Department of Biomedical Engineering, MHeNS School for Mental Health and Neuroscience, Maastricht University, Maastricht, Netherlands.
Department of Clinical Neurophysiology, Maastricht University Medical Centre, Maastricht, Netherlands.
J Neuroimaging. 2021 Sep;31(5):814-825. doi: 10.1111/jon.12906. Epub 2021 Jul 16.
Reported cutoff values of the optic nerve sheath diameter (ONSD) for the diagnosis of elevated intracranial pressure (ICP) are inconsistent. This hampers ONSD as a possible noninvasive bedside monitoring tool for ICP. Because the influence of methodological differences on variations in cutoff values is unknown, we performed a narrative review to identify discrepancies in ONSD assessment methodologies and to investigate their effect on reported ONSD values.
We used a structured and quantitative approach in which each ONSD methodology found in the reviewed articles was categorized based on the characteristic appearance of the ultrasound images and ultrasound marker placement. Subsequently, we investigated the influence of the different methodologies on ONSD values by organizing the ONSDs with respect to these categories.
In a total of 63 eligible articles, we could determine the applied ONSD assessment methodology. Reported ultrasound images either showed the optic nerve and its sheath as a dark region with hyperechoic striped band at its edges or as a single dark region surrounded by lighter retrobulbar fat. Four different ultrasound marker positions were used to delineate the optic nerve sheath, which resulted in different ONSD values and more importantly, different sensitivities to changes in ICP.
Based on our observations, we recommend to place ultrasound markers at the outer edges of the hyperechoic striped bands or at the transitions from the single dark region to the hyperechoic retrobulbar fat because these locations yielded the highest sensitivity of ONSD measurements for increased ICP.
视神经鞘直径(ONSD)用于诊断颅内压升高(ICP)的报告临界值并不一致。这使得 ONSD 作为 ICP 的一种潜在的非侵入性床边监测工具受到了限制。由于方法学差异对临界值变化的影响尚不清楚,因此我们进行了叙述性综述,以确定 ONSD 评估方法中的差异,并研究其对报告的 ONSD 值的影响。
我们使用了一种结构化和定量的方法,根据超声图像的特征表现和超声标记的放置,对综述文章中发现的每一种 ONSD 方法进行分类。随后,我们根据这些类别组织 ONSD 值,以研究不同方法对 ONSD 值的影响。
在总共 63 篇合格的文章中,我们可以确定所应用的 ONSD 评估方法。报告的超声图像显示视神经及其鞘呈现为暗区,边缘呈高回声条纹带,或者呈现为一个被更亮的球后脂肪包围的单个暗区。有 4 种不同的超声标记位置用于描绘视神经鞘,这导致了不同的 ONSD 值,更重要的是,对 ICP 变化的敏感性也不同。
根据我们的观察,我们建议将超声标记放置在高回声条纹带的外边缘或从单个暗区到高回声球后脂肪的过渡处,因为这些位置的 ONSD 测量对 ICP 升高的敏感性最高。
