Effect of compound nutrients on behavior and fatigue in mice with high temperature exercise / 中国职业医学

ABSTRACT

OBJECTIVE: To explore the effects of high temperature on learning and memory ability, behavioral activity, and fatigue as well as the intervention effect of compound nutrients on the exercising mice. METHODS: Thirty specific pathogen-free healthy male Kunming mice were randomly divided into the normal-temperature exercise, high-temperature exercise, and high-temperature exercise supplement groups, with 10 mice in each group. The mice in these three groups performed treadmill exercise for one hour every day, six days per week, and continued for four weeks. The mice in the high-temperature exercise supplement group were fed with 0.3 mL of compound nutrients 30 minutes before each treadmill exercise, whereas the mice in the normal-temperature exercise and the high-temperature exercise groups were fed with an equal volume of distilled water. At the end of the treadmill exercise, the mice were subjected to experiments on their neurological behaviors. The serum of mice in each group were collected to detect the lactic acid level, urea nitrogen level, and creatine kinase activity. The liver and gastrocnemius muscle tissues were then taken for detecting the levels of liver glycogen and muscle glycogen.RESULTS: Compared with the mice in the normal-temperature exercise group, the escape latency of the mice in the high-temperature exercise group was prolonged(P<0.05), whereas the number of platform crossings, percentage of target quadrant time, and distance were reduced(all P<0.05). Compared with the mice in the high-temperature exercise group, the escape latency of the mice in the high-temperature exercise supplement group was shortened(P<0.05), whereas the number of platform crossings, percentage of target quadrant time, and distance were increased(all P<0.05). Compared with the mice in the normal-temperature exercise group, the first fall time and grip strength of the mice in the high-temperature exercise group were reduced(all P<0.05), whereas the number of falls was increased(P<0.05). Compared with the mice in the high-temperature exercise group, the first fall time and grip strength of the mice in the high-temperature exercise supplement group were increased(all P<0.05), whereas the number of falls was reduced(P<0.05). Compared with the mice in the normal-temperature exercise group, the serum lactic acid level, urea nitrogen level, and creatine kinase activity of the mice in the high-temperature exercise group were increased(all P<0.05), whereas the levels of liver glycogen and muscle glycogen were decreased(all P<0.05). Compared with the mice in the high-temperature exercise group, the serum lactic acid level, urea nitrogen level, and creatine kinase activity of the mice in the high-temperature exercise supplement group were decreased(all P<0.05), whereas the levels of liver glycogen and muscle glycogen were increased(all P<0.05). CONCLUSION: High temperature exercise can lead to decreased learning and memory ability and behavioral activity in mice, resulting in exercise-induced fatigue. Supplemental compound nutrients can prevent these changes.