Ecological Momentary Assessments and Passive Sensing in the Prediction of Short-Term Suicidal Ideation in Young Adults

Czyz, Ewa K.; King, Cheryl A.; Al‐Dajani, Nadia; Zimmermann, Lauren; Hong, Victor; Nahum‐Shani, Inbal

doi:10.1001/jamanetworkopen.2023.28005

Cited by 15 publications

(5 citation statements)

References 59 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Wearable devices have further enabled the collection of physical activity, movement, sleep, and physiological signals like heart rate (HR), electrodermal activity (EDA), skin temperature (ST), and galvanic skin response (GSR). Some examples of wearables are Empatica E4 wristbands [ 149 , 172 , 178 ], Microsoft Band 2 [ 150 ], Fitbit Charge or Flex trackers [ 151 , 155 , 164 , 180 , 181 , 182 , 191 ], and the Galaxy S3 smartwatch [ 169 ]. Data gathered through these devices were transmitted directly to an internet-connected server [ 215 ] or transferred via Bluetooth [ 210 ] to dedicated mobile applications that handle the transmission as described above.…”

Section: Resultsmentioning

confidence: 99%

“…Depression AV [43, SM [20,25,98, SS [99,100,104,105, WS [149][150][151][155][156][157][158]164,169,[171][172][173][178][179][180][181][182] Suicidal intent AV [100,183,184] SM [185][186][187][188][189] SS [100,147,190] WS [181,182,191] Bipolar disorder AV [101][102][103][192][193][194][195][196][197][198][199][200] SM…”

Section: Mental Health Conditions Data Sourcementioning

confidence: 99%

See 1 more Smart Citation

Machine Learning for Multimodal Mental Health Detection: A Systematic Review of Passive Sensing Approaches

Khoo,

Lim,

Chong

et al. 2024

Sensors

View full text Add to dashboard Cite

As mental health (MH) disorders become increasingly prevalent, their multifaceted symptoms and comorbidities with other conditions introduce complexity to diagnosis, posing a risk of underdiagnosis. While machine learning (ML) has been explored to mitigate these challenges, we hypothesized that multiple data modalities support more comprehensive detection and that non-intrusive collection approaches better capture natural behaviors. To understand the current trends, we systematically reviewed 184 studies to assess feature extraction, feature fusion, and ML methodologies applied to detect MH disorders from passively sensed multimodal data, including audio and video recordings, social media, smartphones, and wearable devices. Our findings revealed varying correlations of modality-specific features in individualized contexts, potentially influenced by demographics and personalities. We also observed the growing adoption of neural network architectures for model-level fusion and as ML algorithms, which have demonstrated promising efficacy in handling high-dimensional features while modeling within and cross-modality relationships. This work provides future researchers with a clear taxonomy of methodological approaches to multimodal detection of MH disorders to inspire future methodological advancements. The comprehensive analysis also guides and supports future researchers in making informed decisions to select an optimal data source that aligns with specific use cases based on the MH disorder of interest.

show abstract

Section: Resultsmentioning

confidence: 99%

Section: Mental Health Conditions Data Sourcementioning

confidence: 99%

Machine Learning for Multimodal Mental Health Detection: A Systematic Review of Passive Sensing Approaches

Khoo,

Lim,

Chong

et al. 2024

Sensors

View full text Add to dashboard Cite

show abstract

“…With the finegrained assessment facilitated by EMA (22), instances of SI can be captured that would have gone unnoticed by retrospective self-report measures (23). Contrary to prior assumptions that in addition to the more subjective assessment with EMA, an objective digital marker (e.g., data from passive sensors) might be a crucial contribution to better prediction models, recent evidence suggests that EMA data alone was a good predictor for next-day SI and passive sensing data did not improve prediction (24).…”

Section: Introductionmentioning

confidence: 90%

Subgrouping suicidal ideations: An ecological momentary assessment study in psychiatric inpatients

