Department of Orthopaedia and Traumatology, Faculty of Medicine, Recep Tayyip Erdogan University, İslampaşa Mah., Şehitler Cad., No:74, Zipcode: 53020, Merkez, Rize, Turkey.
Department of Ophthalmology, Faculty of Medicine, Recep Tayyip Erdogan University, Rize, Turkey.
BMC Ophthalmol. 2024 Aug 6;24(1):328. doi: 10.1186/s12886-024-03601-8.
Visual impairment can cause balance problems. Therefore, visual impairment caused by an increase in corneal deviations can lead to sudden and unstable loads in the lower extremities. We aimed to investigate the possible relationship between low-energy meniscal injuries and corneal structural measures.
This prospective, observational study included individuals aged between 18-40 years with a normal body-mass index. The study group consisted of 54 patients with grade 2 or 3 meniscus injuries after low-energy activity. The control group consisted of 54 healthy individuals without any complaints in the knee joint. The corneal parameters of all participants were evaluated with a Scheimpflug corneal topography and specular microscopy device. Simulated keratometry (SimK), minimum central corneal thickness (MCCT), cylindrical diopter (ClyD), corneal volume (CVol) spheric aberrations (SphAbb), high-order aberration (HOA), coma values, and endothelial parameters were recorded.
The research and control groups were similar in terms of age, body mass index, and gender distribution. There was no significant difference between the groups in the corneal SimK and CylD, parameters. However, HOA, Coma, SphAbb, and cell variability (Cv) values were significantly higher in the study group, and contrarily MCCT, CVol, and endothelial count (Cd) values were significantly lower.
Our findings suggest that individuals with relatively lower MCCT values tend to develop meniscal damage after low-energy activity. Hence, the loss of corneal strength in these patients may be a sign of possible weakness in the meniscus. The HOA value above 0.26, the coma value above 0.16, and the SphAbb value above 0.1 may significantly increase the possible meniscus injury.
视力障碍可导致平衡问题。因此,角膜偏离度增加导致的视力障碍可导致下肢突然出现不稳定的负荷。我们旨在研究低能量半月板损伤与角膜结构测量之间的可能关系。
这是一项前瞻性、观察性研究,纳入了年龄在 18-40 岁之间、体重指数正常的个体。研究组包括 54 例因低能量活动导致 2 级或 3 级半月板损伤的患者。对照组包括 54 例膝关节无任何不适的健康个体。使用 Scheimpflug 角膜地形和共焦显微镜设备评估所有参与者的角膜参数。记录模拟角膜曲率(SimK)、角膜中央最小厚度(MCCT)、角膜散光(ClyD)、角膜体积(CVol)、球差(SphAbb)、高阶像差(HOA)、彗差值和内皮参数。
研究组和对照组在年龄、体重指数和性别分布方面相似。两组之间的角膜 SimK 和 CylD 参数无显著差异。然而,研究组的 HOA、Coma、SphAbb 和细胞变异系数(Cv)值显著较高,而 MCCT、CVol 和内皮细胞计数(Cd)值显著较低。
我们的研究结果表明,MCCT 值相对较低的个体在低能量活动后更容易发生半月板损伤。因此,这些患者角膜强度的丧失可能是半月板可能变弱的迹象。HOA 值大于 0.26、彗差值大于 0.16 和球差值大于 0.1 可能显著增加半月板损伤的可能性。
