Description

Physiological resilience refers to the capacity to retain or regain physical function in the presence of diseases or age-related impairments. Poor resilience may increase vulnerability to stress, which could lead to negative functional and clinical consequences like a prolonged course of illness/hospitalization, reduced physical activity, an elevated risk of frailty, and even mortality. Physiological resilience is particularly crucial because it declines, and the likelihood of many stresses rises with age. Therefore, it is important to promote older populations' physiological resilience reserves and resources (increase their readiness levels against potential future stressors that are more likely to be seen when an individual gets older). Since risk of having stressors increases with advanced age, there is a relationship between aging and reduced readiness to stressors (low physiological resilience).

The scientific data establishing the beneficial effects of exercise is undeniable, and the advantages of exercise considerably outweigh the hazards in most adults. Although the existing evidence supports that exercise interventions are a potent tool to foster resilience in older adults, there is still a need of future studies regarding this information. Aerobic exercise (AE), one of the most recommended exercise types by the literature, has also been stated as a beneficial tool to promote physiological resilience at all stages of life through increased growth factor expression and neuroplasticity, which lower the destructive effects of chronic stress. Also, aerobic fitness has been shown to be one of the best predictors of resilience. Government guidelines recommend performing moderate-intensity AE 150 minutes per week. However, the literature does not elaborate on the details of AE interventions on physiological resilience and there is a lack of information on which AE modality is better for this purpose. Although the literature supports the idea of AE being a beneficial tool to improve health and physical fitness goals as well as resilience, it can clearly be seen that there is a need for future research regarding both the comparison of AE modalities in older adults and the effects of AE intervention to promote physiological resilience. Thus, this study will be the first to compare the effects of moderate intensity time-matched AE modalities (cycle ergometer versus treadmill training versus control group) on the parameters associated with physiological resilience (muscle mass/strength, cognition, dexterity, functional ability, cardiorespiratory fitness, and neuromuscular function) in older adults. The intervention period will last 5 weeks, 3 days a week, with 40-minute sessions. The research question will be 'Which AE modality is better in improving determinants of physiological resilience?'. This work will allow us to understand the relationship between AE and physiological resilience in a more detailed way and to prescribe better exercise prescriptions in the future.