Donnelly William J, Applegate Raymond A
Visual Optics Institute, College of Optometry, University of Houston, Houston, Texas 77204-2020, USA.
J Refract Surg. 2005 Sep-Oct;21(5):S547-51. doi: 10.3928/1081-597X-20050901-25.
To determine the influence of exposure time and pupil size on a Shack-Hartmann (S/H) derived metric of forward scatter (MAX_SD) using a physical model of nuclear cataract.
A physical model eye was developed and mounted to a S/H wavefront sensor. The eye model consisted of a lens, variable pupil, simulated cataract, and retina. Located behind the pupil, a cuvette contained one of five polystyrene microsphere solutions simulating five levels of nuclear cataract severity. Cataract severity was described using a S/H derived metric of forward scatter (MAX SD), which measures aspects of forward scatter contained in the S/H lenslet point spread functions (PSF). To determine the impact of exposure time and pupil size, measurements of MAX_SD were regressed against cataract severity for three different exposure times and three different pupil sizes.
MAX_SD was well correlated to cataract severity. Exposure time had the largest influence, and pupil size had the smallest influence on the forward scatter metric. When pupil size and exposure time were allowed to vary and image saturation was allowed to occur, MAX SD explained 83% of the variance in cataract severity. Excluding images where saturation occurred, holding optimal exposure time constant, and varying pupil size, MAX_SD explained 97% of the variance in cataract severity.
The ability of the forward scatter metric derived from S/H measurements to predict cataract severity for a longitudinal study is optimized by selecting a patient-specific exposure at the initial cataract assessment to avoid saturation and maximize the dynamic range of the system. This patient-specific exposure should be used in all future visits.
使用核性白内障物理模型,确定曝光时间和瞳孔大小对基于夏克-哈特曼(S/H)的前向散射指标(MAX_SD)的影响。
开发了一个物理模型眼,并将其安装到S/H波前传感器上。该眼模型由晶状体、可变瞳孔、模拟白内障和视网膜组成。在瞳孔后方,一个比色皿装有五种聚苯乙烯微球溶液中的一种,模拟五种核性白内障严重程度等级。白内障严重程度使用基于S/H的前向散射指标(MAX SD)来描述,该指标测量S/H子孔径点扩散函数(PSF)中包含的前向散射情况。为了确定曝光时间和瞳孔大小的影响,针对三种不同的曝光时间和三种不同的瞳孔大小,将MAX_SD的测量值与白内障严重程度进行回归分析。
MAX_SD与白内障严重程度高度相关。曝光时间对前向散射指标的影响最大,而瞳孔大小的影响最小。当允许瞳孔大小和曝光时间变化并出现图像饱和时,MAX SD解释了白内障严重程度方差的83%。排除出现饱和的图像,保持最佳曝光时间不变并改变瞳孔大小,MAX_SD解释了白内障严重程度方差的97%。
通过在初次白内障评估时选择患者特异性曝光以避免饱和并最大化系统的动态范围,可优化基于S/H测量得出的前向散射指标在纵向研究中预测白内障严重程度的能力。在所有后续就诊中均应使用这种患者特异性曝光。
