Technical validation of real-world monitoring of gait: A multicentric observational study

Claudia Mazzà; Lisa Alcock; Kamiar Aminian; Clemens Becker; Stefano Bertuletti; Tecla Bonci; Philip Brown; Marina Brozgol; Ellen Buckley; Anne Elie Carsin; Marco Caruso; Brian Caulfield; Andrea Cereatti; Lorenzo Chiari; Nikolaos Chynkiamis; Fabio Ciravegna; Silvia Del Din; Björn Eskofier; Jordi Evers; Judith Garcia Aymerich; Eran Gazit; Clint Hansen; Jeffrey M. Hausdorff; Jorunn L. Helbostad; Hugo Hiden; Emily Hume; Anisoara Paraschiv-Ionescu; Neil Ireson; Alison Keogh; Cameron Kirk; Felix Kluge; Sarah Koch; Arne Küderle; Vitaveska Lanfranchi; Walter Maetzler; M. Encarna Micó-Amigo; Arne Mueller; Isabel Neatrour; Martijn Niessen; Luca Palmerini; Lucas Pluimgraaff; Luca Reggi; Francesca Salis; Lars Schwickert; Kirsty Scott; Basil Sharrack; Henrik Sillen; David Singleton; Abolfazi Soltani; Kristin Taraldsen; Martin Ullrich; Linda Van Gelder; Beatrix Vereijken; Ioannis Vogiatzis; Elke Warmerdam; Alison Yarnall; Lynn Rochester

doi:10.1136/bmjopen-2021-050785

Technical validation of real-world monitoring of gait: A multicentric observational study

Claudia Mazzà^*, Lisa Alcock, Kamiar Aminian, Clemens Becker, Stefano Bertuletti, Tecla Bonci, Philip Brown, Marina Brozgol, Ellen Buckley, Anne Elie Carsin, Marco Caruso, Brian Caulfield, Andrea Cereatti, Lorenzo Chiari, Nikolaos Chynkiamis, Fabio Ciravegna, Silvia Del Din, Björn Eskofier, Jordi Evers, Judith Garcia AymerichEran Gazit, Clint Hansen, Jeffrey M. Hausdorff, Jorunn L. Helbostad, Hugo Hiden, Emily Hume, Anisoara Paraschiv-Ionescu, Neil Ireson, Alison Keogh, Cameron Kirk, Felix Kluge, Sarah Koch, Arne Küderle, Vitaveska Lanfranchi, Walter Maetzler, M. Encarna Micó-Amigo, Arne Mueller, Isabel Neatrour, Martijn Niessen, Luca Palmerini, Lucas Pluimgraaff, Luca Reggi, Francesca Salis, Lars Schwickert, Kirsty Scott, Basil Sharrack, Henrik Sillen, David Singleton, Abolfazi Soltani, Kristin Taraldsen, Martin Ullrich, Linda Van Gelder, Beatrix Vereijken, Ioannis Vogiatzis, Elke Warmerdam, Alison Yarnall, Lynn Rochester

^*Corresponding author for this work

PHYSICAL THERAPY

Research output: Contribution to journal › Article › peer-review

61 Scopus citations

Abstract

Introduction Existing mobility endpoints based on functional performance, physical assessments and patient self-reporting are often affected by lack of sensitivity, limiting their utility in clinical practice. Wearable devices including inertial measurement units (IMUs) can overcome these limitations by quantifying digital mobility outcomes (DMOs) both during supervised structured assessments and in real-world conditions. The validity of IMU-based methods in the real-world, however, is still limited in patient populations. Rigorous validation procedures should cover the device metrological verification, the validation of the algorithms for the DMOs computation specifically for the population of interest and in daily life situations, and the users' perspective on the device. Methods and analysis This protocol was designed to establish the technical validity and patient acceptability of the approach used to quantify digital mobility in the real world by Mobilise-D, a consortium funded by the European Union (EU) as part of the Innovative Medicine Initiative, aiming at fostering regulatory approval and clinical adoption of DMOs. After defining the procedures for the metrological verification of an IMU-based device, the experimental procedures for the validation of algorithms used to calculate the DMOs are presented. These include laboratory and real-world assessment in 120 participants from five groups: healthy older adults; chronic obstructive pulmonary disease, Parkinson's disease, multiple sclerosis, proximal femoral fracture and congestive heart failure. DMOs extracted from the monitoring device will be compared with those from different reference systems, chosen according to the contexts of observation. Questionnaires and interviews will evaluate the users' perspective on the deployed technology and relevance of the mobility assessment. Ethics and dissemination The study has been granted ethics approval by the centre's committees (London-Bloomsbury Research Ethics committee; Helsinki Committee, Tel Aviv Sourasky Medical Centre; Medical Faculties of The University of Tübingen and of the University of Kiel). Data and algorithms will be made publicly available. Trial registration number ISRCTN (12246987).

