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Predicting Pulmonary Function from Phone Sensors.

Predicting Pulmonary Function from Phone Sensors.
Author Information (click to view)

Cheng Q, Juen J, Bellam S, Fulara N, Close D, Silverstein JC, Schatz B,


Cheng Q, Juen J, Bellam S, Fulara N, Close D, Silverstein JC, Schatz B, (click to view)

Cheng Q, Juen J, Bellam S, Fulara N, Close D, Silverstein JC, Schatz B,

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Telemedicine journal and e-health : the official journal of the American Telemedicine Association 2017 03 16() doi 10.1089/tmj.2017.0008
Abstract
INTRODUCTION
Smartphones are ubiquitous, but it is unknown what physiological functions can be monitored at clinical quality. Pulmonary function is a standard measure of health status for cardiopulmonary patients. We have shown phone sensors can accurately measure walking patterns. Here we show that improved classification models can accurately predict pulmonary function, with sole inputs being motion sensors from carried phones.

SUBJECTS AND METHODS
Twenty-five cardiopulmonary patients performed 6-minute walk tests in pulmonary rehabilitation at a regional hospital. They carried smartphones running custom software recording phone motion. Each patient’s pulmonary function was measured by spirometry. A universal model, based on support vector machine, then computed the category of function with input from signal processing features and patient demographic features.

RESULTS
All but a few of every 10-second interval for every patient was correctly predicted. The trained model perfectly computed the GOLD (Global Initiative for Chronic Obstructive Lung Disease) level 1/2/3, which is a standard classification of pulmonary function. Each level was determined to have a characteristic motion, which could be recognized from the sensor features. In addition, longitudinal changes were detected for 10 patients with multiple walk tests, except for cases with clinical instability.

CONCLUSIONS
These results are encouraging toward clinical validation of passive monitors running continuously in the background, for patients in homes during daily activities. Initial testing indicates the same high accuracy as with active monitors, for patients in hospitals during walk tests. We expect patients can simply carry their phones during everyday living, while models support automatic prediction of pulmonary function for health monitoring.

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