Department of Biology, Tufts University, Medford, MA 02155, United States.
Gen Comp Endocrinol. 2012 May 1;176(3):296-9. doi: 10.1016/j.ygcen.2011.11.004. Epub 2011 Nov 12.
Even though the term "stress" is widely used, a precise definition is notoriously difficult. Notwithstanding this difficulty, stress continues to be an important concept in biology because it attempts to describe how animals cope with environmental change under emergency conditions. Without a precise definition, however, it becomes nearly impossible to make testable a priori predictions about how physiological and hormonal systems will respond to emergency conditions and what the ultimate impact on the animal will be. The reactive scope model is a recent attempt to formulate testable predictions. This model provides a physiological basis to explain why corticosterone negative feedback, but not baseline corticosterone concentrations, corticosterone responses to acute stress, or the interrenal capacity to secrete corticosterone, is correlated with survival during famine conditions in Galápagos marine iguanas. Reactive scope thus provides a foundation for interpreting and predicting physiological stress responses.
尽管“应激”一词被广泛使用,但要对其进行精确定义却非常困难。尽管存在这种困难,但应激仍然是生物学中的一个重要概念,因为它试图描述动物在紧急情况下如何应对环境变化。然而,如果没有一个精确定义,几乎不可能对生理和激素系统对紧急情况的反应以及对动物的最终影响做出可检验的先验预测。反应范围模型是最近提出的一种可检验预测的尝试。该模型为解释为什么皮质酮负反馈而不是基础皮质酮浓度、急性应激时的皮质酮反应或间肾上皮质分泌皮质酮的能力与加拉帕戈斯海鬣蜥在饥饿条件下的生存相关提供了生理基础。因此,反应范围为解释和预测生理应激反应提供了基础。
