Centre for Myopia Research, School of Optometry, The Hong Kong Polytechnic University, Hong Kong SAR, China.
Department of Electrical Engineering, The Hong Kong Polytechnic University, Hong Kong, SAR, China.
Ophthalmic Physiol Opt. 2022 Jul;42(4):773-785. doi: 10.1111/opo.12981. Epub 2022 Apr 2.
To compare the treatment zone (TZ) measurements obtained using manual and software-based methods in orthokeratology (ortho-k) subjects and explore the TZ characteristics of children with slow and fast axial elongation after ortho-k.
Data from 69 subjects (aged 7 to <13 years old), who participated in three 24-month longitudinal orthokeratology studies, showing fast (>0.27 mm, n = 38) and slow (<0.09 mm, n = 31) axial elongation, were retrieved. The TZ after ortho-k was defined as the central flattened area enclosed by points with no refractive power change. TZ parameters, including decentration, size, width of the peripheral steepened zone (PSZ), central and peripheral refractive power changes and peripheral rate of power change, were determined manually and using python-based software. TZ parameters were compared between measurement methods and between groups.
Almost all TZ parameters measured manually and with the aid of software were significantly different (p < 0.05). Differences in decentration, size and the PSZ width were not clinically significant, but differences (0.45 to 0.92 D) in refractive power change in the PSZ were significant, although intraclass coefficients (0.95 to 0.98) indicated excellent agreement between methods. Significantly greater TZ decentration, smaller TZ size and greater inferior rate of power change (relative to the TZ centre) were observed in slow progressors using both methods, suggesting a potential role of TZ in regulating myopia progression in ortho-k.
TZ measurements using manual and software-based methods differed significantly and cannot be used interchangeably. The combination of TZ decentration, TZ size and peripheral rate of power change may affect myopia control effect in ortho-k.
比较角膜塑形术(ortho-k)患者中手动和基于软件的方法获得的治疗区(TZ)测量值,并探讨 ortho-k 后眼轴增长缓慢和快速的儿童的 TZ 特征。
检索了 69 名参加了 3 项为期 24 个月的纵向角膜塑形术研究的受试者(年龄 7 岁至<13 岁)的数据,这些受试者的眼轴增长速度分别较快(>0.27mm,n=38)和较慢(<0.09mm,n=31)。TZ 定义为无屈光力变化点包围的中央变平区域。手动和基于 python 的软件分别确定了 TZ 参数,包括偏心距、大小、周边陡峭区(PSZ)宽度、中央和周边屈光力变化以及周边屈光力变化率。比较了两种测量方法和两组之间的 TZ 参数。
手动和借助软件测量的几乎所有 TZ 参数均存在显著差异(p<0.05)。偏心距、大小和 PSZ 宽度的差异无临床意义,但 PSZ 中的屈光力变化差异(0.45 至 0.92 D)有统计学意义,尽管组内相关系数(0.95 至 0.98)表明两种方法之间具有极好的一致性。两种方法均显示,眼轴增长缓慢的患者 TZ 偏心距较大、TZ 较小、周边屈光力变化率(相对于 TZ 中心)较大,这表明 TZ 在调节 ortho-k 中的近视进展中可能发挥作用。
手动和基于软件的 TZ 测量方法存在显著差异,不能互换使用。TZ 偏心距、TZ 大小和周边屈光力变化率的组合可能影响 ortho-k 的近视控制效果。
