1.
The Study of Comparison of Using Different Methods to Measure Corneal Curvature in Determining the Power of Intraocular Lens
不同仪器测量角膜曲率用于人工晶体屈光度计算的对比研究
2.
dioptometer:an instrument used for measuring ocular refraction.
屈光计:用于测量眼睛折射度的仪器.
3.
There is no significant difference of diopter between two groups before LASIK.
两组间 ,术前的屈光度无统计学差异。
4.
The dioptre was from-6.25DS to -10.00DS.
屈光度范围-6,25DS~-10.00DS。
5.
Corneal Ablation Depth of Refractive Myopia and Hypermetropia Correction
屈光性近视远视矫正的角膜消融深度计算
6.
A unit of measurement of the refractive power of lenses equal to the reciprocal of the focal length measured in meters.
屈光度透镜或棱镜折光率的一种量度,等于以米计算焦距之倒数
7.
Calculation of intraocular lens power after corneal refractive surgery
角膜屈光手术后人工晶状体屈光力的计算
8.
These data were used to calculate the error of predicted postoperative refraction with SRKII intraocular lens power formulas.
我们采用了SRKⅡ工水晶体度数之计算公式来预估术后之屈光状态。
9.
Clinical results in highly myopic eyes using the Haigis-L formula
Haigis-L公式计算超长眼轴患者所需人工晶状体屈光度精确性的研究
10.
Intraocular lens power calculation in traumatic cataract with corneal scar
合并角膜瘢痕的外伤性白内障人工晶状体屈光度的计算方法
11.
close-up filter
近摄滤光片,由+1至+10屈光度
12.
Method According to the diopter,the cases were divided into 3 group.
方法按屈光不正度数共分3组,组71只眼,屈光度-1.00~3.00D;
13.
Mean myopia diopter of 70 eyes(87 5%)was in the range of the predicted diopter ±1D.
术后屈光度平均值为-196±128D,70只眼(875%)在预矫屈光度±1D内。
14.
Analysis of uncertainty in diopter measurement with eccentric photorefraction
偏心摄影验光法测量屈光度的不确定度分析
15.
Analysis of Correlation between Refractive Degree of Myopia and Ocular Optical Components
近视眼屈光度及屈光系统各组成成分的相关性分析
16.
Study on forecasted the accurate of intraocular lens diopter before operation
预设人工晶体屈光度准确性的探讨
17.
Myopic refraction of all patients was within ±1.00D.
术后近视屈光度均在±100D以内。
18.
Analysis about the examiniations of myopia diopter,eye axis and naked visual
近视屈光度、眼轴、裸眼视力的检测分析