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

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

Author Information

Rodrigo Rodrigues Gomes Costa: SARAH Network of Rehabilitation Hospitals, Brasilia, Brazil. ORCID
Jefferson Rodrigues Dorneles: SARAH Network of Rehabilitation Hospitals, Brasilia, Brazil.
João Henrique Carneiro Leão Veloso: SARAH Network of Rehabilitation Hospitals, Brasilia, Brazil.
Carlos Wellington Passos Gonçalves: SARAH Network of Rehabilitation Hospitals, Brasilia, Brazil.
Frederico Ribeiro Neto: SARAH Network of Rehabilitation Hospitals, Brasilia, Brazil. ORCID

PMID: 36149347 DOI: 10.1080/10790268.2022.2124651

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: The synchronous push-up tele-assessment and asynchronous volume loads presented significant correlations with 1RM (0.73 and 0.45, < 0.001, respectively) and MRT volume loads (0.87 and 0.66, < 0.001, respectively). The asynchronous push-up tele-assessment presented significant correlations with the synchronous version (intraclass correlation coefficient, ICC = 0.86; 95% CI: 0.72-0.93, < 0.001) and participants' self-reported asynchronous strength tele-assessment volume loads (ICC = 0.88; 95% CI: 0.75-0.94, < 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.

Exercise Muscle strength Pandemics Physical education and training Spinal cord injuries Task performance and analysis

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Humans

Spinal Cord Injuries

Male

Female

Adult

Middle Aged

Paraplegia

Feasibility Studies

Muscle Strength

Exercise Test

Cross-Sectional Studies

Telemedicine

Journal Article

OpenLB
Open Library of Bioscience