exhibit significant diagnostic instability and high comorbidity rates, making single-diagnosis interventions inadequate for real-world treatment needs (Bullis et al., 2019). Consequently, developing intervention strategies applicable to high comorbidity and capable of delivering long-term recovery benefits represents an urgent requirement in current emotional disorder treatment. Transdiagnostic interventions are considered a key approach to meeting this need (Barlow et al., 2020). Grounded in the shared etiology and common mechanisms underlying psychopathology, these interventions enable practitioners to address diverse disorders using a single set of methods. Previous meta-analyses indicate that transdiagnostic interventions, exemplified by Mindfulness-Based Interventions (MBIs), yield moderate improvements in depressive and anxiety symptoms (Cuijpers et al., 2023). Specifically, Mindfulness-Based Stress Reduction (MBSR) has demonstrated potential as an alternative to medication in treating anxiety disorders (Hoge et al., 2023). For preventing depressive relapse in recurrent depression patients, Mindfulness-Based Cognitive Therapy (MBCT) proved as effective as maintenance antidepressant medication (Kuyken et al., 2015). The "Mindfulness Intervention for Emotional Distress" (MIED) employed in this study is a transdiagnostic psychological intervention developed based on MBSR and the "Unified Protocol for Cross-Diagnostic Treatment of Emotional Disorders" (UP). This program proposes a transdiagnostic psychopathology diamond model for emotional disorders, identifying four core pathological mechanisms hindering recovery: low distress tolerance, cognitive inflexibility, excessive emotional behavior, and abnormal engaging in life (Liu, 2024). MIED targets these four mechanisms through mindfulness practices combined with intervention strategies from UP (e.g., cognitive reappraisal, interoceptive exposure). This improvement of underlying pathological mechanisms is considered crucial for facilitating patients' transition from short-term symptom relief to robust, long-term recovery. At the same time, the application of digital technology and group formats in psychological interventions continues to expand, providing low-threshold, scalable pathways for integrating transdiagnostic mindfulness interventions into routine healthcare systems (Schaeuffele et al., 2024). The digital MIED program has demonstrated promising effects in improving emotional distress and accelerating symptom improvement in emotional disorders across preliminary short-term studies (Ju et al., 2022; Li et al., 2024; Li et al., 2025; Wang et al., 2024). The high-frequency interaction compensates for the lack of proactive intervention tools in current clinical care. However, the efficacy of transdiagnostic interventions in promoting long-term recovery remains under-validated. Most transdiagnostic interventions, including mindfulness-based approaches, have primarily focused on single diagnostic dimensions (Barlow et al., 2017) or non-clinical samples (Lindegaard et al., 2021) , and generally lack large-sample support and long-term follow-up (Cuijpers et al., 2023; Newby et al., 2015; Schaeuffele et al., 2024) , making it difficult to reflect the long-term benefits for individuals with emotional disorders within real-world clinical pathways. Furthermore, the potential cost-effectiveness of such interventions remains under-examined (Schaeuffele et al., 2024). Against the backdrop of prolonged course and high comorbidity in emotional disorders, these evidence gaps constrain the effective integration of cross-diagnostic mindfulness interventions within routine healthcare systems. Beyond this, the current limited understanding of the mechanisms of action also constrains improvements in treatment outcomes (Kazdin, 2007). While numerous theories have proposed hypotheses regarding these mechanisms (Baer, 2003; Brown et al., 2007; Garland et al., 2015; Liu, 2024; Shapiro et al., 2006), research on the mechanisms underlying MBIs remains lacking in systematic validation when measured against the criteria for establishing psychological intervention mechanisms proposed by Kazdin (Kazdin, 2007, 2009). No variables have been found to satisfy most mechanism validity criteria, with particularly insufficient evidence meeting experimental manipulation, temporal priority, and consistency criteria. More rigorous, high-quality research is needed to examine MBI mechanisms. To address these evidence gaps, we plan to conduct a large-scale, multicenter, pragmatic randomized controlled trial evaluating the long-term efficacy and cost-effectiveness of a transdiagnostic digital mindfulness intervention as an adjunct to treatment as usual (TAU). This study will also incorporate an examination of MBI mechanisms of action, aiming to facilitate further optimization of intervention protocols.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
464
MIED is a psychological intervention program based on "Mindfulness-Based Stress Reduction" (MBSR) and the "Unified Protocol for Transdiagnostic Treatment of Emotional Disorders" (UP), proposed by one of our authors. It includes a psychological diamond model of emotional distress and core intervention strategies (Liu, 2024). This program, in the form of mental health education courses, is suitable for patients with emotional disorders such as anxiety and depression. It has shown good effects in alleviating emotional distress in a series of preliminary studies (Ju et al., 2022; Li et al., 2023; Li et al., 2025; Wang et al., 2024). In this study, the intervention mainly adopts a step-care model, dynamically adjusting the intensity of the intervention according to the patient's recovery progress. All intervention content revolves around the four core transdiagnostic mechanisms of the MIED psychological diamond model and their corresponding core intervention strategies.
