Wearable Electronic Devices
"Wearable Electronic Devices" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus,
MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure,
which enables searching at various levels of specificity.
Electronic implements worn on the body as an implant or as an accessory. Examples include wearable diagnostic devices, wearable ACTIVITY TRACKERS, wearable INFUSION PUMPS, wearable computing devices, SENSORY AIDS, and electronic pest repellents.
|Wearable Electronic Devices
- Wearable Electronic Devices
- Device, Wearable Electronic
- Devices, Wearable Electronic
- Electronic Device, Wearable
- Electronic Devices, Wearable
- Wearable Electronic Device
- Wearable Technology
- Technologies, Wearable
- Technology, Wearable
- Wearable Technologies
- Wearable Devices
- Device, Wearable
- Devices, Wearable
- Wearable Device
Below are MeSH descriptors whose meaning is more general than "Wearable Electronic Devices".
Below are MeSH descriptors whose meaning is more specific than "Wearable Electronic Devices".
This graph shows the total number of publications written about "Wearable Electronic Devices" by people in this website by year, and whether "Wearable Electronic Devices" was a major or minor topic of these publications.
To see the data from this visualization as text, click here.
|Year||Major Topic||Minor Topic||Total|
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Below are the most recent publications written about "Wearable Electronic Devices" by people in Profiles.
Uomoto JM, Skopp N, Jenkins-Guarnieri M, Reini J, Thomas D, Adams RJ, Tsui M, Miller SR, Scott BR, Pasquina PF. Assessing the Clinical Utility of a Wearable Device for Physiological Monitoring of Heart Rate Variability in Military Service Members with Traumatic Brain Injury. Telemed J E Health. 2022 Oct; 28(10):1496-1504.
Martin A, Hofmann H, Drenowatz C, Wallmann-Sperlich B, Sperlich B, Koehler K. The Impact of Low Energy Availability on Nonexercise Activity Thermogenesis and Physical Activity Behavior in Recreationally Trained Adults. Int J Sport Nutr Exerc Metab. 2021 07 01; 31(4):329-336.
Burkart S, Beets MW, Armstrong B, Hunt ET, Dugger R, von Klinggraeff L, Jones A, Brown DE, Weaver RG. Comparison of multichannel and single-channel wrist-based devices with polysomnography to measure sleep in children and adolescents. J Clin Sleep Med. 2021 04 01; 17(4):645-652.
Gupta S, Johnson EM, Peacock JG, Jiang L, McBee MP, Sneider MB, Krupinski EA. Radiology, Mobile Devices, and Internet of Things (IoT). J Digit Imaging. 2020 06; 33(3):735-746.
Seo NJ, Enders LR, Fortune A, Cain S, Vatinno AA, Schuster E, Ramakrishnan V, Feng W. Phase I Safety Trial: Extended Daily Peripheral Sensory Stimulation Using a Wrist-Worn Vibrator in Stroke Survivors. Transl Stroke Res. 2020 04; 11(2):204-213.
Field ME, Page RL. Another Shock for Sudden Death Prevention after Myocardial Infarction. N Engl J Med. 2018 09 27; 379(13):1274-1275.
Bagot KS, Matthews SA, Mason M, Squeglia LM, Fowler J, Gray K, Herting M, May A, Colrain I, Godino J, Tapert S, Brown S, Patrick K. Current, future and potential use of mobile and wearable technologies and social media data in the ABCD study to increase understanding of contributors to child health. Dev Cogn Neurosci. 2018 08; 32:121-129.
Hui T, Kubacki GW, Gilbert JL. Voltage and wear debris from Ti-6Al-4V interact to affect cell viability during in-vitro fretting corrosion. J Biomed Mater Res A. 2018 Jan; 106(1):160-167.
Turner-McGrievy GM, Wilcox S, Boutté A, Hutto BE, Singletary C, Muth ER, Hoover AW. The Dietary Intervention to Enhance Tracking with Mobile Devices (DIET Mobile) Study: A 6-Month Randomized Weight Loss Trial. Obesity (Silver Spring). 2017 08; 25(8):1336-1342.
Arnold JF, Sade RM. Wearable Technologies in Collegiate Sports: The Ethics of Collecting Biometric Data From Student-Athletes. Am J Bioeth. 2017 01; 17(1):67-70.