Thornton Ivey L, Dupps William J, Sinha Roy Abhijit, Krueger Ronald R
Cole Eye Institute, Lerner Research Institute, Cleveland Clinic, Cleveland, Ohio 44195, USA.
Invest Ophthalmol Vis Sci. 2009 Mar;50(3):1227-33. doi: 10.1167/iovs.08-1960. Epub 2008 Oct 24.
To evaluate the biomechanical effect of intraocular pressure (IOP) elevation on the optic nerve/lamina cribrosa complex (ON/LC) and peripapillary sclera (PS) of porcine eyes before and after localized collagen cross-linking.
Eighteen porcine globes were divided evenly into three groups. The optic nerves were transected to expose the ON/LC, and each globe was infused through an in-line pressure transducer for direct IOP control. Surface wave velocity, a nondestructive measure of tissue stiffness, was measured across the ON/LC and PS before and after collagen cross-linking at IOPs of 10 and 30 mm Hg (groups 1 and 2) and at each globe's preinflation IOP and 80 mm Hg (group 3). In group 3, papillary strain was measured by analyzing the displacement of fiducial marks immediately adjacent to the ON/LC by using digital photography. Cross-linking in group 1 was achieved with riboflavin-ultraviolet A (UVA) delivery to the entire ON/LC and PS and, in groups 2 and 3, with an annular sponge soaked in glutaraldehyde (GTA) and applied only to the PS.
Native PS was significantly stiffer than the ON/LC across all experiments. Before cross-linking, IOP elevation caused significant stiffening of both the ON/LC and PS. After cross-linking with either technique, IOP elevation stiffened the PS but not the ON/LC region. In group 3, papillary strain during IOP elevation was significantly reduced after PS cross-linking.
Stiffening of the peripapillary scleral ring reduces the biomechanical sensitivity of the ON/LC complex to IOP elevation and may represent a novel mechanism for neuroprotection in glaucoma.
评估眼压升高对猪眼在局部胶原交联前后视神经/筛板复合体(ON/LC)和视乳头周围巩膜(PS)的生物力学影响。
18个猪眼球被平均分为三组。切断视神经以暴露ON/LC,每个眼球通过在线压力传感器进行灌注以直接控制眼压。在眼压为10和30 mmHg时(第1组和第2组)以及在每个眼球的预充气眼压和80 mmHg时(第3组),在胶原交联前后测量跨越ON/LC和PS的表面波速度,这是一种无损测量组织硬度的方法。在第3组中,通过使用数码摄影分析紧邻ON/LC的基准标记的位移来测量乳头应变。第1组通过将核黄素 - 紫外线A(UVA)递送至整个ON/LC和PS实现交联,第2组和第3组通过浸泡在戊二醛(GTA)中的环形海绵并仅应用于PS实现交联。
在所有实验中,天然PS比ON/LC明显更硬。交联前,眼压升高导致ON/LC和PS均显著变硬。用任何一种技术交联后,眼压升高使PS变硬,但未使ON/LC区域变硬。在第3组中,PS交联后眼压升高期间的乳头应变显著降低。
视乳头周围巩膜环的硬化降低了ON/LC复合体对眼压升高的生物力学敏感性,可能代表青光眼神经保护的一种新机制。
