Litcius/Paper detail

Assessing the Validity and Reliability of A Low-Cost Microcontroller-Based Load Cell Amplifier for Measuring Lower Limb and Upper Limb Muscular Force

Justin Gaudet, Grant Handrigan

2020Sensors11 citationsDOIOpen Access PDF

Abstract

Lower and upper limb maximum muscular force development is an important indicator of physical capacity. Manual muscle testing, load cell coupled with a signal conditioner, and handheld dynamometry are three widely used techniques for measuring isometric muscle strength. Recently, there is a proliferation of low-cost tools that have potential to be used to measure muscle strength. This study examined both the criterion validity, inter-day reliability and intra-day reliability of a microcontroller-based load cell amplifier for quantifying muscle strength. To do so, a low-cost microcontroller-based load cell amplifier for measuring lower and upper limb maximal voluntary isometric muscular force was compared to a commercial grade signal conditioner and to a handheld dynamometer. The results showed that the microcontroller-based load cell amplifier correlated nearly perfectly (Pearson's R-values between 0.947 to 0.992) with the commercial signal conditioner and the handheld dynamometer, and showed good to excellent association when calculating ICC scores, with values of 0.9582 [95% C.I.: 0.9297-0.9752] for inter-day reliability and of 0.9269 [95% C.I.: 0.8909-0.9533] for session one, intra-day reliability. Such results may have implications for how the evaluation of muscle strength measurement is conducted in the future, particularly for offering a commercial-like grade quality, low cost, portable and flexible option.

Topics & Concepts

DynamometerIsometric exerciseLoad cellReliability (semiconductor)MicrocontrollerAmplifierSignal conditioningSIGNAL (programming language)Computer scienceSimulationPhysical therapyEngineeringElectrical engineeringAutomotive engineeringComputer hardwareMedicineTelecommunicationsPhysicsBandwidth (computing)Programming languagePower (physics)Quantum mechanicsMuscle activation and electromyography studiesCardiovascular and exercise physiologySports Performance and Training