评估一个种族特异性的HRT-III规范数据库以区分青光眼性眼与正常眼。
Assessment of a race-specific normative HRT-III database to differentiate glaucomatous from normal eyes.
作者信息
Zelefsky Joseph R, Harizman Noga, Mora Ricardo, Ilitchev Elena, Tello Celso, Ritch Robert, Liebmann Jeffrey M
机构信息
Department of Ophthalmology, New York University School of Medicine, Valhalla, NY, USA.
出版信息
J Glaucoma. 2006 Dec;15(6):548-51. doi: 10.1097/01.ijg.0000212289.00917.a8.
PURPOSE
To determine if a new, normative, race-specific database enhances the ability of confocal scanning laser ophthalmoscopy to differentiate normal from glaucomatous eyes.
METHODS
One eye of eligible normal and glaucoma patients was enrolled. All subjects underwent a complete ophthalmologic examination, standard achromatic perimetry (SITA-SAP, 24-2), and confocal scanning laser ophthalmoscopy [Heidelberg retinal tomograph (HRT-II)] within 1 month of enrollment. Racial groups were defined by self-report. Glaucoma was defined by the existence of reproducible SAP loss (pattern standard deviation <5% and/or Glaucoma Hemifield Test outside normal limits) on 2 consecutive fields. Normal subjects had 2 normal visual fields (pattern standard deviation >5% and Glaucoma Hemifield Test within 97% normal limits) and a normal clinical examination. HRT-II examinations were exported to the HRT-III software, which includes a large race-specific normative database consisting of 733 white and 215 black eyes. Moorfields regression analysis (MRA) for the most abnormal optic disc sector was compared between the HRT-II (MRA2) and the HRT-III software before (MRA3-B) and after (MRA3-A) adjustment for race. Sectors outside the 99.9% confidence interval limits ("outside normal limits") were determined to be abnormal.
RESULTS
We enrolled 124 black (52 glaucoma, 72 normal) and 96 white (32 glaucoma, 64 normal) subjects. Mean age was 51+/-13 years and 50+/-16 years for blacks and whites, respectively (P = 0.45). Visual field mean deviation was -7.3+/-6.7 db for glaucomatous eyes and -0.4+/-1.1 db for normal eyes (P < 0.001). Sensitivity and specificity for the HRT-II was 71.9% and 95.3%, respectively, for white subjects and 50.0% and 98.6%, respectively, for black subjects. Using the expanded HRT-III database, analysis yielded a sensitivity of 81.3% and specificity of 93.8% for whites and a sensitivity of 71.2% and specificity of 86.1% for blacks. After an adjustment for black ethnicity was made in the HRT-III program, the sensitivity and specificity for blacks was 65.4% and 90.3%, respectively.
CONCLUSIONS
A new, larger, race-specific HRT-III database increases sensitivity while maintaining specificity for whites and increases sensitivity but decreases specificity for blacks. New software and databases based on race require careful scrutiny before use in clinical practice.
目的
确定一个新的、规范的、针对特定种族的数据库是否能增强共焦扫描激光眼科显微镜区分正常眼和青光眼眼的能力。
方法
纳入符合条件的正常人和青光眼患者的一只眼睛。所有受试者在入组后1个月内接受了全面的眼科检查、标准的无色视野检查(SITA-SAP,24-2)和共焦扫描激光眼科显微镜检查[海德堡视网膜断层扫描仪(HRT-II)]。种族分组通过自我报告确定。青光眼的定义为连续2个视野出现可重复的视野缺损(模式标准差<5%和/或青光眼半视野检查超出正常范围)。正常受试者有2个正常视野(模式标准差>5%且青光眼半视野检查在正常范围的97%以内)且临床检查正常。HRT-II检查结果被导出到HRT-III软件,该软件包含一个大型的针对特定种族的规范数据库,由733只白人眼睛和215只黑人眼睛组成。对最异常的视盘区域进行的 Moorfields 回归分析(MRA)在HRT-II(MRA2)与HRT-III软件调整种族之前(MRA3-B)和之后(MRA3-A)进行了比较。超出99.9%置信区间范围(“超出正常范围”)的区域被判定为异常。
结果
我们纳入了124名黑人(52例青光眼,72例正常)和96名白人(32例青光眼,64例正常)受试者。黑人的平均年龄为51±13岁,白人为50±16岁(P = 0.45)。青光眼眼的视野平均偏差为-7.3±6.7 dB,正常眼为-0.4±1.1 dB(P < 0.001)。HRT-II对白种人的敏感性和特异性分别为71.9%和95.3%,对黑种人分别为50.0%和98.6%。使用扩展后的HRT-III数据库,分析得出白种人的敏感性为81.3%,特异性为93.8%,黑种人的敏感性为71.2%,特异性为86.1%。在HRT-III程序中对黑人种族进行调整后,黑人的敏感性和特异性分别为65.4%和90.3%。
结论
一个新的、更大的、针对特定种族的HRT-III数据库提高了白种人的敏感性同时保持了特异性,提高了黑种人的敏感性但降低了特异性。基于种族的新软件和数据库在临床实践中使用前需要仔细审查。
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