Timed Up and Go evaluation with wearable devices: Validation in Parkinson's disease

The Timed Up and Go test (TUG) is used to assess individual mobility. It evaluates static and dynamic balance by means of the total time required to complete the test, usually measured by a stopwatch. In recent years tools based on portable inertial measurement units (IMU) for clinical application a...

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Published inJournal of bodywork and movement therapies Vol. 22; no. 2; pp. 390 - 395
Main Authors Kleiner, Ana Francisca Rozin, Pacifici, Ilaria, Vagnini, Alessandro, Camerota, Filippo, Celletti, Claudia, Stocchi, Fabrizio, De Pandis, Maria Francesca, Galli, Manuela
Format Journal Article
LanguageEnglish
Published United States Elsevier Ltd 01.04.2018
Subjects
Accuracy
Aged
Aged, 80 and over
Disability Evaluation
Female
Gait - physiology
Humans
Inertial measurement unit
Instrumented Timed Up and Go test
Male
Middle Aged
Parkinson Disease - physiopathology
Parkinson Disease - rehabilitation
Parkinson's disease
Physical Therapy Modalities - standards
Postural Balance - physiology
Precision
Reliability
Reproducibility of Results
Wearable Electronic Devices
Wearable system
Accuracy
Parkinson's disease
Precision
Wearable system
Instrumented Timed Up and Go test
Inertial measurement unit
Reliability
Online AccessGet full text
ISSN1360-8592
1532-9283
1532-9283
DOI10.1016/j.jbmt.2017.07.006

