视网膜专家与人工智能检测 OCT 中的视网膜液:年龄相关性眼病研究 2:10 年随访研究。
Retinal Specialist versus Artificial Intelligence Detection of Retinal Fluid from OCT: Age-Related Eye Disease Study 2: 10-Year Follow-On Study.
机构信息
Division of Epidemiology and Clinical Applications, National Eye Institute, National Institutes of Health, Bethesda, Maryland.
The EMMES Company, LLC, Rockville, Maryland.
出版信息
Ophthalmology. 2021 Jan;128(1):100-109. doi: 10.1016/j.ophtha.2020.06.038. Epub 2020 Jun 27.
PURPOSE
To evaluate the performance of retinal specialists in detecting retinal fluid presence in spectral domain OCT (SD-OCT) scans from eyes with age-related macular degeneration (AMD) and compare performance with an artificial intelligence algorithm.
DESIGN
Prospective comparison of retinal fluid grades from human retinal specialists and the Notal OCT Analyzer (NOA) on SD-OCT scans from 2 common devices.
PARTICIPANTS
A total of 1127 eyes of 651 Age-Related Eye Disease Study 2 10-year Follow-On Study (AREDS2-10Y) participants with SD-OCT scans graded by reading center graders (as the ground truth).
METHODS
The AREDS2-10Y investigators graded each SD-OCT scan for the presence/absence of intraretinal and subretinal fluid. Separately, the same scans were graded by the NOA.
MAIN OUTCOME MEASURES
Accuracy (primary), sensitivity, specificity, precision, and F1-score.
RESULTS
Of the 1127 eyes, retinal fluid was present in 32.8%. For detecting retinal fluid, the investigators had an accuracy of 0.805 (95% confidence interval [CI], 0.780-0.828), a sensitivity of 0.468 (95% CI, 0.416-0.520), a specificity of 0.970 (95% CI, 0.955-0.981). The NOA metrics were 0.851 (95% CI, 0.829-0.871), 0.822 (95% CI, 0.779-0.859), 0.865 (95% CI, 0.839-0.889), respectively. For detecting intraretinal fluid, the investigator metrics were 0.815 (95% CI, 0.792-0.837), 0.403 (95% CI, 0.349-0.459), and 0.978 (95% CI, 0.966-0.987); the NOA metrics were 0.877 (95% CI, 0.857-0.896), 0.763 (95% CI, 0.713-0.808), and 0.922 (95% CI, 0.902-0.940), respectively. For detecting subretinal fluid, the investigator metrics were 0.946 (95% CI, 0.931-0.958), 0.583 (95% CI, 0.471-0.690), and 0.973 (95% CI, 0.962-0.982); the NOA metrics were 0.863 (95% CI, 0.842-0.882), 0.940 (95% CI, 0.867-0.980), and 0.857 (95% CI, 0.835-0.877), respectively.
CONCLUSIONS
In this large and challenging sample of SD-OCT scans obtained with 2 common devices, retinal specialists had imperfect accuracy and low sensitivity in detecting retinal fluid. This was particularly true for intraretinal fluid and difficult cases (with lower fluid volumes appearing on fewer B-scans). Artificial intelligence-based detection achieved a higher level of accuracy. This software tool could assist physicians in detecting retinal fluid, which is important for diagnostic, re-treatment, and prognostic tasks.
目的
评估视网膜专家在检测年龄相关性黄斑变性(AMD)患者的光谱域 OCT(SD-OCT)扫描中视网膜液存在的表现,并与人工智能算法进行比较。
设计
对来自 2 种常见设备的 SD-OCT 扫描中,人类视网膜专家和 Notal OCT 分析仪(NOA)的视网膜液分级进行前瞻性比较。
参与者
共有 1127 只来自年龄相关性眼病研究 2 期 10 年随访研究(AREDS2-10Y)的参与者的 SD-OCT 扫描,由阅读中心分级员(作为金标准)进行分级。
方法
AREDS2-10Y 研究人员对每只 SD-OCT 扫描是否存在视网膜内和视网膜下液进行分级。另外,同一批扫描由 NOA 单独分级。
主要观察指标
准确性(主要指标)、敏感度、特异度、精密度和 F1 评分。
结果
在 1127 只眼中,有 32.8%的眼中存在视网膜液。对于检测视网膜液,研究人员的准确性为 0.805(95%置信区间[CI],0.780-0.828),敏感度为 0.468(95%CI,0.416-0.520),特异度为 0.970(95%CI,0.955-0.981)。NOA 指标分别为 0.851(95%CI,0.829-0.871)、0.822(95%CI,0.779-0.859)和 0.865(95%CI,0.839-0.889)。对于检测视网膜内液,研究人员的指标分别为 0.815(95%CI,0.792-0.837)、0.403(95%CI,0.349-0.459)和 0.978(95%CI,0.966-0.987);NOA 指标分别为 0.877(95%CI,0.857-0.896)、0.763(95%CI,0.713-0.808)和 0.922(95%CI,0.902-0.940)。对于检测视网膜下液,研究人员的指标分别为 0.946(95%CI,0.931-0.958)、0.583(95%CI,0.471-0.690)和 0.973(95%CI,0.962-0.982);NOA 指标分别为 0.863(95%CI,0.842-0.882)、0.940(95%CI,0.867-0.980)和 0.857(95%CI,0.835-0.877)。
结论
在这项使用 2 种常见设备获得的大型和具有挑战性的 SD-OCT 扫描样本中,视网膜专家在检测视网膜液方面的准确性和敏感度并不理想。对于视网膜内液和困难病例(更少的 B 扫描上出现更少的液体),这一点尤其如此。基于人工智能的检测达到了更高的准确性水平。这种软件工具可以帮助医生检测视网膜液,这对于诊断、再治疗和预后任务都很重要。
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