Department of Ophthalmology, Waterford Regional Hospital, Waterford, Ireland.
Clin Exp Ophthalmol. 2010 Apr;38(3):255-65. doi: 10.1111/j.1442-9071.2010.02211.x.
To report the value of dual biometry in the detection of biometry errors.
Study 1: retrospective study of 224 consecutive cataract operations. The intraocular lens power calculation was based on immersion biometry. Study 2: immersion biometry was compared with optical coherence biometry (OCB) in terms of axial length, anterior chamber depth, keratometry readings and the recommended lens power to achieve emmetropia. Study 3: prospective study of 61 consecutive cataract operations. Both immersion and OCB were performed, but lens power calculation was based on the latter.
Study 1: 115 (86%), 101 (75.4%), 90 (67.2%) and 50 (37.3%) of postoperative spherical equivalents were within +/-1.5 dioptres (D), +/-1.25 D, +/-1 D and +/-0.5 D of the target, respectively. Study 2: excellent agreement between axial length readings, anterior chamber depth readings and keratometry readings by immersion biometry and OCB was observed (reflected in a mean bias of -0.065 mm, -0.048 mm and +0.1803 D, respectively, in association with OCB). Agreement between the lens power recommended by each technique to achieve emmetropia was poor (mean bias of +1.16 D in association with OCB), but improved following appropriate modification of lens constants in the Accutome A-scan software (mean bias with OCB = -0.4 D). Study 3: 37 (92.5%) and 23 (57.5%) of operated eyes achieved a postoperative refraction within +/-1 D and +/-0.5 D of target, respectively.
Systematic errors in biometry can exist, in the presence of acceptable postoperative refractive results. Dual biometry allows each biometric parameter to be scrutinized in isolation, and identify sources of error that may otherwise go undetected.
报告双眼生物测量在发现生物测量误差中的价值。
研究 1:回顾性研究 224 例连续白内障手术。人工晶状体屈光度计算基于浸液生物测量。研究 2:比较浸液生物测量与光相干生物测量(OCB)在眼轴长度、前房深度、角膜曲率读数和推荐的用于实现正视的晶状体屈光度方面的差异。研究 3:前瞻性研究 61 例连续白内障手术。均进行浸液和 OCB,但晶状体屈光度计算基于后者。
研究 1:术后 115 只眼(86%)、101 只眼(75.4%)、90 只眼(67.2%)和 50 只眼(37.3%)的球镜等效值分别在目标值的 +/-1.5 屈光度(D)、 +/-1.25 D、 +/-1 D 和 +/-0.5 D 范围内。研究 2:浸液生物测量与 OCB 的眼轴长度读数、前房深度读数和角膜曲率读数具有极好的一致性(反映在与 OCB 相关的平均偏差分别为-0.065mm、-0.048mm 和+0.1803D)。两种技术推荐的实现正视的晶状体屈光度之间的一致性较差(与 OCB 相关的平均偏差为+1.16D),但在 Accutome A 扫描软件中适当修改晶状体常数后有所改善(与 OCB 相关的平均偏差为-0.4D)。研究 3:37 只眼(92.5%)和 23 只眼(57.5%)术后屈光度在目标值的 +/-1 D 和 +/-0.5 D 范围内。
在术后可接受的屈光结果下,生物测量可能存在系统误差。双眼生物测量可单独检查每个生物测量参数,并发现可能未被发现的误差源。