Original language	English
Article number	e050785
Journal	BMJ Open
Volume	11
Issue number	12
DOIs	https://doi.org/10.1136/bmjopen-2021-050785
State	Published - 2 Dec 2021

Funding

Funders	Funder number
Centro de Excelencia Severo Ochoa 2019-2023	CEX2018-000806-S
Grünenthal GmbH
Sheffield Biomedical Research Centre
Wellcome Trust Clinical Research Facility
Horizon 2020 Framework Programme	820820
European Federation of Pharmaceutical Industries and Associations	IMI22017-13-7-820820
National Institute for Health Research
Newcastle University
University of Sheffield
Generalitat de Catalunya
Newcastle upon Tyne Hospitals NHS Foundation Trust
Ministerio de Ciencia e Innovación
NIHR Newcastle Biomedical Research Centre
NIHR Imperial Biomedical Research Centre
NIHR Sheffield Clinical Research Facility

Keywords

Parkinson-s disease
chronic airways disease
heart failure
hip
multiple sclerosis

Access to Document

10.1136/bmjopen-2021-050785

Cite this

Mazzà, C., Alcock, L., Aminian, K., Becker, C., Bertuletti, S., Bonci, T., Brown, P., Brozgol, M., Buckley, E., Carsin, A. E., Caruso, M., Caulfield, B., Cereatti, A., Chiari, L., Chynkiamis, N., Ciravegna, F., Del Din, S., Eskofier, B., Evers, J., ... Rochester, L. (2021). Technical validation of real-world monitoring of gait: A multicentric observational study. BMJ Open, 11(12), Article e050785. https://doi.org/10.1136/bmjopen-2021-050785

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abstract = "Introduction Existing mobility endpoints based on functional performance, physical assessments and patient self-reporting are often affected by lack of sensitivity, limiting their utility in clinical practice. Wearable devices including inertial measurement units (IMUs) can overcome these limitations by quantifying digital mobility outcomes (DMOs) both during supervised structured assessments and in real-world conditions. The validity of IMU-based methods in the real-world, however, is still limited in patient populations. Rigorous validation procedures should cover the device metrological verification, the validation of the algorithms for the DMOs computation specifically for the population of interest and in daily life situations, and the users' perspective on the device. Methods and analysis This protocol was designed to establish the technical validity and patient acceptability of the approach used to quantify digital mobility in the real world by Mobilise-D, a consortium funded by the European Union (EU) as part of the Innovative Medicine Initiative, aiming at fostering regulatory approval and clinical adoption of DMOs. After defining the procedures for the metrological verification of an IMU-based device, the experimental procedures for the validation of algorithms used to calculate the DMOs are presented. These include laboratory and real-world assessment in 120 participants from five groups: healthy older adults; chronic obstructive pulmonary disease, Parkinson's disease, multiple sclerosis, proximal femoral fracture and congestive heart failure. DMOs extracted from the monitoring device will be compared with those from different reference systems, chosen according to the contexts of observation. Questionnaires and interviews will evaluate the users' perspective on the deployed technology and relevance of the mobility assessment. Ethics and dissemination The study has been granted ethics approval by the centre's committees (London-Bloomsbury Research Ethics committee; Helsinki Committee, Tel Aviv Sourasky Medical Centre; Medical Faculties of The University of T{\"u}bingen and of the University of Kiel). Data and algorithms will be made publicly available. Trial registration number ISRCTN (12246987).",

keywords = "Parkinson-s disease, chronic airways disease, heart failure, hip, multiple sclerosis",

