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Literature DB >> 33554111

Wearable Technology and Analytics as a Complementary Toolkit to Optimize Workload and to Reduce Injury Burden.

Dhruv R Seshadri¹, Mitchell L Thom², Ethan R Harlow^3,4, Tim J Gabbett^5,6, Benjamin J Geletka^3,4, Jeffrey J Hsu⁷, Colin K Drummond¹, Dermot M Phelan⁸, James E Voos^3,4.

Abstract

Wearable sensors enable the real-time and non-invasive monitoring of biomechanical, physiological, or biochemical parameters pertinent to the performance of athletes. Sports medicine researchers compile datasets involving a multitude of parameters that can often be time consuming to analyze in order to create value in an expeditious and accurate manner. Machine learning and artificial intelligence models may aid in the clinical decision-making process for sports scientists, team physicians, and athletic trainers in translating the data acquired from wearable sensors to accurately and efficiently make decisions regarding the health, safety, and performance of athletes. This narrative review discusses the application of commercial sensors utilized by sports teams today and the emergence of descriptive analytics to monitor the internal and external workload, hydration status, sleep, cardiovascular health, and return-to-sport status of athletes. This review is written for those who are interested in the application of wearable sensor data and data science to enhance performance and reduce injury burden in athletes of all ages.

Entities: Chemical Disease Gene Species

Keywords: artificial intelligence; machine learning; return-to-play; sports cardiology; sports medicine; wearable sensors; workload optimization

Year: 2021 PMID： 33554111 PMCID： PMC7859639 DOI： 10.3389/fspor.2020.630576

Source DB: PubMed Journal: Front Sports Act Living ISSN： 2624-9367

99 in total

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Authors: Peter Blanch; Tim J Gabbett
Journal: Br J Sports Med Date: 2015-12-23 Impact factor: 13.800

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Authors: J A Sampson; A Murray; S Williams; T Halseth; J Hanisch; G Golden; H H K Fullagar
Journal: J Sci Med Sport Date: 2018-05-22 Impact factor: 4.319

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Journal: Sleep Med Rev Date: 2019-11-06 Impact factor: 11.609

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Journal: Med Sci Sports Exerc Date: 2012-01 Impact factor: 5.411

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Authors: E M Crum; W J O'Connor; L Van Loo; M Valckx; S R Stannard
Journal: Eur J Sport Sci Date: 2017-05-30 Impact factor: 4.050

6. Is the Acute: Chronic Workload Ratio (ACWR) Associated with Risk of Time-Loss Injury in Professional Team Sports? A Systematic Review of Methodology, Variables and Injury Risk in Practical Situations.

Authors: Renato Andrade; Eirik Halvorsen Wik; Alexandre Rebelo-Marques; Peter Blanch; Rodney Whiteley; João Espregueira-Mendes; Tim J Gabbett
Journal: Sports Med Date: 2020-09 Impact factor: 11.136

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Authors: Martin Schwellnus; Torbjørn Soligard; Juan-Manuel Alonso; Roald Bahr; Ben Clarsen; H Paul Dijkstra; Tim J Gabbett; Michael Gleeson; Martin Hägglund; Mark R Hutchinson; Christa Janse Van Rensburg; Romain Meeusen; John W Orchard; Babette M Pluim; Martin Raftery; Richard Budgett; Lars Engebretsen
Journal: Br J Sports Med Date: 2016-09 Impact factor: 13.800

8. Clinical Factors That Predict a Second ACL Injury After ACL Reconstruction and Return to Sport: Preliminary Development of a Clinical Decision Algorithm.

Authors: Mark V Paterno; Bin Huang; Staci Thomas; Timothy E Hewett; Laura C Schmitt
Journal: Orthop J Sports Med Date: 2017-12-19

9. Anterior Cruciate Ligament Injuries in National Football League Athletes From 2010 to 2013: A Descriptive Epidemiology Study.

Authors: Christopher C Dodson; Eric S Secrist; Suneel B Bhat; Daniel P Woods; Peter F Deluca
Journal: Orthop J Sports Med Date: 2016-03-03