A37-12 Sensitivity of Incremental and Endurance Shuttle Walk Tests for Assessing Exercise Capacity at High Altitude

Abstract Background Exercise performance at high altitude is usually impaired compared with sea level. It remains unclear whether the Incremental Shuttle Walk Test (ISWT) and the Endurance Shuttle Walk Test (ESWT) have similar sensitivity in assessing exercise capacity at high altitude. Methods Eight healthy lowlanders completed both the ISWT and ESWT at sea level and again at very high altitude within one week. Participants ascended from sea level (500 m) to Naqu (altitude 4,505 m, Tibet) within 6 hours. Physiological indices, including peripheral oxygen saturation (SpO2), heart rate, ventilation, and perceived exertion, were measured at the end of each test. Results ISWT performance did not differ significantly between sea level and high altitude (821.4 ± 43.8 m vs. 812.5 ± 54.9 m, p 0.05). In contrast, ESWT duration was markedly reduced at very high altitude (1,686.1 ± 1,033.0 s vs. 734.5 ± 314.0 s, p 0.001). Heart rate, respiratory rate, minute ventilation, SpO2, dyspnea score, and leg fatigue score at the end of ESWT were similar to those observed at the end of ISWT at very high altitude. Conclusion The ESWT is more sensitive than the ISWT in detecting altitude-induced reductions in exercise capacity. The minimal difference in ISWT performance between sea level and high altitude may be explained by hyperventilatory compensation for hypoxia and by the short test duration, which limits the development of metabolic fatigue. This abstract is funded by: This study was supported by Guangzhou Municipal Health Commission Major Technical Project (Grant Number: 2023C-GX02), the Clinical and Epidemiological Research Project of State Key Laboratory of Respiratory Disease (Grant Number: SKLRD-L-202401), National Natural Science Foundation of China (Grant Number: 82070090) and Independent Project of State Key Laboratory of Respiratory Disease (Grant Number: SKLRD-Z-202413).