脊椎动物眼睛中调节幅度与晶状体中心厚度与其赤道直径之比之间的关系。

The relationship between accommodative amplitude and the ratio of central lens thickness to its equatorial diameter in vertebrate eyes.

作者信息

Schachar Ronald A, Pierscionek Barbara K, Abolmaali Ali, Le Tri

机构信息

Department of Physics, University of Arlington, Arlington, Texas 76019, USA.

出版信息

Br J Ophthalmol. 2007 Jun;91(6):812-7. doi: 10.1136/bjo.2006.107524. Epub 2006 Oct 18.

DOI:10.1136/bjo.2006.107524

PMID:17050574

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1955594/

Abstract

AIM

To determine the relationship between accommodative amplitude and central lens thickness/equatorial lens diameter (CLT/ELD) ratio in vertebrates.

METHODS

Midsagittal sections of lenses from fixed, post mortem eyes from 125 different vertebrate species were photographed. Their CLT/ELD ratios were correlated with independently published measurements of their accommodative amplitudes. Using the non-linear finite element method (FEM), the efficiency of zonular traction (the absolute change in central radius of curvature per unit force [|DeltaCR|/F]) for model lenses with CLT/ELD ratios from 0.45 to 0.9 was determined.

RESULTS

Vertebrates with CLT/ELD ratios < or =0.6 have high accommodative amplitudes. Zonular traction was found to be most efficient for those model lenses having CLT/ELD ratios < or =0.6.

CONCLUSIONS

Vertebrates with lenses that have CLT/ELD ratios < or =0.6--i.e. "long oval" shapes--have the greatest accommodative amplitudes; e.g. primates, diving birds and diurnal birds of prey. Vertebrates that have oval or spherical shaped lenses, like owls and most mammals, have low accommodative amplitudes. Zonular traction was found to be most efficient when applied to model lenses with CLT/ELD ratios < or =0.6. The implications of these findings on the mechanism of accommodation are discussed.

摘要

目的

确定脊椎动物中调节幅度与晶状体中央厚度/赤道直径（CLT/ELD）比值之间的关系。

方法

对来自125种不同脊椎动物死后固定眼球的晶状体矢状面切片进行拍照。将它们的CLT/ELD比值与独立发表的调节幅度测量值进行关联。使用非线性有限元方法（FEM），确定CLT/ELD比值在0.45至0.9之间的模型晶状体的悬韧带牵引效率（单位力作用下中央曲率半径的绝对变化[|ΔCR|/F]）。

结果

CLT/ELD比值≤0.6的脊椎动物具有高调节幅度。发现悬韧带牵引对CLT/ELD比值≤0.6的那些模型晶状体最有效。

结论

晶状体CLT/ELD比值≤0.6（即“长椭圆形”）的脊椎动物具有最大调节幅度；例如灵长类动物、潜水鸟类和昼行性猛禽。具有椭圆形或球形晶状体的脊椎动物，如猫头鹰和大多数哺乳动物，调节幅度较低。发现当应用于CLT/ELD比值≤0.6的模型晶状体时，悬韧带牵引最有效。讨论了这些发现对调节机制的影响。

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