Long-term survival rates for children diagnosed with acute lymphoblastic leukemia (ALL) currently exceed 90%. However, prolonged ALL chemotherapy, which lasts two to three years on average, is associated with significant fatigue and sleep disturbances in both children and their caregivers. In fact, patients and caregivers often identify excess fatigue and sleep disturbances as the most distressing symptoms experienced during ALL treatment. In addition to adversely impacting quality of life during treatment, fatigue and sleep problems may alter mood, result in long-term cognitive dysfunction, and potentially compromise treatment efficacy. Despite unfavorable fatigue and sleep being a pervasive problem in children with ALL and their caregivers, effective intervention options are limited. Therefore, there is a significant unmet clinical need to identify evidence-based, minimally invasive strategies to intervene and restore circadian rhythmicity in pediatric patients with ALL and their caregivers. Building upon our previous success developing mobile applications to address cancer-related fatigue in adult oncology populations, this proposal seeks to adapt a pilot mobile application to track sleep and circadian rhythms in patients with ALL and their caregivers. While many existing resources provide information on the importance of sleep duration, few highlight the role of circadian rhythms and light exposure. In particular, while numerous commercial wearables exist that can track sleep, few if any give personalized recommendations for how light exposure and other behaviors can be used to improve sleep, especially in populations that are likely to have highly disrupted sleep. The proposed project will leverage consumer wearable technology to conduct sleep and circadian analysis for children with ALL for the purposes of prescribing lighting and behavioral recommendations to help improve sleep in these patients. Moreover, we propose to extend the analysis and the prescriptions beyond the patients themselves, to their caregivers, improving outcomes for the entire family. Specifically, this Phase I STTR proposes two aims: 1) we will design a mobile app for reducing cancer-related fatigue in pediatric patients with ALL and their caregivers using a patient-centered approach refined with feedback from patient-caregiver dyads, and 2) we will conduct a usability study in a population of 16 patient-caregiver dyads to assess the feasibility of an app-delivered light and behavior-based intervention in this population. The results of this Phase I application will provide the foundation necessary to conduct a Phase II trial to assess the efficacy of the new app to reduce fatigue and improve sleep quality and duration in a large population of pediatric ALL patients and their caregivers. Ultimately, we anticipate this line of research will lead to the identification of a feasible, minimally invasive, effective intervention to address fatigue and sleep issues in this vulnerable population, leading to improvements in quality of life and outcomes.
Public Health Relevance Statement: Project narrative: Pediatric acute lymphocytic leukemia (ALL) patients experience severe fatigue problems during treatment, which often spread to their caregivers. Despite the fact that sleep and circadian disruptions have been found to be significantly correlated with risk of relapse, few efforts have been made to address this urgent need in a personalized way. This work proposes to leverage consumer wearable technology to both carry out real time sleep and circadian analysis for children with ALL and to prescribe lighting and behavioral recommendations to help reduce fatigue in these patients and their caregivers.
Project Terms: <15 years of age><15 year old><21+ years old><0-11 years old>
