| dc.description.abstract | Evidence suggests exercise can transiently decrease occupational performance in firefighters. However, it is unclear how different modalities affect physiological and cognitive outcomes. We aimed to determine on-shift resistance and aerobic exercise’s impact on occupational performance and physiology during occupational tasks. Secondly, we aimed to understand the relationship between time- and frequency-domain heart rate variability (HRV) and cognitive function during occupational tasks. Lastly, we aimed to determine fitness metrics relevant to occupational performance. Thirty-two participants completed two baseline assessments. Three exercise sessions including resistance (RE), aerobic (AE), and control (CON) were completed followed by an occupational task assessment (OTA; 4 rounds of 10 deadlifts and 0.15-mile sandbag carry) and a cognitive Wisconsin Card Sorting Task (WCST) at 35 C, 50% humidity. RMANOVAs were used to compare differences by condition and a multiple-linear regression included fitness scores to predict performance and physiological strain. There were not differences in OTA time (p = 0.24). Heart rate, core temperature, and skin temperature were higher during OTA following AE and RE compared to CON, and higher after AE compared to RE (ps < 0.01). WCST errors and response time did not differ by condition (ps > 0.27). Time-domain HRV metrics did not differ by condition (ps > 0.05). All frequency-domain metrics, other than low-frequency power (p = 0.03), did not differ by condition (ps > 0.24). Low-frequency power was lower following AE compared to RE and CON (p < 0.01). This suggests job performance may not be impacted, but physiological strain may be elevated. This elevated core temperature could increase a firefighter’s risk for heat injury immediately following on-shift exercise, specifically aerobic exercise. An acute bout of on-shift aerobic or resistance exercise may not impact cognitive flexibility during subsequent occupational tasks, despite increased sympathetic drive following aerobic exercise. Multiple-linear regression results show a significant model for OTA time, RPE, skin temperature and blood lactate (ps < 0.02), but not core temperature, heart rate, ventilation, or WCST errors (ps > 0.06). Aerobic capacity, body composition, strength and power may be useful predictors of firefighter performance, perceived exertion, and physiological strain, but not cognition during simulated occupational tasks. | en_US |