Roman¹,

Homan²,

Sels³

et al. 2022

Preprint

View full text Add to dashboard Cite

**Background.** Suicidal ideations (SI) are amongst the strongest predictors for suicide attempts, yet reliable prediction models for suicide risk are still lacking. One explanation for this is that endorsement and expression of SI are not uniform and may vary when indexed over time. Using intensive longitudinal assessments of SI with ecological momentary assessments (EMA), prior research identified five distinct subgroups that differed in mean SI severity and variability over time. **Methods.** We first aimed to replicate these results using latent profile analysis (LPA) on EMA data (5 assessments/day over 28 days: 34% response rate of all beeps completed) of 50 psychiatric patients (32 females, 64%, age *M*=35.26, *SD*=12.54). We then used longitudinal clustering (LC), an advanced statistical approach that considers the longitudinal, dynamic nature of EMA, to replicate the subgroups. **Results.** Using LPA, we replicated four of the five groups with somewhat different characterizations compared to prior findings. Using LC, we identified subgroups representing the nature of the observed SI better and showed more anticipated clinical characteristics. Among those, hopelessness and prior SI were most convincing, i.e., the subgroup with the least severe SI subgroup were characterized by least hopelessness and the most severe SI subgroup by more hopelessness. **Conclusion.** Applying LC to EMA collected from patients with SI allows to identify valid and reliable SI subgroups with more distinct clinical characteristics, an important step towards a better understanding of SI and basis for improving prediction and prevention.

show abstract

“…Intensive longitudinal designs and smartphone-based research offer opportunities to frequently and continuously measure real-world adolescent behavior and, thus, provide a unique window into short-term risk factors (Allen et al, 2019). Both self-report-based assessment (i.e., experience sampling) and passive smartphone or wearable sensors (e.g., geolocation, accelerometer, keyboard inputs, and app usage) have shown promise in characterizing digital phenotypes and identifying proximal factors associated with clinical acuity and STB (Auerbach et al, 2023; Czyz, King, et al, 2023; Glenn, Kleiman, Kandlur, et al, 2022; Moreno-Muñoz et al, 2020). Smartphone and wearable measures can also continuously collect data that track affective and behavioral dynamics (Ren et al, 2023; Russell & Gajos, 2020) without requiring in-person lab visits, thus lowering barriers to participation among disadvantaged and hard-to-reach populations (Sugie, 2018).…”

Section: Experience Sampling and Passive Smartphone Sensor Approaches...mentioning

confidence: 99%

Identifying factors impacting missingness within smartphone-based research: Implications for intensive longitudinal studies of adolescent suicidal thoughts and behaviors.

Bloom,

Lan,

Galfalvy

et al. 2024

Journal of Psychopathology and Clinical Science

View full text Add to dashboard Cite

Intensive longitudinal research—including experience sampling and smartphone sensor monitoring—has potential for identifying proximal risk factors for psychopathology, including suicidal thoughts and behaviors (STB). Yet, missing data can complicate analysis and interpretation. This study aimed to address whether clinical and study design factors are associated with missing data and whether missingness predicts changes in symptom severity or STB. Adolescents ages 13- to 18 years old (N = 179) reporting depressive, anxiety, and/or substance use disorders were enrolled; 65% reported current suicidal ideation and 29% indicated a past-year attempt. Passively acquired smartphone sensor data (e.g., global positioning system, accelerometer, and keyboard inputs), daily mood surveys, and weekly suicidal ideation surveys were collected during the 6-month study period using the effortless assessment research system smartphone app. First, acquisition of passive smartphone sensor data (with data on ∼80% of days across the whole sample) was strongly associated with survey data acquisition on the same day (∼44% of days). Second, STB and psychiatric symptoms were largely not associated with missing data. Rather, temporal features (e.g., length of time in study, weekends, and summer) explained more missingness of survey and passive smartphone sensor data. Last, within-participant changes in missing data over time neither followed nor predicted subsequent change in suicidal ideation and psychiatric symptoms. Findings indicate that considering technical and study design factors impacting missingness is critical and highlight several factors that should be addressed to maximize the validity of clinical interpretations in intensive longitudinal research.

show abstract

Ecological Momentary Assessments and Passive Sensing in the Prediction of Short-Term Suicidal Ideation in Young Adults

Cited by 15 publications

References 59 publications

Machine Learning for Multimodal Mental Health Detection: A Systematic Review of Passive Sensing Approaches

Machine Learning for Multimodal Mental Health Detection: A Systematic Review of Passive Sensing Approaches

Subgrouping suicidal ideations: An ecological momentary assessment study in psychiatric inpatients

Identifying factors impacting missingness within smartphone-based research: Implications for intensive longitudinal studies of adolescent suicidal thoughts and behaviors.

Contact Info

Product

Resources

About