ADAPTATION MECHANISMS OF THE CARDIORESPIRATORY SYSTEM TO PHYSICAL LOAD IN ATHLETES: A REVIEW

Sirojiddin Omonturdiev*, Alikhon Khasanov, Pulatov Laziz

The cardiorespiratory system plays a central role in maintaining physical performance and ensuring oxygen delivery during exercise. In athletes, repeated exposure to physical load leads to significant structural and functional adaptations in both the cardiovascular and respiratory systems. This review aims to analyze and summarize the main mechanisms of cardiorespiratory adaptation to physical exercise based on recent scientific literature. Regular physical training induces physiological changes such as increased stroke volume, reduced resting heart rate (physiological bradycardia), and enhanced cardiac output efficiency. At the respiratory level, improvements in lung ventilation, oxygen diffusion capacity, and maximal oxygen uptake (VO₂max) are observed. These adaptations are closely linked to enhanced capillary density, mitochondrial biogenesis, and improved oxygen utilization in skeletal muscles. Furthermore, neurohumoral regulation plays an important role in adaptation, where sympathetic-parasympathetic balance and hormonal responses (adrenaline, cortisol) modulate cardiovascular and respiratory performance during stress. The degree of adaptation varies depending on the type, intensity, and duration of physical training. Understanding these mechanisms is essential for optimizing athletic performance, designing training programs, and preventing overtraining-related disorders. This review highlights the integrated nature of cardiorespiratory adaptation and emphasizes its significance in sports physiology and medical science.