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Physiotherapy Theory and Practice
An International Journal of Physical Therapy
Volume 29, 2013 - Issue 6
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DESCRIPTIVE REPORT

Identification of fidgety movements and prediction of CP by the use of computer-based video analysis is more accurate when based on two video recordings

Lars Adde Department of Laboratory Medicine, Children's and Women's Health, Norwegian University of Science and Technology, Trondheim, Norway; Department of Clinical Services, Physiotherapy Section, St. Olav University Hospital, Trondheim, NorwayCorrespondence[email protected]
, PhD, PT,
Jorunn Helbostad Department of Clinical Services, Physiotherapy Section, St. Olav University Hospital, Trondheim, Norway; Department of Neuroscience, Norwegian University of Science and Technology, Trondheim, Norway
, PhD, PT,
Alexander R. Jensenius Department of Musicology, University of Oslo, Oslo, Norway
, PhD,
Mette Langaas Department of Mathematical Sciences, Norwegian University of Science and Technology, Trondheim, Norway
, PhD &
Ragnhild Støen Department of Laboratory Medicine, Children's and Women's Health, Norwegian University of Science and Technology, Trondheim, Norway; Department of Pediatrics, St. Olav University Hospital, Trondheim, Norway
, MD
Pages 469-475 | Accepted 18 Nov 2012, Published online: 23 Jan 2013

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Lars Adde, Hong Yang, Rannei Sæther, Alexander Refsum Jensenius, Espen Ihlen, Jia-yan Cao & Ragnhild Støen. (2018) Characteristics of general movements in preterm infants assessed by computer-based video analysis. Physiotherapy Theory and Practice 34:4, pages 286-292.
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Articles from other publishers (23)

