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胡英周, 杨华, 李浩, 吕龙宝, 吴晶, 朱珠, 张玉华, 闫芳芳, 樊沭含, 王书晓, 赵建平, 戚强, 黄昌兵, 胡新天. 2022: 长期光照下低相关色温的人工照明光源可以减慢青少年猕猴的眼轴发育. 动物学研究, 43(2): 229-233. DOI: 10.24272/j.issn.2095-8137.2021.401
引用本文: 胡英周, 杨华, 李浩, 吕龙宝, 吴晶, 朱珠, 张玉华, 闫芳芳, 樊沭含, 王书晓, 赵建平, 戚强, 黄昌兵, 胡新天. 2022: 长期光照下低相关色温的人工照明光源可以减慢青少年猕猴的眼轴发育. 动物学研究, 43(2): 229-233. DOI: 10.24272/j.issn.2095-8137.2021.401
Ying-Zhou Hu, Hua Yang, Hao Li, Long-Bao Lv, Jing Wu, Zhu Zhu, Yu-Hua Zhang, Fang-Fang Yan, Shu-Han Fan, Shu-Xiao Wang, Jian-Ping Zhao, Qiang Qi, Chang-Bing Huang, Xin-Tian Hu. 2022: Low color temperature artificial lighting can slow myopia development: Long-term study using juvenile monkeys. Zoological Research, 43(2): 229-233. DOI: 10.24272/j.issn.2095-8137.2021.401
Citation: Ying-Zhou Hu, Hua Yang, Hao Li, Long-Bao Lv, Jing Wu, Zhu Zhu, Yu-Hua Zhang, Fang-Fang Yan, Shu-Han Fan, Shu-Xiao Wang, Jian-Ping Zhao, Qiang Qi, Chang-Bing Huang, Xin-Tian Hu. 2022: Low color temperature artificial lighting can slow myopia development: Long-term study using juvenile monkeys. Zoological Research, 43(2): 229-233. DOI: 10.24272/j.issn.2095-8137.2021.401

长期光照下低相关色温的人工照明光源可以减慢青少年猕猴的眼轴发育

Low color temperature artificial lighting can slow myopia development: Long-term study using juvenile monkeys

  • 摘要: 近几十年来,伴随着居住和学习环境中照明条件环境的巨大改变,近视的发病率迅速增加。这表明环境因素,如光线,可能是一个重要原因。相关色温(Correlated Color Temperature, CCT)可以在一定程度上反映光源的光谱成分。该研究使用32只幼猴(16只雌性和16只雄性)作为研究对象,采用不同CCT的四种典型光源来研究CCT与眼轴增长之间的关系。在经过365天的观察后,低CCT光照下的猕猴的眼轴增长小于高CCT光照下的猕猴的眼轴增长。并且在整个观察期间,这种效应是稳定的。由于眼轴过度增长是青少年近视的主要原因,这些结果为预防青少年近视提供了新的手段的方法。

     

    Abstract: The incidence of myopia has increased rapidly in recent decades, suggesting that environmental factors, such as light, may be an important cause. Correlated color temperature (CCT) is a commonly used index to quantify the spectral composition of light. Here, we used 32 juvenile monkeys (16 females and 16 males) and selected four kinds of light with typical but different CCTs to study the relationship between CCT and ocular axial elongation. After 365 days of observation, ocular axial elongation under low-CCT light was smaller than that under high-CCT light and this effect was robust and stable over the entire observation period. As excessive axial elongation is the main cause of juvenile myopia, these results provide a new approach for the prevention of juvenile myopia.

     

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