Effect of age and gender on sEMG signals and force steadiness

Abstract

Challenges encountered during daily activities are easily overcome by young adults but may be potential risk for falls and injuries among the elderly due to age-associated sensorimotor deficits. To mitigate these risks, early detection of neuromuscular changes is essential and it is important for these to be cost-efficient, non-invasive, high throughput and non-hazardous. Electromyogram (EMG) is a non-invasive recording of the muscle activity that uses inexpensive equipment and hence may be considered for this purpose. However, it is a gross non-specific signal and thus there is need for careful investigation to identify its suitability for studying age-associated changes to the muscles. This research has investigated non-invasive, superficially recorded EMG signals to identify the differences between young healthy adults (20-35 years) and older (60-80 years) subjects of both genders while they were performing isometric ankle plantar flexion and dorsiflexion. The study also studied age and gender differences in the maximal voluntary force, its steadiness, the time to reach steadiness and modulus of the force output prior to steadiness as measured at the foot plate during dorsi- and plantar-flexion. This study has experimentally demonstrated the significant increase in co-activation index around the ankle joint, decrease in the agonistic activity and increase in antagonistic activity in the major lower leg muscles due to ageing. Female participants were noted to have a higher co-activation index in comparison to the males of corresponding age group. From the analysis, it was observed that ageing causes an overall decline in muscle signal complexity affecting the whole muscle strength in both genders. Furthermore, it was also established that within the triceps surae muscle group, Soleus and the gastrocnemii showed varied effects of aging. Another key finding is the significant age and gender difference in the maximal force and its steadiness around the ankle joint during dorsiflexion. However, these differences are less significant during plantarflexion. Results of this study revealed that with age, there was an increase in the total modulus of the force used by the participant to stabilize the foot at a desired level of contraction, difference being more significant during dorsiflexion. This study highlights the age associated neuromuscular adaptations in plantarflexor and dorsiflexor muscles. This is reflected in the altered activity of agonistic and antagonistic muscles during isometric contractions, the reduction in the overall muscle signal complexity, and decreased strength and steadiness of the force exerted by the calf muscles. It has established gender differences in the reduction of the co-activation index and decreased force strength during ankle flexion movements