Validity and reliability of the Valkyria Trainer Balance® portable force platform in its isometric mode

Álvaro Huerta Ojeda; Rodrigo Beltrán-Inostroza; María Mercedes Yeomans-Cabrera; Maximiliano Torres-Banduc

doi:10.3233/IES-240022

Validity and reliability of the Valkyria Trainer Balance^® portable force platform in its isometric mode

Álvaro Huerta Ojeda, Rodrigo Beltrán-Inostroza, María Mercedes Yeomans-Cabrera, Maximiliano Torres-Banduc

Universidad de las Américas - Chile

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

Abstract

BACKGROUND: Isometric maximal voluntary force (IMVF) is essential for individuals' health and physical performance. Therefore, there is a need for valid and reliable devices to assess IMVF. OBJECTIVE: To determine the validity and reliability of the Valkyria Trainer Balance^® portable force platform in its isometric mode. METHODS: Fifty-eight physically healthy individuals (30 men and 28 women) participated in the study. A repeated measures design was used to compare the inter-day test-retest reliability of peak force. The validity of the Valkyria Trainer Balance^® force platform was determined by comparing the peak force with the ArtOficio^® force platform. The analysis consisted of the intraclass correlation coefficient (ICC), standard error of measurement (SEM), and coefficient of variation (CV). A CV ≤ 10% and ICC ≥ 0.80 were considered acceptable reliability, while a ≤ 5% and ICC ≥ 0.90 were regarded as high reliability. RESULTS: CV the peak force showed high test-retest inter-day reliability (CV = 4.3% and ICC = 0.99). When comparing both force platforms, there was a 1.1% difference between the two devices. CONCLUSIONS: The results of this study demonstrate that the Valkyria Trainer Balance^® force platform is valid and reliable for assessing IMVF in physically healthy individuals.

Original language	English
Pages (from-to)	337-348
Number of pages	12
Journal	Isokinetics and Exercise Science
Volume	32
Issue number	4
DOIs	https://doi.org/10.3233/IES-240022
State	Published - 8 Oct 2024

Keywords

equipment and supplies
muscle contraction
reproducibility of results
Validation study

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title = "Validity and reliability of the Valkyria Trainer Balance{\textregistered} portable force platform in its isometric mode",

abstract = "BACKGROUND: Isometric maximal voluntary force (IMVF) is essential for individuals' health and physical performance. Therefore, there is a need for valid and reliable devices to assess IMVF. OBJECTIVE: To determine the validity and reliability of the Valkyria Trainer Balance{\textregistered} portable force platform in its isometric mode. METHODS: Fifty-eight physically healthy individuals (30 men and 28 women) participated in the study. A repeated measures design was used to compare the inter-day test-retest reliability of peak force. The validity of the Valkyria Trainer Balance{\textregistered} force platform was determined by comparing the peak force with the ArtOficio{\textregistered} force platform. The analysis consisted of the intraclass correlation coefficient (ICC), standard error of measurement (SEM), and coefficient of variation (CV). A CV ≤ 10% and ICC ≥ 0.80 were considered acceptable reliability, while a ≤ 5% and ICC ≥ 0.90 were regarded as high reliability. RESULTS: CV the peak force showed high test-retest inter-day reliability (CV = 4.3% and ICC = 0.99). When comparing both force platforms, there was a 1.1% difference between the two devices. CONCLUSIONS: The results of this study demonstrate that the Valkyria Trainer Balance{\textregistered} force platform is valid and reliable for assessing IMVF in physically healthy individuals.",

keywords = "equipment and supplies, muscle contraction, reproducibility of results, Validation study",

author = "{Huerta Ojeda}, {\'A}lvaro and Rodrigo Beltr{\'a}n-Inostroza and Yeomans-Cabrera, {Mar{\'i}a Mercedes} and Maximiliano Torres-Banduc",

year = "2024",

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AU - Huerta Ojeda, Álvaro

AU - Beltrán-Inostroza, Rodrigo

AU - Yeomans-Cabrera, María Mercedes

AU - Torres-Banduc, Maximiliano

PY - 2024/10/8

Y1 - 2024/10/8

N2 - BACKGROUND: Isometric maximal voluntary force (IMVF) is essential for individuals' health and physical performance. Therefore, there is a need for valid and reliable devices to assess IMVF. OBJECTIVE: To determine the validity and reliability of the Valkyria Trainer Balance® portable force platform in its isometric mode. METHODS: Fifty-eight physically healthy individuals (30 men and 28 women) participated in the study. A repeated measures design was used to compare the inter-day test-retest reliability of peak force. The validity of the Valkyria Trainer Balance® force platform was determined by comparing the peak force with the ArtOficio® force platform. The analysis consisted of the intraclass correlation coefficient (ICC), standard error of measurement (SEM), and coefficient of variation (CV). A CV ≤ 10% and ICC ≥ 0.80 were considered acceptable reliability, while a ≤ 5% and ICC ≥ 0.90 were regarded as high reliability. RESULTS: CV the peak force showed high test-retest inter-day reliability (CV = 4.3% and ICC = 0.99). When comparing both force platforms, there was a 1.1% difference between the two devices. CONCLUSIONS: The results of this study demonstrate that the Valkyria Trainer Balance® force platform is valid and reliable for assessing IMVF in physically healthy individuals.

AB - BACKGROUND: Isometric maximal voluntary force (IMVF) is essential for individuals' health and physical performance. Therefore, there is a need for valid and reliable devices to assess IMVF. OBJECTIVE: To determine the validity and reliability of the Valkyria Trainer Balance® portable force platform in its isometric mode. METHODS: Fifty-eight physically healthy individuals (30 men and 28 women) participated in the study. A repeated measures design was used to compare the inter-day test-retest reliability of peak force. The validity of the Valkyria Trainer Balance® force platform was determined by comparing the peak force with the ArtOficio® force platform. The analysis consisted of the intraclass correlation coefficient (ICC), standard error of measurement (SEM), and coefficient of variation (CV). A CV ≤ 10% and ICC ≥ 0.80 were considered acceptable reliability, while a ≤ 5% and ICC ≥ 0.90 were regarded as high reliability. RESULTS: CV the peak force showed high test-retest inter-day reliability (CV = 4.3% and ICC = 0.99). When comparing both force platforms, there was a 1.1% difference between the two devices. CONCLUSIONS: The results of this study demonstrate that the Valkyria Trainer Balance® force platform is valid and reliable for assessing IMVF in physically healthy individuals.

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KW - muscle contraction

KW - reproducibility of results

KW - Validation study

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ER -

Validity and reliability of the Valkyria Trainer Balance^® portable force platform in its isometric mode

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