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Abstract The Timed Up and Go test (TUG) is used to assess individual mobility. It evaluates static and dynamic balance by means of the total time required to complete the test, usually measured by a stopwatch. In recent years tools based on portable inertial measurement units (IMU) for clinical application are increasingly available on the market. More specifically, a tool (hardware and dedicated software) to quantify the TUG test based on IMU is now available. However, it has not yet been validated in subjects with Parkinson's disease (PD). Thus, the aim of this study is to compare measurements from instrumented TUG tests (or iTUG) acquired by an IMU with those obtained using an optoelectronic system (the gold standard) and by a stopwatch, to gain an in-depth understanding of IMU behavior in computing iTUG in subjects with PD. To do this, three TUG test trials were carried out on 30 subjects with PD and measured with all three systems simultaneously. System agreements were evaluated using Intraclass Correlation Coefficient and Bland-Altman plots. The device tested showed excellent reliability, accuracy and precision in quantifying total TUG test duration. Since TUG is a widely used test in rehabilitation settings, its automatic quantification through IMUs could potentially improve the quality of assessments in the quantification of PD gait ability. •The Timed Up and Go test (TUG) is a widely spread clinical test; its automatic quantification (iTUG) is required.•In subjects with Parkinson's disease the iTUG shows excellent reliability, accuracy and precision vs gold standard systems.•The iTUG Test Time shows several benefits compared to the optoelectronic system and to the stopwatch.
AbstractList The Timed Up and Go test (TUG) is used to assess individual mobility. It evaluates static and dynamic balance by means of the total time required to complete the test, usually measured by a stopwatch. In recent years tools based on portable inertial measurement units (IMU) for clinical application are increasingly available on the market. More specifically, a tool (hardware and dedicated software) to quantify the TUG test based on IMU is now available. However, it has not yet been validated in subjects with Parkinson's disease (PD). Thus, the aim of this study is to compare measurements from instrumented TUG tests (or iTUG) acquired by an IMU with those obtained using an optoelectronic system (the gold standard) and by a stopwatch, to gain an in-depth understanding of IMU behavior in computing iTUG in subjects with PD. To do this, three TUG test trials were carried out on 30 subjects with PD and measured with all three systems simultaneously. System agreements were evaluated using Intraclass Correlation Coefficient and Bland-Altman plots. The device tested showed excellent reliability, accuracy and precision in quantifying total TUG test duration. Since TUG is a widely used test in rehabilitation settings, its automatic quantification through IMUs could potentially improve the quality of assessments in the quantification of PD gait ability.The Timed Up and Go test (TUG) is used to assess individual mobility. It evaluates static and dynamic balance by means of the total time required to complete the test, usually measured by a stopwatch. In recent years tools based on portable inertial measurement units (IMU) for clinical application are increasingly available on the market. More specifically, a tool (hardware and dedicated software) to quantify the TUG test based on IMU is now available. However, it has not yet been validated in subjects with Parkinson's disease (PD). Thus, the aim of this study is to compare measurements from instrumented TUG tests (or iTUG) acquired by an IMU with those obtained using an optoelectronic system (the gold standard) and by a stopwatch, to gain an in-depth understanding of IMU behavior in computing iTUG in subjects with PD. To do this, three TUG test trials were carried out on 30 subjects with PD and measured with all three systems simultaneously. System agreements were evaluated using Intraclass Correlation Coefficient and Bland-Altman plots. The device tested showed excellent reliability, accuracy and precision in quantifying total TUG test duration. Since TUG is a widely used test in rehabilitation settings, its automatic quantification through IMUs could potentially improve the quality of assessments in the quantification of PD gait ability.
The Timed Up and Go test (TUG) is used to assess individual mobility. It evaluates static and dynamic balance by means of the total time required to complete the test, usually measured by a stopwatch. In recent years tools based on portable inertial measurement units (IMU) for clinical application are increasingly available on the market. More specifically, a tool (hardware and dedicated software) to quantify the TUG test based on IMU is now available. However, it has not yet been validated in subjects with Parkinson's disease (PD). Thus, the aim of this study is to compare measurements from instrumented TUG tests (or iTUG) acquired by an IMU with those obtained using an optoelectronic system (the gold standard) and by a stopwatch, to gain an in-depth understanding of IMU behavior in computing iTUG in subjects with PD. To do this, three TUG test trials were carried out on 30 subjects with PD and measured with all three systems simultaneously. System agreements were evaluated using Intraclass Correlation Coefficient and Bland-Altman plots. The device tested showed excellent reliability, accuracy and precision in quantifying total TUG test duration. Since TUG is a widely used test in rehabilitation settings, its automatic quantification through IMUs could potentially improve the quality of assessments in the quantification of PD gait ability. Highlights: • The Timed Up and Go test (TUG) is a widely spread clinical test; its automatic quantification (iTUG) is required. • In subjects with Parkinson's disease the iTUG shows excellent reliability, accuracy and precision vs gold standard systems. • The iTUG Test Time shows several benefits compared to the optoelectronic system and to the stopwatch.
The Timed Up and Go test (TUG) is used to assess individual mobility. It evaluates static and dynamic balance by means of the total time required to complete the test, usually measured by a stopwatch. In recent years tools based on portable inertial measurement units (IMU) for clinical application are increasingly available on the market. More specifically, a tool (hardware and dedicated software) to quantify the TUG test based on IMU is now available. However, it has not yet been validated in subjects with Parkinson's disease (PD). Thus, the aim of this study is to compare measurements from instrumented TUG tests (or iTUG) acquired by an IMU with those obtained using an optoelectronic system (the gold standard) and by a stopwatch, to gain an in-depth understanding of IMU behavior in computing iTUG in subjects with PD. To do this, three TUG test trials were carried out on 30 subjects with PD and measured with all three systems simultaneously. System agreements were evaluated using Intraclass Correlation Coefficient and Bland-Altman plots. The device tested showed excellent reliability, accuracy and precision in quantifying total TUG test duration. Since TUG is a widely used test in rehabilitation settings, its automatic quantification through IMUs could potentially improve the quality of assessments in the quantification of PD gait ability. •The Timed Up and Go test (TUG) is a widely spread clinical test; its automatic quantification (iTUG) is required.•In subjects with Parkinson's disease the iTUG shows excellent reliability, accuracy and precision vs gold standard systems.•The iTUG Test Time shows several benefits compared to the optoelectronic system and to the stopwatch.
The Timed Up and Go test (TUG) is used to assess individual mobility. It evaluates static and dynamic balance by means of the total time required to complete the test, usually measured by a stopwatch. In recent years tools based on portable inertial measurement units (IMU) for clinical application are increasingly available on the market. More specifically, a tool (hardware and dedicated software) to quantify the TUG test based on IMU is now available. However, it has not yet been validated in subjects with Parkinson's disease (PD). Thus, the aim of this study is to compare measurements from instrumented TUG tests (or iTUG) acquired by an IMU with those obtained using an optoelectronic system (the gold standard) and by a stopwatch, to gain an in-depth understanding of IMU behavior in computing iTUG in subjects with PD. To do this, three TUG test trials were carried out on 30 subjects with PD and measured with all three systems simultaneously. System agreements were evaluated using Intraclass Correlation Coefficient and Bland-Altman plots. The device tested showed excellent reliability, accuracy and precision in quantifying total TUG test duration. Since TUG is a widely used test in rehabilitation settings, its automatic quantification through IMUs could potentially improve the quality of assessments in the quantification of PD gait ability.
Author Vagnini, Alessandro
Celletti, Claudia
Camerota, Filippo
Stocchi, Fabrizio
Galli, Manuela
Pacifici, Ilaria
Kleiner, Ana Francisca Rozin
De Pandis, Maria Francesca
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  givenname: Filippo
  surname: Camerota
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  givenname: Claudia
  surname: Celletti
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  organization: Physical Medicine and Rehabilitation, Umberto I Hospital, Rome, Italy
– sequence: 6
  givenname: Fabrizio
  surname: Stocchi
  fullname: Stocchi, Fabrizio
  email: fabrizio.stocchi@sanraffaele.it
  organization: IRCCS San Raffaele Pisana, Via della Pisana, Tosinvest Sanità, Rome, Italy
– sequence: 7
  givenname: Maria Francesca
  surname: De Pandis
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  givenname: Manuela
  surname: Galli
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  email: manuela.galli@polimi.it
  organization: Department of Electronics, Information and Bioengineering, Politecnico di Milano, Milan, Italy
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Issue 2
Keywords Accuracy
Parkinson's disease
Precision
Wearable system
Instrumented Timed Up and Go test
Inertial measurement unit
Reliability
Language English
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Snippet The Timed Up and Go test (TUG) is used to assess individual mobility. It evaluates static and dynamic balance by means of the total time required to complete...
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SubjectTerms Accuracy
Aged
Aged, 80 and over
Disability Evaluation
Female
Gait - physiology
Humans
Inertial measurement unit
Instrumented Timed Up and Go test
Male
Middle Aged
Parkinson Disease - physiopathology
Parkinson Disease - rehabilitation
Parkinson's disease
Physical Therapy Modalities - standards
Postural Balance - physiology
Precision
Reliability
Reproducibility of Results
Wearable Electronic Devices
Wearable system
Title Timed Up and Go evaluation with wearable devices: Validation in Parkinson's disease
URI https://www.clinicalkey.com/#!/content/1-s2.0-S1360859217302061
https://dx.doi.org/10.1016/j.jbmt.2017.07.006
https://www.ncbi.nlm.nih.gov/pubmed/29861240
https://www.proquest.com/docview/2049935323
https://www.proquest.com/docview/2138569599
Volume 22
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