Systematic review of smartphone-based passive sensing for health and wellbeing

Cornet, Victor P.; Holden, Richard J.

doi:10.1016/j.jbi.2017.12.008

Cited by 300 publications

(267 citation statements)

References 86 publications

(316 reference statements)

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“…Concerns exist regarding excessive use (Felt & Robb, ) and the impact of frequent consumption of mobile media on children's well‐being (Common Sense Media, ). Prior reviews of the literature have investigated the potential impact of problematic smartphone use on mental health outcomes (e.g., depression: Elhai, Dvorak, Levine, & Hall, ; anxiety: Elhai, Levine, & Hall, ) and the benefits of mobile phones for improved health outcomes (i.e., via mHealth interventions: Cornet & Holden, ; Gindidis, Stewart, & Roodenburg, ; Seko, Kidd, Wiljer, & McKenzie, ). Heretofore, most literature reviews on the physical health correlates of excessive use of mobile media have focused on sleep (e.g., Hale & Guan, ); to date, the literature on other domains of physical health potentially adversely impacted by mobile device use has not been considered in child and adolescent populations.…”

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confidence: 99%

Excessive use of mobile devices and children's physical health

Domoff

Borgen

Foley

et al. 2019

Human Behav and Emerg Tech

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Children's mobile device (e.g., smartphone, tablet) access and ownership has grown substantially in the past decade. Concerns exist regarding excessive use and the impact of frequent consumption of mobile media on children's health and well‐being. We review the literature on the harmful physical health correlates of excessive mobile device use during childhood and adolescence. Strongest evidence emerged regarding the impact of excessive mobile device use and sleep outcomes. Mixed evidence emerged regarding excessive use of mobile devices and physical activity and obesity. Too few studies were identified to draw conclusions about mobile device use and the following health concerns in children: musculoskeletal outcomes/pain, ocular health, and migraine/headaches. Recommendations for future research on the association between excessive mobile device use and children's physical health outcomes (particularly investigations into the experience of musculoskeletal pain/discomfort, ocular symptoms, and neurological symptoms) are discussed.

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confidence: 99%

Excessive use of mobile devices and children's physical health

Domoff

Borgen

Foley

et al. 2019

Human Behav and Emerg Tech

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“…The past decade has seen a dramatic growth in digital health technologies. Wearables, apps, and other sensor‐based or “smart” devices are becoming mainstream and have the potential to transform healthcare through real‐time, continuous data collection . These technologies could radically change the design and conduct of clinical trials by enabling access to data outside of the clinical setting.…”

Section: Glossary Of Termsmentioning

confidence: 99%

“…Wearables, apps, and other sensor-based or "smart" devices are becoming mainstream and have the potential to transform healthcare through real-time, continuous data collection. [2][3][4] These technologies could radically change the design and conduct of clinical trials by enabling access to data outside of the clinical setting. While the recent literature presents optimistic outlooks for digital health, these have focused more on the broader healthcare landscape rather than clinical drug development in the pharmaceutical industry.…”

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confidence: 99%

Harnessing the Potential of Emerging Digital Health and Biological Sampling Technologies for Clinical Drug Development: Promise to Reality

Kothare

Jadhav

Gupta

et al. 2018

Clin Pharma and Therapeutics

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Advances in emerging innovative technologies have led to optimistic outlooks on their transformative potential for healthcare and clinical trials. Given the increased attention, this white paper by the International Consortium for Innovation and Quality in Pharmaceutical Development (IQ) presents perspectives on pharmaceutical and biotechnology industry trends for innovative digital health, adherence, and outpatient sampling technologies. As stimulus for cross-company scientific dialog points to consider for adoption, implementation, and recommendations to broaden uptake are proposed.

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“…In studies [31][32][33][34][35][36], developments have been made to retrieve patient's realtime medical information or medical status, over the far distance, or remotely from everywhere, which were significant in getting of information and in monitoring, as well. But in the current study based on some requirements, specifically due to the security issues, communication is limited to the local private body area networks (PHBAN), a network which retrieves the information from the patient through employing of medical noninvasive equipment or noninvasive devices attached with the patients; in our case, we use the ECG devices and also ECG belt with wireless sensor (ECGBWS) according to the scenarios, such as inward monitoring (IWM) and outward monitoring.…”

Section: Information Capturing and Storagementioning

confidence: 99%

Real-Time Cloud-Based Health Tracking and Monitoring System in Designed Boundary for Cardiology Patients

Shahzad

Lee

et al. 2018

Journal of Sensors

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Telemonitoring is not a new term, in information technology (IT), which has been employed to remotely monitor the health of patients that are located not in common places, such hospitals or medical centers. For that, wearable medical sensors, such as electrocardiography sensors, blood pressure sensors, and glucometer, have commonly been used to make possible to acquire the real-time information from the remotely located patients; therefore, the medical information is further carried, via the Internet, to perform medical diagnosis and the corresponding treatments. Like in other IT sectors, there has been tremendous progress accounted in medical sectors (and in telemonitoring systems) that changes the human life protection against several chronic diseases, and the patient’s medical information can be accessed wirelessly via Wi-Fi and cellular systems. Further, with the advents of cloud computing technology, medical systems are now more efficient and scalable in processing, such as storage and access, the medical information with minimal development costs. This study is also a piece of enhancement made to track and monitor the real-time medical information, bounded in authorized area, through the modeling of private cloud computing. The private cloud-based environment is designed, for patient health monitoring called bounded telemonitoring system, to acquire the real-time medical information of patients that resided in the boundary, inside medical wards and outside medical wards, of the medical center. A new wireless sensor network scenario is designed and modeled to keep or monitor the patients’ health information whole day, 24 hours. This research is a new secured sight towards medical information access and gives directions for future developments in the medical systems.

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Systematic review of smartphone-based passive sensing for health and wellbeing

Abstract: As evolving passive sensing technology presents new possibilities for health and wellbeing, additional research must address methodological, clinical integration, and privacy issues. Doing so depends on interdisciplinary collaboration between informatics and clinical experts.

Cited by 300 publications

References 86 publications

Excessive use of mobile devices and children's physical health

Excessive use of mobile devices and children's physical health

Harnessing the Potential of Emerging Digital Health and Biological Sampling Technologies for Clinical Drug Development: Promise to Reality

Real-Time Cloud-Based Health Tracking and Monitoring System in Designed Boundary for Cardiology Patients

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