Litcius/Paper detail

Feasibility and validity of the push-up test for synchronous and asynchronous strength tele-assessment in spinal cord injury individuals with paraplegia

Rodrigo Rodrigues Gomes Costa, Jefferson Rodrigues Dorneles, João Henrique Carneiro Leão Veloso, Carlos Gonçalves, Frederico Ribeiro Neto

2022Journal of Spinal Cord Medicine12 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: This study aimed to determine whether the synchronous and asynchronous push-up tele-assessment in individuals with spinal cord injury (SCI) is feasible and valid and to identify the relationship between the participants' self-reported asynchronous strength tele-assessment and asynchronous push-up tele-assessment. STUDY DESIGN: Cross-sectional study. METHODS: Thirty-three men and women with SCI were included in this study. The participants were assessed using the one-maximum repetition test (1RM), the maximum repetitions with 60% of 1RM (MRT) of the bench press exercise, and synchronous and asynchronous push-up tele-assessment. The videos and the total repetitions performed were recorded. The primary outcomes were 1RM, MRT, synchronous push-up tele-assessment and asynchronous volume loads, and the participants' self-reported asynchronous strength tele-assessment volume load. RESULTS: < 0.001). The difference between the synchronous push-up tele-assessment and asynchronous volume load means was 254.9 kg, and the interval around the differences was 1856.1 kg. The difference between asynchronous push-up tele-assessment and participants' self-reported asynchronous strength tele-assessment means was -239.4 kg, and the interval around these was 1884.1 kg. CONCLUSION: The synchronous push-up tele-assessment is a feasible and valid way to assess the maximum resistance strength of individuals with SCI. Although the asynchronous push-up tele-assessment demonstrated excellent and significant correlations with the synchronous push-up tele-assessment and participants' self-reported asynchronous strength tele-assessment, the test repetitions and the volume loads were underestimated by 15.5% (synchronous push-up tele-assessment vs. asynchronous) and overestimated by 17.3% (asynchronous push-up tele-assessment vs. participants' self-reported asynchronous strength tele-assessment), and the effect sizes ranged from 0.19-0.38. The authors suggest emphasizing the criteria of repetition validity to reduce test error.

Topics & Concepts

Asynchronous communicationSpinal cord injuryParaplegiaPhysical medicine and rehabilitationSpinal cordComputer scienceTest (biology)PsychologyMedicineComputer networkNeurosciencePaleontologyBiologySpinal Cord Injury ResearchStroke Rehabilitation and RecoveryMuscle activation and electromyography studies