author = "Claudia Mazz{\`a} and Lisa Alcock and Kamiar Aminian and Clemens Becker and Stefano Bertuletti and Tecla Bonci and Philip Brown and Marina Brozgol and Ellen Buckley and Carsin, {Anne Elie} and Marco Caruso and Brian Caulfield and Andrea Cereatti and Lorenzo Chiari and Nikolaos Chynkiamis and Fabio Ciravegna and {Del Din}, Silvia and Bj{\"o}rn Eskofier and Jordi Evers and {Garcia Aymerich}, Judith and Eran Gazit and Clint Hansen and Hausdorff, {Jeffrey M.} and Helbostad, {Jorunn L.} and Hugo Hiden and Emily Hume and Anisoara Paraschiv-Ionescu and Neil Ireson and Alison Keogh and Cameron Kirk and Felix Kluge and Sarah Koch and Arne K{\"u}derle and Vitaveska Lanfranchi and Walter Maetzler and Mic{\'o}-Amigo, {M. Encarna} and Arne Mueller and Isabel Neatrour and Martijn Niessen and Luca Palmerini and Lucas Pluimgraaff and Luca Reggi and Francesca Salis and Lars Schwickert and Kirsty Scott and Basil Sharrack and Henrik Sillen and David Singleton and Abolfazi Soltani and Kristin Taraldsen and Martin Ullrich and {Van Gelder}, Linda and Beatrix Vereijken and Ioannis Vogiatzis and Elke Warmerdam and Alison Yarnall and Lynn Rochester",

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Mazzà, C, Alcock, L, Aminian, K, Becker, C, Bertuletti, S, Bonci, T, Brown, P, Brozgol, M, Buckley, E, Carsin, AE, Caruso, M, Caulfield, B, Cereatti, A, Chiari, L, Chynkiamis, N, Ciravegna, F, Del Din, S, Eskofier, B, Evers, J, Garcia Aymerich, J, Gazit, E, Hansen, C, Hausdorff, JM, Helbostad, JL, Hiden, H, Hume, E, Paraschiv-Ionescu, A, Ireson, N, Keogh, A, Kirk, C, Kluge, F, Koch, S, Küderle, A, Lanfranchi, V, Maetzler, W, Micó-Amigo, ME, Mueller, A, Neatrour, I, Niessen, M, Palmerini, L, Pluimgraaff, L, Reggi, L, Salis, F, Schwickert, L, Scott, K, Sharrack, B, Sillen, H, Singleton, D, Soltani, A, Taraldsen, K, Ullrich, M, Van Gelder, L, Vereijken, B, Vogiatzis, I, Warmerdam, E, Yarnall, A & Rochester, L 2021, 'Technical validation of real-world monitoring of gait: A multicentric observational study', BMJ Open, vol. 11, no. 12, e050785. https://doi.org/10.1136/bmjopen-2021-050785

TY - JOUR

T1 - Technical validation of real-world monitoring of gait

T2 - A multicentric observational study

AU - Mazzà, Claudia

AU - Alcock, Lisa

AU - Aminian, Kamiar

AU - Becker, Clemens

AU - Bertuletti, Stefano

AU - Bonci, Tecla

AU - Brown, Philip

AU - Brozgol, Marina

AU - Buckley, Ellen

AU - Carsin, Anne Elie

AU - Caruso, Marco

AU - Caulfield, Brian

AU - Cereatti, Andrea

AU - Chiari, Lorenzo

AU - Chynkiamis, Nikolaos

AU - Ciravegna, Fabio

AU - Del Din, Silvia

AU - Eskofier, Björn

AU - Evers, Jordi

AU - Garcia Aymerich, Judith

AU - Gazit, Eran

AU - Hansen, Clint

AU - Hausdorff, Jeffrey M.

AU - Helbostad, Jorunn L.

