scholarly journals Reliability and validity of the inertial sensor-based Timed “Up and Go” test in individuals affected by stroke

2016 ◽  
Vol 53 (5) ◽  
pp. 599-610 ◽  
Author(s):  
Seline Wüest ◽  
Fabien Massé ◽  
Kamiar Aminian ◽  
Roman Gonzenbach ◽  
Eling D. de Bruin
Keyword(s):  
Inertial Sensor ◽  
Reliability And Validity ◽  
Timed Up And Go

scholarly journals Reliability and validity of an adapted hip abductor strength measure as a potential new fall risk assessment for older persons: a study protocol

2021 ◽  
Vol 21 (1) ◽  
Author(s):  
Simone Chantal Gafner ◽  
Caroline Henrice Germaine Bastiaenen ◽  
Emmanuel Biver ◽  
Serge Ferrari ◽  
Lara Allet
Keyword(s):  
Fall Risk ◽  
Reliability And Validity ◽  
Criterion Validity ◽  
Risk Assessments ◽  
Index Test ◽  
Timed Up And Go ◽  
External Criterion ◽  
Closed Chain ◽  
Hip Abductor ◽  
Abductor Strength

Abstract Background Persons aged ≥ 65 years are currently the world’s fastest growing age group. An important complication of age is the increasing risk of falls. Falls have multifactorial etiology and modifiable risk factors open for interventions in prevention and rehabilitation, are of high interest. In this context, strong hip abductors seem to be important to prevent falls. A newly adapted measurement device to measure hip abductor strength (HAS) in a closed chain position was developed. We aim to assess feasibility, intra- and inter-tester reliability and construct and criterion validity of the new measure. Methods In two subsequent parts a feasibility, reliability and validity study with an adapted measurement instrument for the assessment of HAS (index test) in a closed chain position in persons aged ≥ 65 years will be conducted. Part I investigates feasibility of the measure in clinical settings as well as reliability of the new HAS test (n = 26). Part II evaluates construct and criterion validity (n = 169). Construct validity will be assessed cross-sectional, criterion validity by comparison with prospectively followed up fall history for 12 months (external criterion) and other functional fall risk assessments (Short Physical Performance Battery, Timed Up and Go test, usual gait speed and hand grip strength). Discussion Results of feasibility, will give insight in its applicability in daily clinical life and clinimetric properties will show if measurements of HAS in a closed chain position should be encouraged to include in fall risk assessments in older adults.

PP-176 Reliability and Validity of Timed Up and Go in Coronary Heart Disease and Heart Failure

2016 ◽  
Vol 117 ◽  
pp. S104
Author(s):  
Mohammed Khalaf Alanazi ◽  
Basel Ahmad Alenazy ◽  
Rakan Nazer ◽  
Ali Albarrati
Keyword(s):  
Heart Failure ◽  
Coronary Heart Disease ◽  
Heart Disease ◽  
Reliability And Validity ◽  
Timed Up And Go

scholarly journals Reliability and Validity of a Wireless Inertial Sensor for Assessing Vertical Jump Biomechanics

2018 ◽  
Vol 50 (5S) ◽  
pp. 435
Author(s):  
Joseph J. DeVita ◽  
Ian J. Kremenic ◽  
Karl F. Orishimo ◽  
Malachy P. McHugh
Keyword(s):  
Inertial Sensor ◽  
Vertical Jump ◽  
Reliability And Validity

THUR 229 Inertial sensors improve traditional gait monitoring in HSP patients

2018 ◽  
Vol 89 (10) ◽  
pp. A33.2-A33
Author(s):  
McNamara Mary ◽  
Segamogaite Ruta ◽  
Shaw Pamela ◽  
McDermott Christopher ◽  
Mazzá Claudia ◽  
...  
Keyword(s):  
Longitudinal Study ◽  
Inertial Sensors ◽  
Inertial Sensor ◽  
Brief Pain Inventory ◽  
Timed Up And Go ◽  
Mild Disease ◽  
Gait Characteristics ◽  
Gait Monitoring ◽  
Ashworth Score

BackgroundHSP is characterised by spasticity and progressive gait impairment. There’s no reliable way to monitor gait deterioration during clinics. Optoelectronic systems have demonstrated differing characteristics between gait of HSP patients and controls. They’re expensive and impractical for use in clinic settings. Inertial sensors haven’t been used to characterise HSP gaitObjectivesStudy use of inertial sensors to identify gait characteristics that differentiate mild HSP patients from controls. To identify a gait based biomarker which can be used to monitor disease progression in a longitudinal study.MethodsNeurological examination, SPRS, Modified Ashworth score, brief pain inventory were undertaken. Instrumented timed up and go (iTUG) and instrumented 10 metre walk tests (i10) wearing an inertial sensor during clinic appointments at 6 month intervals.ResultsGait variables differentiating between patients and controls, including those with mild disease, were identified. Parameters differentiating between patients with SPG4 and SPG7 mutations were found. 8 patients were re-assessed after 6 months. Analysis did not show gait deterioration.ConclusionInertial sensors can detect differences between HSP patients and controls, including those mildly affected. They can also differentiate between patients with different mutations. Further follow up data is needed to assess whether inertial sensors can predict future gait deterioration.

The timed “up and go” test: Reliability and validity in persons with unilateral lower limb amputation

1999 ◽  
Vol 80 (7) ◽  
pp. 825-828 ◽  
Author(s):  
Tanneke Schoppen ◽  
Annemarijke Boonstra ◽  
Johan W. Groothoff ◽  
Jaap de Vries ◽  
Ludwig N.H. Göeken ◽  
...  
Keyword(s):  
Lower Limb ◽  
Reliability And Validity ◽  
Lower Limb Amputation ◽  
Test Reliability ◽  
Limb Amputation ◽  
Timed Up And Go

scholarly journals Random Forest for Automatic Feature Importance Estimation and Selection for Explainable Postural Stability of a Multi-Factor Clinical Test

Sensors ◽  
2021 ◽  
Vol 21 (17) ◽  
pp. 5930
Author(s):  
Tomas Mendoza ◽  
Chia-Hsuan Lee ◽  
Chien-Hua Huang ◽  
Tien-Lung Sun
Keyword(s):  
Random Forest ◽  
Postural Stability ◽  
Inertial Sensor ◽  
Short Form ◽  
Sensor Data ◽  
Permutation Entropy ◽  
Elderly Subjects ◽  
Clinical Test ◽  
Timed Up And Go ◽  
Axial Acceleration

Falling is a common incident that affects the health of elder adults worldwide. Postural instability is one of the major contributors to this problem. In this study, we propose a supplementary method for measuring postural stability that reduces doctor intervention. We used simple clinical tests, including the timed-up and go test (TUG), short form berg balance scale (SFBBS), and short portable mental status questionnaire (SPMSQ) to measure different factors related to postural stability that have been found to increase the risk of falling. We attached an inertial sensor to the lower back of a group of elderly subjects while they performed the TUG test, providing us with a tri-axial acceleration signal, which we used to extract a set of features, including multi-scale entropy (MSE), permutation entropy (PE), and statistical features. Using the score for each clinical test, we classified our participants into fallers or non-fallers in order to (1) compare the features calculated from the inertial sensor data, and (2) compare the screening capabilities of the multifactor clinical test against each individual test. We use random forest to select features and classify subjects across all scenarios. The results show that the combination of MSE and statistic features overall provide the best classification results. Meanwhile, PE is not an important feature in any scenario in our study. In addition, a t-test shows that the multifactor test of TUG and BBS is a better classifier of subjects in this study.

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