[1] Xu C, Zhu H, Nakatsuka T, et al. Sampling strategy and climatic implication of tree-ring cellulose oxygen isotopes of Hippophae tibetana and Abies georgei on the southeastern Tibetan Plateau[J]. Int J Biometeorol, 2019, 63(5):679-686.
[2] Tymko M M, Tremblay J C, Bailey D M, et al. The impact of hypoxaemia on vascular function in lowlanders and high altitude indigenous populations[J]. J Physiol, 2019, 597(24):5759-5776.
[3] Pham K, Parikh K, Heinrich E C. Hypoxia and inflammation: insights from high-altitude physiology[J]. Front Physiol, 2021, 12:676782.
[4] Bebic Z, Brooks P M, Polaner D M. Respiratory physiology at high altitude and considerations for pediatric patients[J]. Paediatr Anaesth, 2022, 32(2):118-125.
[5] 任晓兰,肖迎平,杨 洋. 驻高原武警官兵EQ-5D调查与心血管疾病风险评估[J]. 武警医学, 2019, 30(9):784-786.
[6] 刘小云,孙 莉,胡小兵. 部队进驻高原急性高原病预防策略分析[J]. 武警医学, 2021, 32(11):995-998.
[7] Zhao Y, Lin S, Wu J, et al. A study of the clinical application value of ultrasound and electrocardiogram in the differential diagnosis of cardiomyopathy[J]. Am J Transl Res, 2021, 13(5):5200-5207.
[8] Parodi J B, Ramchandani R, Zhou Z, et al. A systematic review of electrocardiographic changes in healthy high-altitude populations[J]. Trends Cardiovasc Med, 2022, in press.
[9] Shroff N A, Balbin J, Shobitan O. High-altitude illness: updates in prevention, identification, and treatment[J]. Emerg Med Pract, 2021, 23(9):1-24.
[10] Richalet J P. Adaption to chronic hypoxaemia by populations living at high altitude[J]. Rev Mal Respir, 2021, 38(4):395-403.
[11] Grant I D, Giussani D A, Aiken C E. Blood pressure and hypertensive disorders of pregnancy at high altitude: a systematic review and meta-analysis[J]. Am J Obstet Gynecol MFM, 2021, 3(5):100400.
[12] Lang M, Bilo G, Caravita S, et al. Blood pressure and high altitude: physiological response and clinical management[J]. Medwave, 2021, 21(4):e8194.
[13] Mallet R T, Burtscher J, Richalet J P, et al. Impact of High Altitude on Cardiovascular Health: Current Perspectives[J]. Vasc Health Risk Manag, 2021, 17:317-335.
[14] Niu Z, Li M, Pu P, et al. Effects of temperature on the locomotor performance and contraction properties of skeletal muscle from two Phrynocephalus lizards at high and low altitude[J]. J Comp Physiol B, 2021, 191(5):907-916.
[15] Rao M, Li J, Qin J, et al. Left ventricular function during acute high-altitude exposure in a large group of healthy young Chinese men[J]. PLoS One, 2015, 10(1):e0116936.
[16] Mikolajczak K, Czerwinska K, Pilecki W, et al. The Impact of Temporary Stay at High Altitude on the Circulatory System[J]. J Clin Med, 2021, 10(8):1622.
[17] 李峤珂,江国强,毛建斌,等. 高原驻守官兵体检心律失常心电图分析[J]. 中华心律失常学杂志,2011,15(3):225-227.
[18] 王 旭,马 忆,高玉婷,等. 高原维稳执勤官兵心电图结果分析与对策[J]. 中国误诊学杂志, 2011,11(6):1314.
[19] 张兆清,朱 敏,刘争建,等. 青藏线394名官兵心电图分析[J]. 西南军医,2011,13(4):627-629.
[20] 左 强,李峤珂,江国强,等. 105例高原官兵心电图ST-T改变分析[J]. 四川医学, 2011,32(4):534-536.
[21] 王 旭,郑敬曦. 高原地区中青年官兵心律失常监测分析[J]. 河北医药,2015,37(22):3495-3496.