Section of Sports Medicine and Biology of Exercise, School of Physical Education and Sport Science, National and Kapodistrian University of Athens, Athens, Greece.
Department of Automation, Biocybernetics and Robotics, Jozef Stefan Institute, Ljubljana, Slovenia.
Eur J Appl Physiol. 2024 Dec;124(12):3477-3493. doi: 10.1007/s00421-024-05589-x. Epub 2024 Aug 29.
Despite its comparatively limited size in humans, spleen has been shown able to expel red-blood cells in the circulation and thus augment blood oxygen-carrying capacity under certain physiologic conditions. In the present state-of-the-art review, the short- and long-term regulation of spleen volume will be discussed. With regards to the physiological mechanism underlying spleen contraction, sympathetic activation stands as the prime contributor to the response. A dose-dependent relationship between specific interventions of apnea, exercise and hypoxia (imposed separately or in combination) and spleen contraction alleges to the trainability of the spleen organ. The trainability of the spleen is further substantiated by virtue of cross-sectional and longitudinal studies reporting robust increases in both organ volume at rest and subsequent spleen contraction. Alternative ways to assess the relationship between hematologic gains and the magnitude of spleen contraction (i.e., the reduction of spleen volume) will be presented herein. In extension of changes in the conventional measures of hemoglobin concentration and hematocrit, assessment of hemoglobin mass and total blood volume using the (safe, low-cost and time-efficient) CO-rebreathing technique could deepen scientific knowledge on the efficiency of human spleen contraction.
尽管人类脾脏相对较小,但已证实其在某些生理条件下能够排出循环中的红细胞,从而增加血液的携氧能力。在本综述中,将讨论脾脏体积的短期和长期调节。关于脾脏收缩的生理机制,交感神经激活是反应的主要贡献者。呼吸暂停、运动和缺氧(单独或联合施加)的特定干预措施与脾脏收缩之间存在剂量依赖性关系,这表明脾脏具有可训练性。脾脏的可训练性还得到了横断面和纵向研究的证实,这些研究报告称,静止时器官体积和随后的脾脏收缩都有明显增加。本文将介绍评估血液学获益与脾脏收缩幅度(即脾脏体积减少)之间关系的其他方法。除了血红蛋白浓度和血细胞比容的常规测量值的变化外,使用(安全、低成本和高效)CO 再呼吸技术评估血红蛋白质量和总血容量可以加深对人体脾脏收缩效率的科学认识。
