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Assessing real-world gait with digital technology? Validation, insights and recommendations from the Mobilise-D consortium.
Micó-Amigo, M Encarna; Bonci, Tecla; Paraschiv-Ionescu, Anisoara; Ullrich, Martin; Kirk, Cameron; Soltani, Abolfazl; Küderle, Arne; Gazit, Eran; Salis, Francesca; Alcock, Lisa; Aminian, Kamiar; Becker, Clemens; Bertuletti, Stefano; Brown, Philip; Buckley, Ellen; Cantu, Alma; Carsin, Anne-Elie; Caruso, Marco; Caulfield, Brian; Cereatti, Andrea; Chiari, Lorenzo; D'Ascanio, Ilaria; Eskofier, Bjoern; Fernstad, Sara; Froehlich, Marcel; Garcia-Aymerich, Judith; Hansen, Clint; Hausdorff, Jeffrey M; Hiden, Hugo; Hume, Emily; Keogh, Alison; Kluge, Felix; Koch, Sarah; Maetzler, Walter; Megaritis, Dimitrios; Mueller, Arne; Niessen, Martijn; Palmerini, Luca; Schwickert, Lars; Scott, Kirsty; Sharrack, Basil; Sillén, Henrik; Singleton, David; Vereijken, Beatrix; Vogiatzis, Ioannis; Yarnall, Alison J; Rochester, Lynn; Mazzà, Claudia; Del Din, Silvia.
Afiliação
  • Micó-Amigo ME; Translational and Clinical Research Institute, Faculty of Medical Sciences, Newcastle University, Newcastle upon Tyne, UK.
  • Bonci T; Department of Mechanical Engineering and Insigneo Institute for in Silico Medicine, The University of Sheffield, Sheffield, UK.
  • Paraschiv-Ionescu A; Laboratory of Movement Analysis and Measurement, Ecole Polytechnique Federale de Lausanne, Lausanne, Switzerland.
  • Ullrich M; Machine Learning and Data Analytics Lab, Department of Artificial Intelligence in Biomedical Engineering, Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen, Germany.
  • Kirk C; Translational and Clinical Research Institute, Faculty of Medical Sciences, Newcastle University, Newcastle upon Tyne, UK.
  • Soltani A; Laboratory of Movement Analysis and Measurement, Ecole Polytechnique Federale de Lausanne, Lausanne, Switzerland.
  • Küderle A; Machine Learning and Data Analytics Lab, Department of Artificial Intelligence in Biomedical Engineering, Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen, Germany.
  • Gazit E; Center for the Study of Movement, Cognition and Mobility, Neurological Institute, Tel Aviv Sourasky Medical Center, Tel Aviv, Israel.
  • Salis F; Department of Biomedical Sciences, University of Sassari, Sassari, Italy.
  • Alcock L; Department of Electronics and Telecommunications, Politecnico di Torino, Turin, Italy.
  • Aminian K; Translational and Clinical Research Institute, Faculty of Medical Sciences, Newcastle University, Newcastle upon Tyne, UK.
  • Becker C; National Institute for Health and Care Research (NIHR) Newcastle Biomedical Research Centre (BRC), Newcastle University and The Newcastle upon Tyne Hospitals NHS Foundation Trust, Newcastle upon Tyne, UK.
  • Bertuletti S; Laboratory of Movement Analysis and Measurement, Ecole Polytechnique Federale de Lausanne, Lausanne, Switzerland.
  • Brown P; Robert Bosch Gesellschaft für Medizinische Forschung, Stuttgart, Germany.
  • Buckley E; Department of Electronics and Telecommunications, Politecnico di Torino, Turin, Italy.
  • Cantu A; The Newcastle Upon Tyne Hospitals NHS Foundation Trust, Newcastle upon Tyne, UK.
  • Carsin AE; Department of Mechanical Engineering and Insigneo Institute for in Silico Medicine, The University of Sheffield, Sheffield, UK.
  • Caruso M; School of Computing, Newcastle University, Newcastle upon Tyne, UK.
  • Caulfield B; Barcelona Institute for Global Health (ISGlobal), Barcelona, Spain.
  • Cereatti A; Universitat Pompeu Fabra, Barcelona, Catalonia, Spain.
  • Chiari L; CIBER Epidemiología y Salud Pública (CIBERESP), Madrid, Spain.
  • D'Ascanio I; Department of Electronics and Telecommunications, Politecnico di Torino, Turin, Italy.
  • Eskofier B; Insight Centre for Data Analytics, University College Dublin, Dublin, Ireland.
  • Fernstad S; School of Public Health, Physiotherapy and Sports Science, University College Dublin, Dublin, Ireland.
  • Froehlich M; Department of Electronics and Telecommunications, Politecnico di Torino, Turin, Italy.
  • Garcia-Aymerich J; Department of Electrical, Electronic and Information Engineering «Guglielmo Marconi¼, University of Bologna, Bologna, Italy.
  • Hansen C; Health Sciences and Technologies-Interdepartmental Center for Industrial Research (CIRI-SDV), University of Bologna, Bologna, Italy.
  • Hausdorff JM; Department of Electrical, Electronic and Information Engineering «Guglielmo Marconi¼, University of Bologna, Bologna, Italy.
  • Hiden H; Machine Learning and Data Analytics Lab, Department of Artificial Intelligence in Biomedical Engineering, Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen, Germany.
  • Hume E; School of Computing, Newcastle University, Newcastle upon Tyne, UK.
  • Keogh A; Grünenthal GmbH, Aachen, Germany.
  • Kluge F; Barcelona Institute for Global Health (ISGlobal), Barcelona, Spain.
  • Koch S; Universitat Pompeu Fabra, Barcelona, Catalonia, Spain.
  • Maetzler W; CIBER Epidemiología y Salud Pública (CIBERESP), Madrid, Spain.
  • Megaritis D; Department of Neurology, University Medical Center Schleswig-Holstein Campus Kiel, Kiel, Germany.
  • Mueller A; Center for the Study of Movement, Cognition and Mobility, Neurological Institute, Tel Aviv Sourasky Medical Center, Tel Aviv, Israel.
  • Niessen M; Sagol School of Neuroscience and Department of Physical Therapy, Sackler Faculty of Medicine, Tel Aviv University, Tel Aviv, Israel.
  • Palmerini L; Rush Alzheimer's Disease Center and Department of Orthopaedic Surgery, Rush University Medical Center, Chicago, IL, USA.
  • Schwickert L; School of Computing, Newcastle University, Newcastle upon Tyne, UK.
  • Scott K; Department of Sport, Exercise and Rehabilitation, Northumbria University Newcastle, Newcastle upon Tyne, UK.
  • Sharrack B; Insight Centre for Data Analytics, University College Dublin, Dublin, Ireland.
  • Sillén H; School of Public Health, Physiotherapy and Sports Science, University College Dublin, Dublin, Ireland.
  • Singleton D; Machine Learning and Data Analytics Lab, Department of Artificial Intelligence in Biomedical Engineering, Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen, Germany.
  • Vereijken B; Novartis Institutes of Biomedical Research, Novartis Pharma AG, Basel, Switzerland.
  • Vogiatzis I; Barcelona Institute for Global Health (ISGlobal), Barcelona, Spain.
  • Yarnall AJ; Universitat Pompeu Fabra, Barcelona, Catalonia, Spain.
  • Rochester L; CIBER Epidemiología y Salud Pública (CIBERESP), Madrid, Spain.
  • Mazzà C; Department of Neurology, University Medical Center Schleswig-Holstein Campus Kiel, Kiel, Germany.
  • Del Din S; Department of Sport, Exercise and Rehabilitation, Northumbria University Newcastle, Newcastle upon Tyne, UK.
J Neuroeng Rehabil ; 20(1): 78, 2023 06 14.
Article em En | MEDLINE | ID: mdl-37316858
ABSTRACT

