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Journal of Medical Engineering & Technology Volume 41, 2017 - Issue 5
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Research Article

Mobile gait analysis via eSHOEs instrumented shoe insoles: a pilot study for validation against the gold standard GAITRite®

Harald JagosInstitute for Analysis and Scientific Computing, Vienna University of Technology, Vienna, Austria; Correspondence[email protected]
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Katharina PilsInstitut für Physikalische Medizin und Rehabilitation, Sophienspital, Wien, Austria; View further author information
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Michael HallerCenter for Medical Physics and Biomedical Engineering, Medical University of Vienna, Vienna, AustriaView further author information
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Claudia WassermannInstitut für Physikalische Medizin und Rehabilitation, Sophienspital, Wien, Austria; View further author information
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Christa ChhatwalInstitut für Physikalische Medizin und Rehabilitation, Sophienspital, Wien, Austria; View further author information
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Dietmar RafoltCenter for Medical Physics and Biomedical Engineering, Medical University of Vienna, Vienna, AustriaView further author information
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Frank RattayInstitute for Analysis and Scientific Computing, Vienna University of Technology, Vienna, Austria; View further author information
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Pages 375-386 | Received 25 Aug 2016, Accepted 09 Apr 2017, Published online: 02 Jun 2017

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Leila Farid, Damien Jacobs, Johana Do Santos, Olivier Simon, Jean-Michel Gracies & Emilie Hutin. (2021) FeetMe® Monitor-connected insoles are a valid and reliable alternative for the evaluation of gait speed after stroke. Topics in Stroke Rehabilitation 28:2, pages 127-134.
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Emma Harvey, Hauke Sandhaus, Abigail Z. Jacobs, Emanuel Moss & Mona Sloane. (2024) The Cadaver in the Machine: The Social Practices of Measurement and Validation in Motion Capture Technology. The Cadaver in the Machine: The Social Practices of Measurement and Validation in Motion Capture Technology.
Xinyao Hu, Qingsong Duan, Junpeng Tang, Gengshu Chen, Zhong Zhao, Zhenglong Sun, Chao Chen & Xingda Qu. (2024) A Low-Cost Instrumented Shoe System for Gait Phase Detection Based on Foot Plantar Pressure Data. IEEE Journal of Translational Engineering in Health and Medicine 12, pages 84-96.
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Louis Riglet, Fabien Nicol, Audrey Leonard, Nicolas Eby, Lauranne Claquesin, Baptiste Orliac, Paul Ornetti, Davy Laroche & Mathieu Gueugnon. (2023) The Use of Embedded IMU Insoles to Assess Gait Parameters: A Validation and Test-Retest Reliability Study. Sensors 23:19, pages 8155.
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T. Cudejko, K. Button & M. Al-Amri. (2023) Wireless pressure insoles for measuring ground reaction forces and trajectories of the centre of pressure during functional activities. Scientific Reports 13:1.
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Klaudia Kromołowska, Krzysztof Kluza, Eliasz Kańtoch & Piotr Sulikowski. (2023) Open-Source Strain Gauge System for Monitoring Pressure Distribution of Runner’s Feet. Sensors 23:4, pages 2323.
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Anabel Granja Domínguez, Raúl Romero Sevilla, Aurora Alemán, Carmen Durán, Anja Hochsprung, Guillermo Navarro, Cristina Páramo, Ana Venegas, Ana Lladonosa & Guillermo Izquierdo Ayuso. (2023) Study for the validation of the FeetMe® integrated sensor insole system compared to GAITRite® system to assess gait characteristics in patients with multiple sclerosis. PLOS ONE 18:2, pages e0272596.
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Meimei Zhang, Yawen Gan, Xuemei Wang, Zhan Wang, Tao Feng & Yumei Zhang. (2022) Gait performance and non-motor symptoms burden during dual-task condition in Parkinson’s disease. Neurological Sciences 44:1, pages 181-190.
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Abdul Aziz Hulleck, Dhanya Menoth Mohan, Nada Abdallah, Marwan El Rich & Kinda Khalaf. (2022) Present and future of gait assessment in clinical practice: Towards the application of novel trends and technologies. Frontiers in Medical Technology 4.
