Impact of anatomic variability and other vascular factors on lamina cribrosa hypoxia

Yuankai Lu, Yi Hua, Po-Yi Lee, Andrew Theophanous, Shaharoz Tahir, Qi Tian, Ian A Sigal
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Abstract

Insufficient oxygenation in the lamina cribrosa (LC) may contribute to axonal damage and glaucomatous vision loss. To understand the range of susceptibilities to glaucoma, we aimed to identify key factors influencing LC oxygenation and examine if these factors vary with anatomical differences between eyes. We reconstructed 3D, eye-specific LC vessel networks from histological sections of four healthy monkey eyes. For each network, we generated 125 models varying vessel radius, oxygen consumption rate, and arteriole perfusion pressure. Using hemodynamic and oxygen supply modeling, we predicted blood flow distribution and tissue oxygenation in the LC. ANOVA assessed the significance of each parameter. Our results showed that vessel radius had the greatest influence on LC oxygenation, followed by anatomical variations. Arteriole perfusion pressure and oxygen consumption rate were the third and fourth most influential factors, respectively. The LC regions are well perfused under baseline conditions. These findings highlight the importance of vessel radius and anatomical variation in LC oxygenation, providing insights into LC physiology and pathology. Pathologies affecting vessel radius may increase the risk of LC hypoxia, and anatomical variations could influence susceptibility. Conversely, increased oxygen consumption rates had minimal effects, suggesting that higher metabolic demands, such as those needed to maintain intracellular transport despite elevated intraocular pressure, have limited impact on LC oxygenation.
解剖变异和其他血管因素对肋膜缺氧的影响
颅底薄层(LC)氧合作用不足可能会导致轴突损伤和青光眼性视力减退。为了了解青光眼的易感性范围,我们旨在确定影响颅底缺氧的关键因素,并研究这些因素是否会随着眼部解剖学差异而变化。我们从四只健康猴子眼睛的组织切片中重建了三维的、眼睛特异性的低浓血管网络。对于每个网络,我们生成了 125 个不同血管半径、耗氧量和动脉灌注压力的模型。通过血液动力学和供氧建模,我们预测了 LC 中的血流分布和组织氧合。方差分析评估了每个参数的显著性。结果表明,血管半径对 LC 氧合影响最大,其次是解剖学变化。动脉灌注压力和耗氧率分别是第三和第四大影响因素。在基线条件下,LC 区域的灌注良好。这些发现强调了血管半径和解剖学变化在 LC 氧合中的重要性,为 LC 的生理和病理提供了见解。影响血管半径的病变可能会增加 LC 缺氧的风险,而解剖结构的变化可能会影响易感性。相反,增加耗氧率的影响很小,这表明较高的新陈代谢需求,如在眼压升高的情况下维持细胞内运输所需的新陈代谢需求,对液相色谱含氧量的影响有限。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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