时域和频域光相干断层扫描在鉴别视盘隆起和视盘水肿中的敏感性和特异性。
Sensitivity and specificity of time-domain and spectral-domain optical coherence tomography in differentiating optic nerve head drusen and optic disc oedema.
机构信息
Ophthalmology Unit, Alcorcon Foundation University Hospital, Madrid, Spain.
出版信息
Ophthalmic Physiol Opt. 2012 May;32(3):213-21. doi: 10.1111/j.1475-1313.2012.00902.x. Epub 2012 Mar 16.
PURPOSE
To evaluate the efficacy of time-domain optical coherence tomography (TD-OCT) and spectral-domain optical coherence tomography (SD-OCT) in differentiating between optic nerve head drusen (ONHD) and optic disc oedema (ODE).
METHODS
We studied 66 patients with ONHD, 31 patients with ODE, and 70 controls using TD-OCT and SD-OCT. We analysed two aspects of the tomographic findings: (i) quantitative, through measurement of the retinal nerve fibre layer (RNFL) and papillary elevation; and (ii) qualitative, through assessment of the hyporeflective space, morphology of the internal contour, focal papillary mass and RNFL increases in seven contiguous clock hours. We evaluated the sensitivity, specificity, intra-class correlation coefficient (ICC), and inter-observer agreement (κ).
RESULTS
The quantitative analysis of the RNFL revealed an average thickness of the RNFL <124μm with TD-OCT (sensitivity=91%; specificity=94%) and <116μm with SD-OCT (sensitivity=91%; specificity=97%). The thickness of the nasal quadrant was <108μm with TD-OCT (sensitivity=89%; specificity=87%) and with SD-OCT was <92μm (sensitivity=88%; specificity=94%), however without significant differences between the nasal, superior and inferior quadrants' and average thickness. The measurement of papillary elevation was 0.85mm with TD-OCT (sensitivity=96%; specificity=84% [ICC=0.96]) and was <0.80 mm with SD-OCT (sensitivity=86%; specificity=87% [ICC=0.94]). The abrupt termination of the hyporeflective space measured with TD-OCT had sensitivity=79% and specificity=90% (κ=0.60) and with SD-OCT had sensitivity=88% and specificity=89% (κ=0.75); the irregularity of the internal contour with TD-OCT had sensitivity=80% and specificity=90% (κ=0.70) and with SD-OCT had sensitivity=88% and specificity=90% (κ=0.75); and the absence of seven contiguous clock hours had values of sensitivity=97% and specificity=77% with TD-OCT and had sensitivity=98% and specificity=77% with SD-OCT.
CONCLUSIONS
Optical coherence tomography allowed for differentiation between ONHD and ODE, yielding similar results with TD-OCT and SD-OCT. The new quantitative parameters of papillary elevation and RNFL measurements showed greater sensitivity and specificity than the qualitative criteria.
目的
评估时域光学相干断层扫描(TD-OCT)和频域光学相干断层扫描(SD-OCT)在鉴别视神经头小体(ONHD)和视盘水肿(ODE)中的效果。
方法
我们使用 TD-OCT 和 SD-OCT 研究了 66 例 ONHD 患者、31 例 ODE 患者和 70 例对照者。我们分析了断层扫描结果的两个方面:(i)通过测量视网膜神经纤维层(RNFL)和视盘抬高进行定量分析;(ii)通过评估低反射空间、内部轮廓形态、局灶性视盘肿块和 7 个连续时钟小时的 RNFL 增加进行定性分析。我们评估了敏感性、特异性、组内相关系数(ICC)和观察者间一致性(κ)。
结果
TD-OCT 检测到的 RNFL 平均厚度<124μm(敏感性=91%,特异性=94%),SD-OCT 检测到的 RNFL 平均厚度<116μm(敏感性=91%,特异性=97%)。TD-OCT 检测到的鼻象限厚度<108μm(敏感性=89%,特异性=87%),SD-OCT 检测到的鼻象限厚度<92μm(敏感性=88%,特异性=94%),但鼻、上、下象限的平均厚度无显著差异。TD-OCT 检测到的视盘抬高测量值为 0.85mm(敏感性=96%,特异性=84%[ICC=0.96]),SD-OCT 检测到的视盘抬高测量值<0.80mm(敏感性=86%,特异性=87%[ICC=0.94])。TD-OCT 测量到的低反射空间突然终止的敏感性=79%,特异性=90%(κ=0.60),SD-OCT 测量到的低反射空间突然终止的敏感性=88%,特异性=89%(κ=0.75);TD-OCT 检测到的内部轮廓不规则的敏感性=80%,特异性=90%(κ=0.70),SD-OCT 检测到的内部轮廓不规则的敏感性=88%,特异性=90%(κ=0.75);TD-OCT 检测到的无 7 个连续时钟小时的敏感性=97%,特异性=77%,SD-OCT 检测到的无 7 个连续时钟小时的敏感性=98%,特异性=77%。
结论
光学相干断层扫描可区分 ONHD 和 ODE,TD-OCT 和 SD-OCT 产生的结果相似。新的定量参数视盘抬高和 RNFL 测量的敏感性和特异性均高于定性标准。
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