AU - Hiden, Hugo

AU - Hume, Emily

AU - Paraschiv-Ionescu, Anisoara

AU - Ireson, Neil

AU - Keogh, Alison

AU - Kirk, Cameron

AU - Kluge, Felix

AU - Koch, Sarah

AU - Küderle, Arne

AU - Lanfranchi, Vitaveska

AU - Maetzler, Walter

AU - Micó-Amigo, M. Encarna

AU - Mueller, Arne

AU - Neatrour, Isabel

AU - Niessen, Martijn

AU - Palmerini, Luca

AU - Pluimgraaff, Lucas

AU - Reggi, Luca

AU - Salis, Francesca

AU - Schwickert, Lars

AU - Scott, Kirsty

AU - Sharrack, Basil

AU - Sillen, Henrik

AU - Singleton, David

AU - Soltani, Abolfazi

AU - Taraldsen, Kristin

AU - Ullrich, Martin

AU - Van Gelder, Linda

AU - Vereijken, Beatrix

AU - Vogiatzis, Ioannis

AU - Warmerdam, Elke

AU - Yarnall, Alison

AU - Rochester, Lynn

PY - 2021/12/2

Y1 - 2021/12/2

N2 - Introduction Existing mobility endpoints based on functional performance, physical assessments and patient self-reporting are often affected by lack of sensitivity, limiting their utility in clinical practice. Wearable devices including inertial measurement units (IMUs) can overcome these limitations by quantifying digital mobility outcomes (DMOs) both during supervised structured assessments and in real-world conditions. The validity of IMU-based methods in the real-world, however, is still limited in patient populations. Rigorous validation procedures should cover the device metrological verification, the validation of the algorithms for the DMOs computation specifically for the population of interest and in daily life situations, and the users' perspective on the device. Methods and analysis This protocol was designed to establish the technical validity and patient acceptability of the approach used to quantify digital mobility in the real world by Mobilise-D, a consortium funded by the European Union (EU) as part of the Innovative Medicine Initiative, aiming at fostering regulatory approval and clinical adoption of DMOs. After defining the procedures for the metrological verification of an IMU-based device, the experimental procedures for the validation of algorithms used to calculate the DMOs are presented. These include laboratory and real-world assessment in 120 participants from five groups: healthy older adults; chronic obstructive pulmonary disease, Parkinson's disease, multiple sclerosis, proximal femoral fracture and congestive heart failure. DMOs extracted from the monitoring device will be compared with those from different reference systems, chosen according to the contexts of observation. Questionnaires and interviews will evaluate the users' perspective on the deployed technology and relevance of the mobility assessment. Ethics and dissemination The study has been granted ethics approval by the centre's committees (London-Bloomsbury Research Ethics committee; Helsinki Committee, Tel Aviv Sourasky Medical Centre; Medical Faculties of The University of Tübingen and of the University of Kiel). Data and algorithms will be made publicly available. Trial registration number ISRCTN (12246987).

AB - Introduction Existing mobility endpoints based on functional performance, physical assessments and patient self-reporting are often affected by lack of sensitivity, limiting their utility in clinical practice. Wearable devices including inertial measurement units (IMUs) can overcome these limitations by quantifying digital mobility outcomes (DMOs) both during supervised structured assessments and in real-world conditions. The validity of IMU-based methods in the real-world, however, is still limited in patient populations. Rigorous validation procedures should cover the device metrological verification, the validation of the algorithms for the DMOs computation specifically for the population of interest and in daily life situations, and the users' perspective on the device. Methods and analysis This protocol was designed to establish the technical validity and patient acceptability of the approach used to quantify digital mobility in the real world by Mobilise-D, a consortium funded by the European Union (EU) as part of the Innovative Medicine Initiative, aiming at fostering regulatory approval and clinical adoption of DMOs. After defining the procedures for the metrological verification of an IMU-based device, the experimental procedures for the validation of algorithms used to calculate the DMOs are presented. These include laboratory and real-world assessment in 120 participants from five groups: healthy older adults; chronic obstructive pulmonary disease, Parkinson's disease, multiple sclerosis, proximal femoral fracture and congestive heart failure. DMOs extracted from the monitoring device will be compared with those from different reference systems, chosen according to the contexts of observation. Questionnaires and interviews will evaluate the users' perspective on the deployed technology and relevance of the mobility assessment. Ethics and dissemination The study has been granted ethics approval by the centre's committees (London-Bloomsbury Research Ethics committee; Helsinki Committee, Tel Aviv Sourasky Medical Centre; Medical Faculties of The University of Tübingen and of the University of Kiel). Data and algorithms will be made publicly available. Trial registration number ISRCTN (12246987).

KW - Parkinson-s disease

KW - chronic airways disease

KW - heart failure

KW - hip

KW - multiple sclerosis

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ER -

Technical validation of real-world monitoring of gait: A multicentric observational study

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