Add to ORKGObjectiveTo describe a configurable mobile health (mHealth) framework for integration of physiologic and environmental sensors to be used in studies focusing on the domain of pediatric asthma.Materials and methodsThe Biomedical REAl-Time Health Evaluation (BREATHE) platform connects different sensors and data streams, contextualizing an individual's symptoms and daily activities over time to understand pediatric asthma's presentation and its management. A smartwatch/smartphone combination serves as a hub for personal/wearable sensing devices collecting data on health (eg, heart rate, spirometry, medications), motion, and personal exposures (eg, particulate matter, ozone); securely transmitting information to BREATHE's servers; and interacti...
According to a study done in 2014 by National Health Interview Survey around 6.3 million children in...
Mobile health devices are now capable of inferring health status, daily behaviors and contexts (e.g....
Worldwide more than 230 million people suffer from asthma. Reliable and timely guidance for indi-vid...
ObjectiveTo describe a configurable mobile health (mHealth) framework for integration of physiologic...
Wide adoption of smartphones and availability of low-cost sensors has resulted in seamless and conti...
To address the need for asthma self-management in pediatrics, the authors present the feasibility of...
To address the need for asthma self-management in pediatrics, the authors present the feasibility of...
Pediatric asthma is a prevalent chronic disease condition that can benefit from wireless health syst...
Asthma is the most prevalent chronic disease among pediatrics, as it is the leading cause of student...
Background: Asthma is a chronic pulmonary disease with multiple triggers. It can be managed by stric...
Introduction: Childhood Asthma is a significant public health concern worldwide. Effective managemen...
Pervasive health is an emerging field of research aimed at providing health monitoring to anyone at ...
Dauletbaev N, Oftring Z, Akik W, et al. A scoping review of mHealth monitoring of pediatric bronchia...
The advancement of wearable/ambulatory technologies has brought a huge change to data collection fra...
According to a study done in 2014 by National Health Interview Survey around 6.3 million children in...
Mobile health devices are now capable of inferring health status, daily behaviors and contexts (e.g....
Worldwide more than 230 million people suffer from asthma. Reliable and timely guidance for indi-vid...
ObjectiveTo describe a configurable mobile health (mHealth) framework for integration of physiologic...
Wide adoption of smartphones and availability of low-cost sensors has resulted in seamless and conti...
To address the need for asthma self-management in pediatrics, the authors present the feasibility of...
To address the need for asthma self-management in pediatrics, the authors present the feasibility of...
Pediatric asthma is a prevalent chronic disease condition that can benefit from wireless health syst...
Asthma is the most prevalent chronic disease among pediatrics, as it is the leading cause of student...
Background: Asthma is a chronic pulmonary disease with multiple triggers. It can be managed by stric...
Introduction: Childhood Asthma is a significant public health concern worldwide. Effective managemen...
Pervasive health is an emerging field of research aimed at providing health monitoring to anyone at ...
Dauletbaev N, Oftring Z, Akik W, et al. A scoping review of mHealth monitoring of pediatric bronchia...
The advancement of wearable/ambulatory technologies has brought a huge change to data collection fra...
According to a study done in 2014 by National Health Interview Survey around 6.3 million children in...
Mobile health devices are now capable of inferring health status, daily behaviors and contexts (e.g....
Worldwide more than 230 million people suffer from asthma. Reliable and timely guidance for indi-vid...