论著

调节抑制对单色光中豚鼠眼屈光发育的作用

Effect of inhibiting accommodation on ocular refractive development of guinea pigs in different monochromatic lights

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目的:研究调节抑制对不同单色光中豚鼠眼屈光发育的作用。方法:根据光照不同将豚鼠分成蓝光组(430 nm)、绿光组(530 nm)和白光组(色温5 000 K),每组各8只。各组豚鼠右眼均点1%阿托品滴眼液,每天1次,持续6周。实验前后各测一次屈光度、角膜曲率半径以及眼轴各参数。结果:实验前各组豚鼠双侧眼间及组间同侧眼屈光度差异无统计学意义(约4.25 D,P >0.05)。但实验结束时蓝光组和绿光组双侧眼间屈光度差异显著(P=0.0003和P=0.028),而白光组双侧眼间无显著差异(P=0.7486)。实验结束时各组左眼(P<0.05)、绿光组和白光组右眼(P=0.001)以及蓝光组和绿光组右眼(P <0.001)屈光差异有统计学意义。蓝光组和白光组右眼屈光差异无统计学意义( P =0.072)。实验开始时各组双侧眼间及各组间同侧眼玻璃体腔长度差异无统计学意义(约3.2 mm,P>0.05)。实验结束时,蓝光组和绿光组双侧眼间玻璃体腔长度差异有统计学意义(P=0.0017和P=0.0113),但白光组双侧眼间差异无统计学意义(P=0.9371)。同时,各组间同侧眼玻璃体腔长度差异有统计学意义(P<0.01)。此外,实验前后各组双侧眼间及组间同侧眼角膜曲率半径、前节长度、晶状体厚度差异无统计学意义(P>0.05)。结论:1%阿托品加强530 nm单色光促进豚鼠眼玻璃体腔延长和近视形成的作用,但减弱430 nm单色光抑制豚鼠眼玻璃体腔延长和远视形成的作用。眼调节反应可能参与了单色光中豚鼠眼的屈光发育机制。阿托品影响单色光中豚鼠眼屈光发育的作用可能是通过抑制眼调节反应实现的。
Objective: To investigate the effect of inhibiting accommodation on ocular refractive development of guinea pigs in different monochromatic lights. Methods: Twenty-four pigmented guinea pigs were randomly divided into three groups with 8 animals per group: short-wavelength light (SL, 430 nm) group, middle-wavelength light (ML,530 nm) group and broad-band light (BL, 5 000 K color temperature) group. The right eyes of all animals were treated by 1% Atropine solution once a day for 6 weeks. Measurements of ocular refraction, corneal curvature, and axial length were performed at the start and the end of the study. Results: There was no significant difference in bilateral ocular refraction for all groups at the beginning of the experiment (about 4.25 D, P>0.05) and in ipsilateral ocular refraction among groups at the start of the experiment (P>0.05). But at the end of the experiment,significant differences were detected between binocular refraction of the ML group (P=0.028) and the SL group (P=0.0003), however, there was no significant difference between bilateral refraction in the BL group (P=0.7486).There were significant differences in refraction between the left eyes of any two groups (P<0.05), between the right eyes of the ML and BL group (P=0.001), and between the right eyes of the ML and SL (P<0.001) at 6 weeks.No significant refractive difference was detected between the right eyes of the SL and BL groups (P=0.072). The vitreous length was about 3.2 mm in bilateral eyes of all groups at the onset of the experiment (all inner- or inter-group P>0.05). After the experiment, the bilateral difference in vitreous length was significant in the ML group(P=0.0113) and the SL group (P=0.0017), but not significant in the BL group (P=0.9371). There were significant vitreous differences in right or left eyes among the groups at the end of the experiment (P<0.01). There were no significant inter-group (ipsilateral) or inner-group (bilateral) differences at any time in any of corneal radius of curvature, anterior segment length and lens thickness (P>0.05 for all comparisons). Conclusion: 1% atropine can strengthen the effect of vitreous elongation and myopic formation on guinea pig eyes in 530 nm monochromatic light. Moreover, atropine can weaken the effect of vitreous shortening and hyperopic formation on guinea pig eyes in 430 nm monochromatic light. Ocular accommodation response should involve in the mechanism of refractive development of guinea pig in monochromatic light. Atropine can influence the refractive development of guinea pig in monochromatic light possibly by inhibiting accommodation response.
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    主办:中山大学
    承办:中山大学中山眼科中心
    主编:林浩添
    主管:中华人民共和国教育部
    主办:中山大学
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  • Eye Science

    主管:中华人民共和国教育部
    主办:中山大学
    承办:中山大学中山眼科中心
    主编:林浩添
    主管:中华人民共和国教育部
    主办:中山大学
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