Description

Wearable sensors, in the form of direct-to-consumer devices, can provide insight to allow timely, proactive, personalized interventions. Nearly 20 percent of US residents own a smart wearable device such as a FitBit or Apple watch. Increasing accessibility and affordability of wearable technology has also allowed for new possibilities to provide personalized and remote care to patients . In part due to the range of sensors in consumer devices that capture multi-modal information. For example, transdermal optical photoplethysmography provides cardiac and respiratory measurements using non-invasive blood flow data. Motion and spatial data are supplied by accelerometers and gyroscopes. These raw data can then be assembled to provide insight into biometric parameters ranging from gait symmetry and step count to higher-level information (e.g. VO2 max and sleep duration).

Our proprietary mobile application (established for Dr. Barker-Clarke's trial NCT06129760 in neurooncology) advances beyond current studies by providing access to raw sensor data and derived mobile health metrics while simultaneously providing a platform for electronic PRO questionnaires. Based on this prior study, investigator anticipate patient eligibility to enroll in this study at around 75% of the patient population, and completed enrollment of around 60% of those eligible. Additionally, having demonstrated the efficacy of our pipeline platform, investigator expects that the collection of ePROMs and actigraphy data will be successful in the patients enrolled. Investigator includes the collection of raw data and derived metrics such as gait asymmetry, breathing rate, and sleep patterns to identify potential digital signatures of recovery, fatigue, or decline that may not be captured by TESS alone. In this new cohort investigator will evaluate compliance in the collection of actigraphy data and reporting of ePROMs. Investigator will estimate effect sizes for actigraphic and gait changes through recovery and anticipate their use in quality of care management or interventional studies in larger patient cohorts. Investigator assume, based on prior studies, that a smartwatch will be able to be worn by at least 80% of the study participants for at least 12 hours per 24-hour period, on average. Investigator outline a study using consumer-grade smartwatches and an application on the patient's phone to collect continuous actigraphy data and ePRO evaluation. In the absence of similar cohort studies for retrospective analysis, investigator aims to generate novel contextualized wearable sensor datasets for musculoskeletal cancer patients and develop digital biomarkers for patient recovery and complications.