Lubos Molcan, Katarina Babarikova, Diana Cvikova, Natalia Kincelova, Lenka Kubincova, Hana Mauer Sutovska
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ALAN is also considered a stress-inducing factor, as glucocorticoid and glucose level changes indicate. Moreover, in nocturnal rats, ALAN increases the pressure response to load. In addition, ALAN induces molecular changes in the heart and blood vessels. Changes in the cardiovascular system significantly depend on the duration of ALAN exposure. To some extent, alterations in physical activity can explain the changes observed in the cardiovascular system after ALAN exposure. 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Changes in the cardiovascular system significantly depend on the duration of ALAN exposure. To some extent, alterations in physical activity can explain the changes observed in the cardiovascular system after ALAN exposure. 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引用次数: 0
摘要
夜间人造光(ALAN)影响着大多数人。通过视网膜下丘脑束,ALAN 可调节中枢昼夜节律振荡器的活动,从而调节包括心血管系统在内的各种生理系统。我们总结了目前关于 ALAN 对昼夜动物心血管系统影响的知识。根据已发表的数据,ALAN 可通过增加昼行动物心血管变量的夜间值和降低夜行动物心血管变量的夜间值来降低昼行动物和夜行动物血压和心率的昼夜变异性。ALAN 对心血管系统的影响主要通过自主神经系统传递。正如糖皮质激素和血糖水平的变化所表明的那样,ALAN 也被认为是一种应激诱导因子。此外,在夜间活动的大鼠中,ALAN 会增加对负荷的压力反应。此外,ALAN 还会诱发心脏和血管的分子变化。心血管系统的变化在很大程度上取决于接触 ALAN 的持续时间。在某种程度上,体力活动的改变可以解释接触 ALAN 后心血管系统发生的变化。虽然 ALAN 对夜行性动物和昼行性动物的作用不同,但我们可以得出结论,这两种动物的生理系统之间的昼夜节律协调性都会减弱,从而增加未来出现心血管并发症的风险,并降低预测压力的能力。
Artificial light at night suppresses the day-night cardiovascular variability: evidence from humans and rats.
Artificial light at night (ALAN) affects most of the population. Through the retinohypothalamic tract, ALAN modulates the activity of the central circadian oscillator and, consequently, various physiological systems, including the cardiovascular one. We summarised the current knowledge about the effects of ALAN on the cardiovascular system in diurnal and nocturnal animals. Based on published data, ALAN reduces the day-night variability of the blood pressure and heart rate in diurnal and nocturnal animals by increasing the nocturnal values of cardiovascular variables in diurnal animals and decreasing them in nocturnal animals. The effects of ALAN on the cardiovascular system are mainly transmitted through the autonomic nervous system. ALAN is also considered a stress-inducing factor, as glucocorticoid and glucose level changes indicate. Moreover, in nocturnal rats, ALAN increases the pressure response to load. In addition, ALAN induces molecular changes in the heart and blood vessels. Changes in the cardiovascular system significantly depend on the duration of ALAN exposure. To some extent, alterations in physical activity can explain the changes observed in the cardiovascular system after ALAN exposure. Although ALAN acts differently on nocturnal and diurnal animals, we can conclude that both exhibit a weakened circadian coordination among physiological systems, which increases the risk of future cardiovascular complications and reduces the ability to anticipate stress.
期刊介绍:
Pflügers Archiv European Journal of Physiology publishes those results of original research that are seen as advancing the physiological sciences, especially those providing mechanistic insights into physiological functions at the molecular and cellular level, and clearly conveying a physiological message. Submissions are encouraged that deal with the evaluation of molecular and cellular mechanisms of disease, ideally resulting in translational research. Purely descriptive papers covering applied physiology or clinical papers will be excluded. Papers on methodological topics will be considered if they contribute to the development of novel tools for further investigation of (patho)physiological mechanisms.
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