Michael J Joyner, Chad C Wiggins, Sarah E Baker, Stephen A Klassen, Jonathon W Senefeld
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Abstract
In this article, we highlight the contributions of passive experiments that address important exercise-related questions in integrative physiology and medicine. Passive experiments differ from active experiments in that passive experiments involve limited or no active intervention to generate observations and test hypotheses. Experiments of nature and natural experiments are two types of passive experiments. Experiments of nature include research participants with rare genetic or acquired conditions that facilitate exploration of specific physiological mechanisms. In this way, experiments of nature are parallel to classical "knockout" animal models among human research participants. Natural experiments are gleaned from data sets that allow population-based questions to be addressed. An advantage of both types of passive experiments is that more extreme and/or prolonged exposures to physiological and behavioral stimuli are possible in humans. In this article, we discuss a number of key passive experiments that have generated foundational medical knowledge or mechanistic physiological insights related to exercise. Both natural experiments and experiments of nature will be essential to generate and test hypotheses about the limits of human adaptability to stressors like exercise. © 2023 American Physiological Society. Compr Physiol 13:4879-4907, 2023.
大自然的锻炼和实验。
在这篇文章中,我们强调了被动实验的贡献,这些实验解决了生理学和医学综合中与运动相关的重要问题。被动实验与主动实验的不同之处在于,被动实验涉及有限或没有主动干预来产生观察结果和检验假设。自然实验和自然实验是被动实验的两种类型。自然实验包括具有罕见遗传或后天条件的研究参与者,这些条件有助于探索特定的生理机制。通过这种方式,自然实验与人类研究参与者中的经典“敲除”动物模型类似。自然实验是从数据集中收集的,这些数据集可以解决基于人群的问题。这两种类型的被动实验的优点是,人类可能会更极端和/或更长时间地暴露于生理和行为刺激。在这篇文章中,我们讨论了一些关键的被动实验,这些实验产生了与运动相关的基础医学知识或机制生理见解。自然实验和自然实验对于产生和测试关于人类对运动等压力源的适应性极限的假设至关重要。©2023美国生理学会。Compr Physiol 13:4879-49072023。
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