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Title: | Development of a Biomechanical Device for Parameter Quantification Associated with the Sit-to-Stand Movement | Authors: | Oliveira, Natacha Carvalho, Filipe Laíns, Jorge Rasteiro, Deolinda Roseiro, Luís Manuel |
Keywords: | motor rehabilitation; sit-to-stand movement; biomechanics | Issue Date: | 7-Feb-2023 | Publisher: | MDPI | Project: | UIDB/00285/2020 LA/P/0112/2020 Mais Centro Program, Center Region Coordination Committee of EU through the European Regional Development Fund |
Serial title, monograph or event: | Sensors | Volume: | 23 | Issue: | 4 | Abstract: | The "sit-to-stand" (STS) movement is essential during activities of daily living (ADL). In individuals with physical-motor diseases, its execution and repetition increases activity levels, which is crucial for a good motor rehabilitation process and daily training. Interestingly, there are no sit-to-stand devices that allow a quantitative assessment of the key variables that happen during STS, and there is a need to come up with a new device. This work presents a developed biomechanical support device that measures the force of the upper limbs during the STS movement, aiming to motivate and encourage people undergoing physical therapy in the lower limbs. The device uses two instrumented beams and allows real-time visualization of both arms' applied force and it records the data for post-processing. The device was tested with a well-defined protocol on a group of 34 healthy young volunteers and an elderly group of 16 volunteers from a continuing care unit. The system showed robust strength and stiffness, good usability, and a user interface that acquired and recorded data effectively, allowing one to observe force-time during the execution of the movement through the application interface developed and in recording data for post-processing. Asymmetries in the applied forces in the STS movement between the upper limbs were identified, particularly in volunteers of the continuing care unit. From the application and the registered data, it can be observed that volunteers with motor problems in the lower limbs performed more strength in their arms to compensate. As expected, the maximum average strength of the healthy volunteers (both arms: force = 105 Newton) was higher than that of the volunteers from the continuing care unit (right arm: force = 54 Newton; left arm: force = 56 Newton). Among others, moderate correlations were observed between weight-applied and height-applied forces and there was a moderately high correlation between the Sequential Clinical Assessment of Respiratory Function (SCAR-F score) and time to perform the movement. Based on the obtained results, the developed device can be a helpful tool for monitoring the evaluation of a patient with limitations in the upper and lower limbs. In addition, the developed system allows for easy evolution, such as including a barometric platform and implementing serious games that can stimulate the execution of the STS movement. | URI: | https://hdl.handle.net/10316/114016 | ISSN: | 1424-8220 | DOI: | 10.3390/s23041837 | Rights: | openAccess |
Appears in Collections: | I&D CEMMPRE - Artigos em Revistas Internacionais FMUC Medicina - Artigos em Revistas Internacionais |
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Development-of-a-Biomechanical-Device-for-Parameter-Quantification-Associated-with-the-SittoStand-MovementSensors.pdf | 2.51 MB | Adobe PDF | View/Open |
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