How Much Data Is Enough? A Reliable Methodology to Examine Long-Term Wearable Data Acquisition in Gait and Postural Sway

Meyer, Brett; DePetrillo, Paolo; Franco, J. M.; Donahue, Nicole; Fox, Samantha R.; O'Leary, Aisling; Loftness, Bryn C.; Gurchiek, Reed D.; Buckley, Maura; Solomon, Andrew; Ng, Sau Kuen; Cheney, Nick; Ceruolo, Melissa; McGinnis, Ryan S.

doi:10.3390/s22186982

Cited by 18 publications

(17 citation statements)

References 49 publications

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“…Consistently, we observed the features Jerk and Range to provide the strongest and most significant relationships to PRMs in addition to being able to distinguish fallers from nonfallers. However, based on our previous findings [38], the strength of these relationships is poor compared to those observed on postural sway data collected during daily life (e.g., Range and ABC had a correlation of 0.71 from free living data compared to the 0.36 observed using the SSD method). This difference may be related to the well documented issue that laboratory based tests are not able to adequately capture the variability with which people, and particularly PwMS whose symptoms are known to change dramatically from day to day, move in free living environments [33], [42].…”

Section: Discussionmentioning

confidence: 67%

Chest-Based Wearables and Individualized Distributions for Assessing Postural Sway in Persons with Multiple Sclerosis

Meyer¹,

Cohen²,

Donahue³

et al. 2023

Preprint

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<p>Typical assessments of balance impairment are subjective or require data from cumbersome and expensive force platforms. Researchers have utilized lower back (sacrum) accelerometers to enable more accessible, objective measurement of postural sway for use in balance assessment. However, new sensor patches are broadly being deployed on the chest for cardiac monitoring, opening a need to determine if measurements from these devices can similarly inform balance assessment. Our aim in this work is to validate postural sway measurements from a chest accelerometer. To establish concurrent validity, we considered data from 16 persons with multiple sclerosis (PwMS) asked to stand on a force platform while also wearing sensor patches on the sacrum and chest. We found five (five) of 15 postural sway features derived from chest (sacrum) were significantly correlated with force platform-derived features, which is in line with prior sacrum-derived findings. Clinical significance was established using a sample of 39 PwMS who performed eyes-open, eyes-closed, and tandem standing tasks. This cohort was stratified by fall status and completed several patient-reported measures (PRM) of balance and mobility impairment. We also compared sway features derived from a single 30-second period to those derived from a one-minute period with a sliding window to create subject-specific distributions of each postural sway feature (SSD method). We find traditional computation of sway features from the chest is sensitive to changes in PRMs and task differences. Distribution characteristics from the SSD method establish additional relationships with PRMs, detect differences in more tasks, and distinguish between fall status groups. Overall, the chest was found to be a valid location to monitor postural sway and we recommend utilizing the SSD method over single-observation analyses. </p>

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Section: Discussionmentioning

confidence: 67%

Chest-Based Wearables and Individualized Distributions for Assessing Postural Sway in Persons with Multiple Sclerosis

Meyer¹,

Cohen²,

Donahue³

et al. 2023

Preprint

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“…However, based on our previous work, it is likely that that more granular biomechanical features may provide improved model performance 26 . Thus, we aim to explore a greater variety and complexity of features (e.g., turning behavior, postural sway 27 ) in future work. Second, including all three mood induction tasks as one behavior battery is important as features from each appear to be independent, thereby complimenting, one another ( Figure 3c ).…”

Section: Discussionmentioning

confidence: 99%

The ChAMP App: A Scalable mHealth Technology for Detecting Digital Phenotypes of Early Childhood Mental Health

Loftness

Halvorson-Phelan

O'Leary

et al. 2023

Preprint

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Objective: Internalizing disorders, such as anxiety and depression, in pre-school aged children are common and often go undiagnosed into adulthood. To augment traditional parental-reports, we have previously presented an objective assessment for early childhood anxiety and depression which leverages movement and vocal biomarkers measured via wearable sensors during brief mood induction tasks that achieves good accuracy (75%-81%). However, these methods required specialized equipment and expertise in data and sensor engineering to administer and analyze. Method: To address this challenge, we have developed the ChAMP (Childhood Assessment and Management of digital Phenotypes) System, which includes an Android mobile application for collecting movement and audio data during mood induction tasks and an open-source data analysis platform for extracting digital biomarkers and discovering digital phenotypes. As proof of principle, we present data collected using the ChAMP System from 50 children ages 5-8, with and without anxiety or depressive disorders. Results: Movement and vocal features derived from the ChAMP System support the consideration of theory-driven temporal phases within mood induction tasks, and the use of an assessment battery for characterizing childhood internalizing disorders. Results also demonstrate that features significantly differ between diagnostic groups and correlate with symptom severity implying their potential use as digital biomarkers. Conclusions: The ChAMP System provides clinically relevant digital biomarkers of childhood anxiety and depression. This new open-source tool lowers the barrier to entry for those interested in exploring digital phenotyping of childhood mental health.

