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S.L. Kok1, V. Hood-Moore1
1University of Nottingham, Nottingham, United Kingdom
Background: Floor-sitting is a common culture in Asian and the Middle East countries. Floor-sitting positions such as cross-legged sitting on the floor, kneel-sitting and crook-sitting are adopted during family meals in Chinese, Japanese populations, during prayer among Buddhist and Muslim populations and during bathing among Indian population respectively. However, there are limited biomechanical studies on getting down to the floor-sitting positions, despite is common in Asian and the Middle East countries.Therefore, there is no development of evidence-based training strategies to rehabilitation patients to get down to the floor. There is no standardized method for capturing and measuring the motion of getting down to the floor, therefore there is no established kinematics and kinetics data of this motion.Thus, two-dimensional (2D) motion analysis mobile applications (apps) may have potential in capturing the movement patterns of the motion.
Purpose: We aimed to identify the movement patterns of the lower limbs during the motion of getting down to cross-legged sitting on the floor and determine the variability of the movement patterns and explore the feasibility of using a mobile app in capturing the motion.
Methods: A feasibility study with a cross-sectional observational design. Using a tablet-based app, video recordings of 10 repetitions of getting down to floor motion of five healthy adults were taken and analysed retrospectively. Phases and movement patterns in the phases were identified by primary researcher using the playback and slow motion features in the app. 25 out of 50 video recordings of five participants were randomly selected to be reviewed and analysed for inter-rater reliability by two independent raters. The Cohen’s Kappa value was calculated to determine the level of agreement between the raters and the primary researcher and between the two raters. A research diary was kept to record the duration of data collection, data analysis and research process.
Results: Three phases were identified by the researcher: Pre-descent, Descent and Seated phases. There were 5 movement patterns in Pre-descent phase, 3 movement patterns in Descent phase and 3 movement patterns in Seated phase were identified respectively. Moderate (k-value=0.52) to almost perfect of agreement (k-value=1.00) between researcher and two raters on the phases and movement patterns were identified in the 25 video recordings in 5 participants were achieved. The average duration of video recording for each participant was 6.4 minutes. The average duration of video analysis of movement pattern in each trial was 3.0 minutes.
Conclusions: 2D motion analysis app is feasible and reliable in capturing the movement patterns of lower limbs in getting down to the floor motion.
Implications: If the 2D motion analysis mobile app and the data collection and data analysis method are proved to be reliable and valid, a standardised protocol can be developed so that pilot study or larger-scale study can be done to collect more concise biomechanical data of getting down to the floor motion from different populations in future. Then it will benefit the development of evidence-based rehabilitation and training strategies for getting down to the floor motion.
Funding acknowledgements: The research was unfunded.
Keywords:
Getting down to the floor motion
Floor sitting training
2D motion analysis mobile application
Getting down to the floor motion
Floor sitting training
2D motion analysis mobile application
Topics:
Disability & rehabilitation
Disability & rehabilitation
Did this work require ethics approval? Yes
Institution: University of Nottingham
Committee: Research Ethics Committee of the Faculty Medicine and Health Sciences
Ethics number: PT210317
All authors, affiliations and abstracts have been published as submitted.