Palkovicova Eliska, Cendelin Jiri, Novak Jiri
Department of Natural Sciences, Faculty of Biomedical Engineering, Czech Technical University in Prague, Kladno, Czech Republic.
Department of Ophthalmology, Second Faculty of Medicine, Charles University in Prague and Motol University Hospital, Prague, Czech Republic.
Biomed Pap Med Fac Univ Palacky Olomouc Czech Repub. 2025 Mar;169(1):56-65. doi: 10.5507/bp.2024.017. Epub 2024 Jun 11.
To present a new method of dynamic Purkinje-metry and to verify it by comparison with a commercially available anterior segment optical coherence tomography CASIA2.
A dynamic Purkinje-meter with a movable fixation target was assembled. A coaxial circular pattern formed by infrared LEDs was projected onto the eye and evoked Purkinje images (1st, 3rd, 4th = P1, P3, P4). The measurement was performed on 29 eyes with an implanted toric IOL (intraocular lens), under mydriatic conditions, with reference to the visual axis. The IOL tilt was calculated from the position of a fixation target at the moment of P3 and P4 superposition. The IOL decentration was determined based on the relative position of P1 during on-axis fixation and of P3 and P4 superposition during off-axis fixation. A custom-developed software was used for distance measurements. Using CASIA2, the IOL position was fully calculated by the device.
The mean absolute difference between CASIA2 and Purkinje-meter values was 0.6° ± 0.4° for the tilt magnitude and 10° ± 10° for the tilt direction, and 0.11 mm ± 0.08 mm for the decentration magnitude and 16° ± 14° for the decentration direction. There was no statistically significant difference between the values determined by the two methods for the tilt and decentration direction. The differences were statistically significant for the tilt and decentration magnitude.
The values of IOL tilt and decentration direction are similar for both devices. The values of IOL tilt and decentration magnitude measured by Purkinje-meter are higher than those from CASIA2, but overall, they correspond to the values presented in other published studies.
介绍一种动态浦肯野计测法的新方法,并通过与市售眼前节光学相干断层扫描设备CASIA2进行比较来验证该方法。
组装了一种带有可移动固定目标的动态浦肯野计。由红外发光二极管形成的同轴圆形图案投射到眼睛上,诱发浦肯野图像(第1、3、4个 = P1、P3、P4)。在29只植入散光人工晶状体(IOL)的眼睛上,在散瞳条件下,参照视轴进行测量。IOL倾斜度根据P3和P4叠加时刻固定目标的位置计算得出。IOL偏心度根据轴向固定时P1的相对位置以及离轴固定时P3和P4叠加的相对位置确定。使用定制开发的软件进行距离测量。使用CASIA2时,设备可完全计算出IOL的位置。
CASIA2与浦肯野计测量值之间,倾斜度大小的平均绝对差值为0.6°±0.4°,倾斜方向为10°±10°,偏心度大小为0.11 mm±0.08 mm,偏心度方向为16°±14°。两种方法确定的倾斜度和偏心度方向的值之间无统计学显著差异。倾斜度和偏心度大小的差异具有统计学显著性。
两种设备的IOL倾斜度和偏心度方向值相似。浦肯野计测量的IOL倾斜度和偏心度大小的值高于CASIA2测量的值,但总体而言,它们与其他已发表研究中呈现的值相符。
