Continuous Temperature-Monitoring Socks for Home Use in Patients With Diabetes: Observational Study

Over 30 million people in the United States (over 9%) have been diagnosed with diabetes. About 25% of people with diabetes will experience a diabetic foot ulcer (DFU) in their lifetime. Unresolved DFUs may lead to sepsis and are the leading cause of lower-limb amputations. DFU rates can be reduced b...

Full description

Saved in:
Bibliographic Details
Published in:Journal of medical Internet research 2018-12, Vol.20 (12), p.e12460-e12460
Main Authors: Reyzelman, Alexander M, Koelewyn, Kristopher, Murphy, Maryam, Shen, Xuening, Yu, E, Pillai, Raji, Fu, Jie, Scholten, Henk Jan, Ma, Ran
Format: Article
Language:English
Subjects:
Adolescent
Adult
Amputation
Body temperature
Care and treatment
Case studies
Cellular telephones
Clinical skills
Diabetes
Diabetic foot
Diabetic Foot - pathology
Diabetic Foot - therapy
Diabetics
Emergency communications systems
Expenditures
Feet
Female
Foot - blood supply
Foot diseases
Fractures
Health aspects
Health care policy
Home environment
Humans
Intervention
Leg ulcers
Male
Medical research
Medical screening
Medicine, Experimental
Observation
Observational studies
Original Paper
Peripheral neuropathy
Pilot Projects
Review boards
Risk assessment
Risk reduction
Sensors
Sepsis
Skin Temperature
Type 2 diabetes
Ulcers
Usability
Young Adult
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Over 30 million people in the United States (over 9%) have been diagnosed with diabetes. About 25% of people with diabetes will experience a diabetic foot ulcer (DFU) in their lifetime. Unresolved DFUs may lead to sepsis and are the leading cause of lower-limb amputations. DFU rates can be reduced by screening patients with diabetes to enable risk-based interventions. Skin temperature assessment has been shown to reduce the risk of foot ulceration. While several tools have been developed to measure plantar temperatures, they only measure temperature once a day or are designed for clinic use only. In this report, wireless sensor-embedded socks designed for daily wear are introduced, which perform continuous temperature monitoring of the feet of persons with diabetes in the home environment. Combined with a mobile app, this wearable device informs the wearer about temperature increases in one foot relative to the other, to facilitate early detection of ulcers and timely intervention. A pilot study was conducted to assess the accuracy of sensors used in daily wear socks, obtain user feedback on how comfortable sensor-embedded socks were for home use, and examine whether observed temperatures correlated with clinical observations. Temperature accuracy of sensors was assessed both prior to incorporation in the socks, as well as in the completed design. The measured temperatures were compared to the reference standard, a high-precision thermostatic water bath in the range 20°C-40°C. A total of 35 patients, 18 years of age and older, with diabetic peripheral neuropathy were enrolled in a single-site study conducted under an Institutional Review Board-approved protocol. This study evaluated the usability of the sensor-embedded socks and correlated the observed temperatures with clinical findings. The temperatures measured by the stand-alone sensors were within 0.2°C of the reference standard. In the sensor-embedded socks, across multiple measurements for each of the six sensors, a high agreement (R =1) between temperatures measured and the reference standard was observed. Patients reported that the socks were easy to use and comfortable, ranking them at a median score of 9 or 10 for comfort and ease of use on a 10-point scale. Case studies are presented showing that the temperature differences observed between the feet were consistent with clinical observations. We report the first use of wireless continuous temperature monitoring for daily wear and home use in pa
ISSN:1438-8871
1439-4456
1438-8871
DOI:10.2196/12460