The hypoxic environment reduces the partial pressure of oxygen, which promotes the stress of oxygen utilization in the tissues of the body. When performing exercise under hypoxic condition, the exercise-induced central and peripheral fatigue is also more obvious than that at sea level. It is well known that endurance exercise at high altitudes induces physiological challenges and thereby reduces endurance sports performance. At the same time, the reduction of oxygen pressure can result in local hypoxia in the cerebral arteries, reduce cognitive function, attention to signal processing, and increase response time, which in turn negatively affect sports performance through impairing decision-making process. In many high-intensity competitive sports events, some races that connect different disciplines (e.g. triathlon) with several transitions process. Athletes need to brain cognitive functions to deal with conditions and face different opponents and a racing course in the game but also need to judge various tactical situations and environmental factors to make the most favorable decisions. Therefore, each transition stage contributes substantially to winning. Reducing wind drag in the bike peloton during cycling racing helps to create a better competitive advantage for the subsequent running performance after the transition, which is the key and last discipline of the race of triathlon. Therefore, the physiological challenges are accumulatively increasing when competing in a high-altitude environment, because racing under low ambient oxygen environment could accelerate the occurrence of fatigue and physical exhaustion. While the status of the cerebral blood flow is highly correlated to the cognition, thinking, and decision making during the pacing, strategies, and transitions in such high-intensity endurance competition events. In addition, the reduction of oxygenation in prefrontal cortex is closely associated with the decrease in muscular contractility, thereby affecting the motor control capacity. However, the effects of hypoxia on the cerebral blood flow and cognitive performance has not been fully clarified yet. Moreover, whether the nutrition ergogenic positively benefits sports and cognitive performance at high-altitude environment still needs to be approved for the further study.