Aquatic Exercise and Thermoregulation in Pregnancy.

Aquatic exercise, in a general sense, is any type of movement performed in the water for the purpose of improving health and fitness. Water, with its properties, provides buoyancy to lighten the "load" of pregnancy, hydrostatic pressure to alleviate pregnancy-induced edema, and many other benefits. Sports in extreme temperatures may involve some risks. The fact that a person's conductivity increases about 25 times in water comes with a great loss, which is the depression of the evaporative mechanism. Altered thermal control mechanisms in water, both in the gravid and the nongravid state, will be addressed in this review. convenience.

Lactate threshold and performance adaptations to 4 weeks of training in untrained swimmers: volume vs. intensity.

The purpose of this study was to investigate the impact of 4 weeks of high-intensity vs. high-volume swim training on lactate threshold (LT) characteristics and performance. Thirteen untrained swimmers with a mean age of 19.0 ± 0.5 undertook an incremental swimming test before and after 4 weeks of training for the determination of LT. Performance was evaluated by a 50-m maximum freestyle test. The swimmers were assigned to 1 of each of 2 training groups. The high-intensity group (n = 6) focused on sprint training (SP) and swam a total of 1,808 ± 210 m. The high-volume group (n = 7) followed the same program as the SP group but swam an additional 1,100 m (38% more) of endurance swimming (SP + End). A training effect was evident in both groups as seen by the similar improvements in sprint performance of the 50-m maximum time (p < 0.01), peak velocity increases and the lower value of lactate at the individual LTs (p < 0.01). Lactate threshold velocity improved only in the SP + End group from 1.20 ± 0.12 m·s(-1) pretraining to 1.32 ± 0.12 m·s(-1) posttraining (p = 0.77, effect size = 1, p < 0.01), expressed by the rightward shifts of the individual lactate-velocity curves, indicating an improvement in the aerobic capacity. Peak lactate and lactate concentrations at LT did not significantly change. In conclusion, this study was able to demonstrate that 4 weeks of either high-intensity or high-volume training was able to demonstrate similar improvements in swimming performance. In the case of lack of significant changes in lactate profiling in response to high-intensity training, we could suggest a dissociation between the 2.