Tomas Kulvicius, Dajie Zhang, Karin Nielsen-Saines, Sven Bölte, Marc Kraft, Christa Einspieler, Luise Poustka, Florentin Wörgötter & Peter B. Marschik. (2023) Infant movement classification through pressure distribution analysis. Communications Medicine 3:1.
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Katarzyna Kniaziew-Gomoluch, Andrzej Szopa, Tomasz Łosień, Jan Siwiec, Zenon Kidoń & Małgorzata Domagalska-Szopa. (2023) Reliability and Repeatability of a Postural Control Test for Preterm Infants. International Journal of Environmental Research and Public Health 20:3, pages 1868.
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Katarzyna Kniaziew-Gomoluch, Andrzej Szopa, Zenon Kidoń, Andrzej Siwiec & Małgorzata Domagalska-Szopa. (2022) Design and Construct Validity of a Postural Control Test for Pre-Term Infants. Diagnostics 13:1, pages 96.
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Daniel Groos, Lars Adde, Sindre Aubert, Lynn Boswell, Raye-Ann de Regnier, Toril Fjørtoft, Deborah Gaebler-Spira, Andreas Haukeland, Marianne Loennecken, Michael Msall, Unn Inger Möinichen, Aurelie Pascal, Colleen Peyton, Heri Ramampiaro, Michael D. Schreiber, Inger Elisabeth Silberg, Nils Thomas Songstad, Niranjan Thomas, Christine Van den Broeck, Gunn Kristin Øberg, Espen A.F. Ihlen & Ragnhild Støen. (2022) Development and Validation of a Deep Learning Method to Predict Cerebral Palsy From Spontaneous Movements in Infants at High Risk. JAMA Network Open 5:7, pages e2221325.
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Kamini Raghuram, Silvia Orlandi, Paige Church, Maureen Luther, Alex Kiss & Vibhuti Shah. (2022) Automated Movement Analysis to Predict Cerebral Palsy in Very Preterm Infants: An Ambispective Cohort Study. Children 9:6, pages 843.
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Christian B. Redd, Mohan Karunanithi, Roslyn N. Boyd & Lee A. Barber. (2021) Technology-assisted quantification of movement to predict infants at high risk of motor disability: A systematic review. Research in Developmental Disabilities 118, pages 104071.
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Kamini Raghuram, Silvia Orlandi, Paige Church, Tom Chau, Elizabeth Uleryk, Petros Pechlivanoglou & Vibhuti Shah. (2021) Automated movement recognition to predict motor impairment in high‐risk infants: a systematic review of diagnostic test accuracy and meta‐analysis. Developmental Medicine & Child Neurology 63:6, pages 637-648.
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Simon Reich, Dajie Zhang, Tomas Kulvicius, Sven Bölte, Karin Nielsen-Saines, Florian B. Pokorny, Robert Peharz, Luise Poustka, Florentin Wörgötter, Christa Einspieler & Peter B. Marschik. (2021) Novel AI driven approach to classify infant motor functions. Scientific Reports 11:1.
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Rebecca Caesar, Paul B Colditz, Giovanni Cioni & Roslyn N Boyd. (2020) Clinical tools used in young infants born very preterm to predict motor and cognitive delay (not cerebral palsy): a systematic review. Developmental Medicine & Child Neurology 63:4, pages 387-395.
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Min Li, Fan Wei, Yu Li, Sicong Zhang & Guanghua Xu. (2021) Three-Dimensional Pose Estimation of Infants Lying Supine Using Data From a Kinect Sensor With Low Training Cost. IEEE Sensors Journal 21:5, pages 6904-6913.
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Ying‐Chin Wu, Ilse M. van Rijssen, Maria T. Buurman, Linze‐Jaap Dijkstra, Elisa G. Hamer & Mijna Hadders‐Algra. (2020) Temporal and spatial localisation of general movement complexity and variation—Why Gestalt assessment requires experience. Acta Paediatrica 110:1, pages 290-300.
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Dimitrios Sakkos, Kevin D. Mccay, Claire Marcroft, Nicholas D. Embleton, Samiran Chattopadhyay & Edmond S. L. Ho. (2021) Identification of Abnormal Movements in Infants: A Deep Neural Network for Body Part-Based Prediction of Cerebral Palsy. IEEE Access 9, pages 94281-94292.
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Claire Chambers, Nidhi Seethapathi, Rachit Saluja, Helen Loeb, Samuel R. Pierce, Daniel K. Bogen, Laura Prosser, Michelle J. Johnson & Konrad P. Kording. (2020) Computer Vision to Automatically Assess Infant Neuromotor Risk. IEEE Transactions on Neural Systems and Rehabilitation Engineering 28:11, pages 2431-2442.
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Einspieler, Bos, Krieber-Tomantschger, Alvarado, Barbosa, Bertoncelli, Burger, Chorna, Del Secco, DeRegnier, Hüning, Ko, Lucaccioni, Maeda, Marchi, Martín, Morgan, Mutlu, Nogolová, Pansy, Peyton, Pokorny, Prinsloo, Ricci, Saini, Scheuchenegger, Silva, Soloveichick, Spittle, Toldo, Utsch, van Zyl, Viñals, Wang, Yang, Yardımcı-Lokmanoğlu, Cioni, Ferrari, Guzzetta & Marschik. (2019) Cerebral Palsy: Early Markers of Clinical Phenotype and Functional Outcome. Journal of Clinical Medicine 8:10, pages 1616.
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Kamini Raghuram, Silvia Orlandi, Vibhuti Shah, Tom Chau, Maureen Luther, Rudaina Banihani & Paige Church. (2019) Automated movement analysis to predict motor impairment in preterm infants: a retrospective study. Journal of Perinatology 39:10, pages 1362-1369.
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Amanda K.L. Kwong, Joy E. Olsen, Abbey L. Eeles, Christa Einspieler, Katherine J. Lee, Lex W. Doyle, Jeanie L.Y. Cheong & Alicia J. Spittle. (2019) Occurrence of and temporal trends in fidgety general movements in infants born extremely preterm/extremely low birthweight and term-born controls. Early Human Development 135, pages 11-15.
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Marike Boonzaaijer, Ellen van Dam, Ingrid C. van Haastert & Jacqueline Nuysink. (2017) Concurrent Validity Between Live and Home Video Observations Using the Alberta Infant Motor Scale. Pediatric Physical Therapy 29:2, pages 146-151.
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Rannei Sæther, Ragnhild Støen, Torstein Vik, Toril Fjørtoft, Randi Tynes Vågen, Inger Elisabeth Silberg, Marianne Loennecken, Unn Inger Møinichen, Stian Lydersen & Lars Adde. (2016) A change in temporal organization of fidgety movements during the fidgety movement period is common among high risk infants. European Journal of Paediatric Neurology 20:4, pages 512-517.
Crossref
H. Lorås, F. Öhberg, O. Vasseljen & A.K. Stensdotter. (2015) Frame-difference analysis of video-recorded laser-beam projections. Manual Therapy 20:6, pages 879-883.
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Hodjat Rahmati, Ralf Dragon, Ole Morten Aamo, Lars Adde, Øyvind Stavdahl & Luc Van Gool. (2015) Weakly supervised motion segmentation with particle matching. Computer Vision and Image Understanding 140, pages 30-42.
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Susanne Collier Valle, Ragnhild Støen, Rannei Sæther, Alexander Refsum Jensenius & Lars Adde. (2015) Test–retest reliability of computer-based video analysis of general movements in healthy term-born infants. Early Human Development 91:10, pages 555-558.
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Alessandro G. Allievi, Tomoki Arichi, Anne L. Gordon & Etienne Burdet. (2014) Technology-Aided Assessment of Sensorimotor Function in Early Infancy. Frontiers in Neurology 5.
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Hodjat Rahmati, Ole Morten Aamo, Oyvind Stavdahl, Ralf Dragon & Lars Adde. (2014) Video-based early cerebral palsy prediction using motion segmentation. Video-based early cerebral palsy prediction using motion segmentation.

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