Peking University
Beijing, China
RECRUITINGTime to Reliable Recovery
According to the standard definition of the IAPT (Improving Access to Psychological Therapies) system (El Baou et al., 2023; Gyani et al., 2013), reliable recovery requires meeting both of the following conditions simultaneously: (1) Reliable improvement: a decrease in PHQ-9 score of ≥6 points, or a decrease in GAD-7 score of ≥4 points, compared to baseline; (2) Symptoms below clinical thresholds: PHQ-9 \< 10 and GAD-7 \< 8. Time to reliable recovery is defined as the time from randomization to the first point at which both of the above criteria are met.
Time frame: at baseline (T0), at week 3(T1) and at week 5 (T2), at post-intervention (T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention
Time to relapse
Time to relapse is defined as the time from achieving reliable recovery to the point at which, at any follow-up assessment, either of the following criteria is met: a PHQ-9 score ≥ 10 or a GAD-7 score ≥ 8
Time frame: at baseline (T0), at post-intervention (T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention
Rate of reliable improvement
Reliable improvement is a decrease in PHQ-9 score of ≥6 points, or a decrease in GAD-7 score of ≥4 points, compared to baseline. The rate of reliable improvement was calculated at each assessment time point.
Time frame: at baseline (T0), at post-intervention (T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention
Rate of reliable recovery
Reliable recovery requires meeting both of the following conditions simultaneously: (1) Reliable improvement (2) Symptoms below clinical thresholds: PHQ-9 \< 10 and GAD-7 \< 8. The rate of reliable recovery was calculated at each assessment time point.
Time frame: at baseline (T0), at post-intervention (T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention
Deterioration rate
Deterioration is defined according to IAPT criteria as a clinically significant worsening from baseline, operationalized as: PHQ-9 increase ≥ 6 points, or GAD-7 increase ≥ 4 points. The rate of deterioration was calculated at each assessment time point.
Time frame: at baseline (T0), at post-intervention (T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention
Health related quality of life
Using the EQ-5D-5L to measure, obtain health utility index and its changes over time, for estimating quality-adjusted life years (QALYs).The EuroQol 5-Dimension 5-Level questionnaire (EQ-5D-5L) is a standardized measure of health-related quality of life. It comprises five dimensions: mobility, self-care, usual activities, pain/discomfort, and anxiety/depression. Each dimension is rated on a 5-level scale ranging from 1 (no problems) to 5 (extreme problems), describing the respondent's health status on the day of assessment. In addition, the EQ-5D-5L includes a visual analogue scale (EQ-VAS), on which participants rate their overall health from 0 (the worst health you can imagine) to 100 (the best health you can imagine)
Time frame: at baseline (T0), at post-intervention (T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention
Cost-effectiveness
The Treatment Inventory of Costs in Patients with Psychiatric Disorders (TIC-P) is designed to systematically assess both the direct medical costs (e.g., outpatient visits, hospitalizations, medication expenses) and indirect productivity losses (e.g., absenteeism, reduced work efficiency) associated with psychiatric disorders in adults. It includes a combination of quantitative and qualitative items and collects data through self-report by patients to evaluate the economic burden related to mental illness. Structured with a multidimensional framework, the TIC-P covers the frequency of healthcare resource utilization, cost accounting, and the impact on social functioning, enabling a comprehensive estimation of the economic costs associated with mental health interventions. The "cost" part of cost-effectiveness is measures with TIC-P, whereas the "effectiveness" part is the 24 months rate of reliable recovery.
Time frame: at baseline (T0), at post-intervention (T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention
Cost-utility
Cost is measured with TIC-P ; utility - QALYs derived from the EQ-5D-5L conversion.
Time frame: at baseline (T0), at post-intervention (T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention
Severity of depressive symptoms
Depressive symptoms measured using PHQ-9, focusing on how depression change over time.
Time frame: at baseline(T0), at week3(T1), at week5(T2), at post-intervention(T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention.
Severity of anxiety symptoms
Anxiety symptoms measured using GAD-7, focusing on how anxiety symptoms change over time.
Time frame: at baseline (T0), at week 3 (T1), at week 5 (T2), at post-intervention (T3), and at 6 (T4), 12 (T5), 18 (T6), and 24 (T7) months after the intervention.
Severity of insomnia symptoms
Insomnia symptoms measured using ISI, focusing on how insomnia symptoms change over time.
Time frame: at baseline (T0), at week 3(T1) and at week 5 (T2), at post-intervention (T3), and at 6(T4), 12(T5), 18(T6), and 24(T7) months after the intervention
Severity of somatic symptoms
Somatic symptoms measured using SSS-8, focusing on how somatic symptoms change over time.
Time frame: at baseline (T0), at week 3 (T1), at week 5 (T2), at post-intervention (T3), and at 6 (T4), 12 (T5), 18 (T6), and 24 (T7) months after the intervention.
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