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Meir T. Marmor, Bernd Grimm, Andrew M. Hanflik, Peter H. Richter, Sureshan Sivananthan, Seth Robert Yarboro & Benedikt J. Braun. (2022) Use of Wearable Technology to Measure Activity in Orthopaedic Trauma Patients: A Systematic Review. Indian Journal of Orthopaedics 56:7, pages 1112-1122.
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Vincent Shieh, Cris Zampieri, Ashwini Sansare, John Collins, Thomas C. Bulea & Minal Jain. (2022) Validation of Body-Worn Sensors for Gait Analysis During a 2-min Walk Test in Children. Journal for the Measurement of Physical Behaviour 5:2, pages 111-119.
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Ratan Das, Sudip Paul, Gajendra Kumar Mourya, Neelesh Kumar & Masaraf Hussain. (2022) Recent Trends and Practices Toward Assessment and Rehabilitation of Neurodegenerative Disorders: Insights From Human Gait. Frontiers in Neuroscience 16.
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Jing Zhang, Minghui Yang, Yufeng Ge, Rebecca Ivers, Ruth Webster & Maoyi Tian. (2022) The role of digital health for post-surgery care of older patients with hip fracture: A scoping review. International Journal of Medical Informatics 160, pages 104709.
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Sophini Subramaniam, Sumit Majumder, Abu Ilius Faisal & M. Jamal Deen. (2022) Insole-Based Systems for Health Monitoring: Current Solutions and Research Challenges. Sensors 22:2, pages 438.
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Chenhui Huang, Kenichiro Fukushi, Zhenwei Wang, Fumiyuki Nihey, Hiroshi Kajitani & Kentaro Nakahara. (2022) Method for Estimating Temporal Gait Parameters Concerning Bilateral Lower Limbs of Healthy Subjects Using a Single In-Shoe Motion Sensor through a Gait Event Detection Approach. Sensors 22:1, pages 351.
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Chenhui Huang, Kenichiro Fukushi, Zhenwei Wang, Fumiyuki Nihey, Hiroshi Kajitani & Kentaro Nakahara. (2021) An algorithm for real time minimum toe clearance estimation from signal of in-shoe motion sensor. An algorithm for real time minimum toe clearance estimation from signal of in-shoe motion sensor.
José Gabriel Argañarás, Yan Tat Wong, Rezaul Begg & Nemai Chandra Karmakar. (2021) State-of-the-Art Wearable Sensors and Possibilities for Radar in Fall Prevention. Sensors 21:20, pages 6836.
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Chenhui Huang, Zhenwei Wang, Kenichiro Fukushi, Fumivuki Nihey, Hiroshi Kajitani & Kentaro Nakahara. (2021) Assessment of over-pronated/over-supinated foot using foot-motion measured by an in-shoe motion sensor. Assessment of over-pronated/over-supinated foot using foot-motion measured by an in-shoe motion sensor.
Efthymios Ziagkas, Andreas Loukovitis, Dimitrios Xypolias Zekakos, Thomas Duc-Phu Chau, Alexandros Petrelis & George Grouios. (2021) A Novel Tool for Gait Analysis: Validation Study of the Smart Insole PODOSmart®. Sensors 21:17, pages 5972.
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Melissa Paraskevaidis, Tobias Gehlen, Srdan Popovic & Serafeim Tsitsilonis. (2021) Ganganalyse und Belastungssohlen – ein Update. OP-JOURNAL 37:02, pages 186-194.
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Maxwell Fordjour Antwi-Afari, Heng Li, JoonOh Seo, Shahnawaz Anwer, Sitsofe Kwame Yevu & Zezhou Wu. (2020) Validity and reliability of a wearable insole pressure system for measuring gait parameters to identify safety hazards in construction. Engineering, Construction and Architectural Management 28:6, pages 1761-1779.
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Guillermo García-Villamil, Marta Neira-Álvarez, Elisabet Huertas-Hoyas, Antonio Ramón-Jiménez & Cristina Rodríguez-Sánchez. (2021) A Pilot Study to Validate a Wearable Inertial Sensor for Gait Assessment in Older Adults with Falls. Sensors 21:13, pages 4334.
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Khor Wei Zhong & Darwin Gouwanda. (2021) An Instrumented Shoe to Measure Vertical Foot Displacement Profile and Other Gait Parameters. An Instrumented Shoe to Measure Vertical Foot Displacement Profile and Other Gait Parameters.