BACKGROUND:

Although digital mobility outcomes (DMOs) can be readily calculated from real-world data collected with wearable devices and ad-hoc algorithms, technical validation is still required. The aim of this paper is to comparatively assess and validate DMOs estimated using real-world gait data from six different cohorts, focusing on gait sequence detection, foot initial contact detection (ICD), cadence (CAD) and stride length (SL) estimates.

METHODS:

Twenty healthy older adults, 20 people with Parkinson's disease, 20 with multiple sclerosis, 19 with proximal femoral fracture, 17 with chronic obstructive pulmonary disease and 12 with congestive heart failure were monitored for 2.5 h in the real-world, using a single wearable device worn on the lower back. A reference system combining inertial modules with distance sensors and pressure insoles was used for comparison of DMOs from the single wearable device. We assessed and validated three algorithms for gait sequence detection, four for ICD, three for CAD and four for SL by concurrently comparing their performances (e.g., accuracy, specificity, sensitivity, absolute and relative errors). Additionally, the effects of walking bout (WB) speed and duration on algorithm performance were investigated.

RESULTS:

We identified two cohort-specific top performing algorithms for gait sequence detection and CAD, and a single best for ICD and SL. Best gait sequence detection algorithms showed good performances (sensitivity > 0.73, positive predictive values > 0.75, specificity > 0.95, accuracy > 0.94). ICD and CAD algorithms presented excellent results, with sensitivity > 0.79, positive predictive values > 0.89 and relative errors < 11% for ICD and < 8.5% for CAD. The best identified SL algorithm showed lower performances than other DMOs (absolute error < 0.21 m). Lower performances across all DMOs were found for the cohort with most severe gait impairments (proximal femoral fracture). Algorithms' performances were lower for short walking bouts; slower gait speeds (< 0.5 m/s) resulted in reduced performance of the CAD and SL algorithms.

CONCLUSIONS:

Overall, the identified algorithms enabled a robust estimation of key DMOs. Our findings showed that the choice of algorithm for estimation of gait sequence detection and CAD should be cohort-specific (e.g., slow walkers and with gait impairments). Short walking bout length and slow walking speed worsened algorithms' performances. Trial registration ISRCTN - 12246987.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Tecnologia Digital / Fraturas Proximais do Fêmur Tipo de estudo: Prognostic_studies Limite: Aged / Humans Idioma: En Revista: J Neuroeng Rehabil Assunto da revista: ENGENHARIA BIOMEDICA / NEUROLOGIA / REABILITACAO Ano de publicação: 2023 Tipo de documento: Article País de afiliação: Reino Unido
Texto completo
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PubMed Links
Buscar no Google

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Tecnologia Digital / Fraturas Proximais do Fêmur Tipo de estudo: Prognostic_studies Limite: Aged / Humans Idioma: En Revista: J Neuroeng Rehabil Assunto da revista: ENGENHARIA BIOMEDICA / NEUROLOGIA / REABILITACAO Ano de publicação: 2023 Tipo de documento: Article País de afiliação: Reino Unido