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“…To identify daily activity transitions, we employed our activity classification pipeline, which leverages a deep learning model trained on over 100,000 four-second observations of acceleration from a variety of patient populations (as previously described [23], [24]), to identify periods of sitting and standing. Each sist or stsi transition was identified using an established technique; the cranial-caudal acceleration from thigh recording was filtered and the signal was inspected for a transition from 1g towards 0 g (stsi) or from 0 g to 1g (sist) within an 18-second window of data centered on transitions between the classified activities [23].…”

Section: B Activity Identification and Feature Extractionmentioning

confidence: 99%

“…After identifying transitions, the following features were calculated from the thigh and chest accelerations: 5 th , 50 th , and 95 th percentile of cranial-caudal (CC) and horizontal plane (F5, F50, F95), jerk of CC and horizontal plane [23], range of CC and horizontal plane, 5 th , 50 th , and 95 th percentile frequency of CC and horizontal plane, total power in CC and horizontal plane, approximate entropy (ApEn) of CC and horizontal plane, and spectral edge frequency (SEF) [29]. We also computed transition time and postural sway features of Jerk, Range, and 50 th percentile frequency of chest acceleration from the standing bout immediately preceding or following the transition [24], [30]. Data were computed from custom MATLAB scripts using Medidata's Sensor Cloud Network Analytics service.…”

Section: B Activity Identification and Feature Extractionmentioning

confidence: 99%

“…These transitions have been used extensively to assess patient stability, dating back to the introduction of the "get-up and go" test in 1986 [26]. More modernly, wearable monitoring of such tasks has been applied to augmentation of PBMs and home-monitoring of M symptoms [22], [23], but our understanding of these metrics remains limited [24], [27].…”

Section: Introductionmentioning

confidence: 99%

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Digital Phenotypes of Instability and Fatigue Derived from Daily Standing Transitions in Persons with Multiple Sclerosis

VanDyk¹,

Meyer²,

DePetrillo³

et al. 2022

Preprint

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<p>Impairment in persons with multiple sclerosis (PwMS) can often be attributed to symptoms of motor instability and fatigue. Symptom monitoring and queued interventions often target these symptoms. Clinical metrics are currently limited to objective physician assessments or subjective patient reported measures. Recent research has turned to wearables for improving the objectivity and temporal resolution of assessment. Our group has previously observed wearable assessment of supervised and unsupervised standing transitions to be predictive of fall-risk in PwMS. Here we extend the application of standing transition quantification to longitudinal home monitoring of symptoms. Subjects (N=23) with varying degrees of MS impairment were recruited and monitored with accelerometry for a total of ~6 weeks each. These data were processed using a deep learning activity classifier to isolate periods of standing transition from which descriptive features were extracted for analysis. Participants completed daily and biweekly assessments describing their symptoms. From these data, Canonical Correlation Analysis was used to derive digital phenotypes of MS instability and fatigue. We find these phenotypes capable of distinguishing fallers from non-fallers, and further that they demonstrate a capacity to characterize symptoms at both daily and sub-daily resolutions. These results represent promising support for future applications of wearables, which may soon augment or replace current metrics in longitudinal monitoring of PwMS. </p>

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How Much Data Is Enough? A Reliable Methodology to Examine Long-Term Wearable Data Acquisition in Gait and Postural Sway

Cited by 18 publications

References 49 publications

Chest-Based Wearables and Individualized Distributions for Assessing Postural Sway in Persons with Multiple Sclerosis

Chest-Based Wearables and Individualized Distributions for Assessing Postural Sway in Persons with Multiple Sclerosis

The ChAMP App: A Scalable mHealth Technology for Detecting Digital Phenotypes of Early Childhood Mental Health

Digital Phenotypes of Instability and Fatigue Derived from Daily Standing Transitions in Persons with Multiple Sclerosis

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