AI Article Synopsis
- The study investigates the importance of rate of torque development (RTD) in enhancing physical function among older adults (OAs) compared to younger adults (YAs).
- It assesses neuromuscular function, voluntary activation (VA), and how these factors relate to various mobility tests in both age groups, finding key differences in RTD indices.
- Results indicate that while certain measures of RTD are not effective for OAs, others normalized to stimulated torque parameters may help identify central mechanisms behind RTD impairments in this population.
Article Abstract
There is increasing appreciation of the role of rate of torque development (RTD) in physical function of older adults (OAs). This study compared various RTD strategies and electromyography (EMG) in the knee extensors and focused on discriminating groups with potential limitations in voluntary activation (VA) and associations of different RTD indices with functional tests that may be affected by VA in OAs. Neuromuscular function was assessed in 20 younger adults (YAs, 22.0 ± 1.7 years) and 50 OAs (74.4 ± 7.0 years). Isometric ballistic and peak torque during maximal voluntary contractions (pkT), doublet stimulation and surface EMG were assessed and used to calculate VA during pkT and RTD and rate of EMG rise during ballistic contractions. Select mobility tests (e.g., gait speed, 5× chair rise) were also assessed in the OAs. Voluntary RTD and RTD normalized to pkT, doublet torque, and peak doublet RTD were compared. Rate of EMG rise and voluntary RTD normalized to pkT did not differ between OAs and YAs, nor were they associated with functional test scores. Voluntary RTD indices normalized to stimulated torque parameters were significantly associated with VA (r = 0.319-0.459), and both indices were significantly lower in OAs vs YAs (all p < 0.020). These RTD indices showed significant association with the majority of mobility tests, but there was no clear advantage among them. Thus, voluntary RTD normalized to pkT was ill-suited for use in OAs, while results suggests that voluntary RTD normalized to stimulated torque parameters may be useful for identifying central mechanisms of RTD impairment in OAs.Clinical trial registration number NCT02505529; date of registration 07/22/2015.
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