Malte Jacobsen, Till A. Dembek, Guido Kobbe, Peter W. Gaidzik & Lutz Heinemann. (2020) Noninvasive Continuous Monitoring of Vital Signs With Wearables: Fit for Medical Use?. Journal of Diabetes Science and Technology 15:1, pages 34-43.
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Chenhui Huang, Kenichiro Fukushi, Zhenwei Wang, Hiroshi Kajitani, Fumiyuki Nihey & Kentaro Nakahara. 2021. Activity and Behavior Computing. Activity and Behavior Computing 101 118 .
Janez Podobnik, David Kraljić, Matjaž Zadravec & Marko Munih. (2020) Centre of Pressure Estimation during Walking Using Only Inertial-Measurement Units and End-To-End Statistical Modelling. Sensors 20:21, pages 6136.
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Chenhui Huang, Kenichiro Fukushi, Zhenwei Wang, Hiroshi Kajitani, Hannah Pokka, Hiroko Narasaki, Fumiyuki Nihey, Hiroaki Nakano & Kentaro Nakahara. (2020) The impact of first metatarsophalangeal angle on the gait features measured by an in-shoe motion sensor. The impact of first metatarsophalangeal angle on the gait features measured by an in-shoe motion sensor.
Slávka Vítečková, Hana Horáková, Kamila Poláková, Radim Krupička, Evžen Růžička & Hana Brožová. (2020) Agreement between the GAITRite ® System and the Wearable Sensor BTS G-Walk ®  for measurement of gait parameters in healthy adults and Parkinson’s disease patients . PeerJ 8, pages e8835.
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Diliang Chen, Yi Cai, Xiaoye Qian, Rahila Ansari, Wenyao Xu, Kuo-Chung Chu & Ming-Chun Huang. (2020) Bring Gait Lab to Everyday Life: Gait Analysis in Terms of Activities of Daily Living. IEEE Internet of Things Journal 7:2, pages 1298-1312.
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Boyd Anderson, Mingqian Shi, Vincent Y. F. Tan & Ye Wang. (2019) Mobile Gait Analysis Using Foot-Mounted UWB Sensors. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 3:3, pages 1-22.
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Faisal Arafsha, Fedwa Laamarti & Abdulmotaleb El Saddik. (2019) Cyber-Physical System Framework for Measurement and Analysis of Physical Activities. Electronics 8:2, pages 248.
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Hawazin Badawi, Fedwa Laamarti, Faisal Arafsha & Abdulmotaleb El Saddik. 2019. Information Technology and Systems. Information Technology and Systems 764 778 .
Faisal Arafsha, Christina Hanna, Ahmed Aboualmagd, Sarah Fraser & Abdulmotaleb El Saddik. (2018) Instrumented Wireless SmartInsole System for Mobile Gait Analysis: A Validation Pilot Study with Tekscan Strideway. Journal of Sensor and Actuator Networks 7:3, pages 36.
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Katharina Pils. (2018) Physikalisch-medizinische Aspekte der Frührehabilitation nach proximaler FemurfrakturPhysical medical aspects of early rehabilitation after proximal femoral fractures. Zeitschrift für Gerontologie und Geriatrie 51:6, pages 711-721.
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Christine F. Martindale, Nils Roth, Heiko Gasner, Dennis Jensen, Zacharias Kohl & Bjoern M. Eskofier. (2018) Mobile Gait Analysis using Personalised Hidden Markov Models for Hereditary Spastic Paraplegia Patients. Mobile Gait Analysis using Personalised Hidden Markov Models for Hereditary Spastic Paraplegia Patients.
Hanatsu Nagano & Rezaul Begg. (2018) Shoe-Insole Technology for Injury Prevention in Walking. Sensors 18:5, pages 1468.
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Faisal Arafsha, Fedwa Laamarti & Abdulmotaleb El Saddik. (2018) Development of a wireless CPS for gait parameters measurement and analysis. Development of a wireless CPS for gait parameters measurement and analysis.
Muhammad Faraz Shaikh, Zoran Salcic, Kevin I-Kai Wang & Aiguo Patrick Hu. (2017) Real-time detection of step direction based on plantar pressure pattern during walk. Real-time detection of step direction based on plantar pressure pattern during walk.

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