遗传性视网膜疾病中的屈光不正
Refractive Error in Inherited Retinal Disease.
作者信息
Yassin Shaden H, Wagner Naomi E, Khuu Thomas, Schmidt Ryan, Igelman Austin D, Marra Molly, Schwartz Hilary, Walker Evan, Nagiel Aaron, Yang Paul, Everett Lesley A, Pennesi Mark E, Borooah Shyamanga
机构信息
From the Shiley Eye Institute (S.H.Y., N.E.W., E.W., S.B.), University of California, La Jolla, California.
Casey Eye Institute (T.K., R.S., A.D.I., M.M., P.Y., L.A.E., M.E.P.), Oregon Health and Science University, Portland, Oregon.
出版信息
Am J Ophthalmol. 2025 Jan;269:381-392. doi: 10.1016/j.ajo.2024.09.011. Epub 2024 Sep 18.
PURPOSE
Inherited retinal dystrophies (IRDs) lead to significant vision impairment. Refractive errors (REs) are also associated with vision impairment and an increased risk of ocular comorbidities and may compound impairment caused by IRDs. Identifying the pattern of RE in IRDs may assist in better management of patients with IRD and provide insights into understanding genetic associations with RE. The aim of this study was to investigate the patterns of RE in patients with IRD from three academic ophthalmology referral centers.
DESIGN
Retrospective multicenter cohort study.
METHODS
Chart review of clinically and molecularly confirmed IRD cases seen at the University of California San Diego, Oregon Health and Science University, and Children's Hospital Los Angeles. Data retrieved included patient demographics, disease phenotype, genotype, best-corrected visual acuity, objective, and/or subjective refraction.
RESULTS
A total of 1942 patients' notes were reviewed. Of these, 634 patients (1255 eyes) had refractive data. For genes associated with myopia, NYX (n = 14 [1%]) was associated with the highest spherical equivalent RE of myopia (mean -9.26 diopters [D] [95% CI -11.867 to -6.651], P < .001) followed by IMPG2 (n = 16 [1.1%]) (mean -4.062 D [95% CI -6.254 to -1.871], P = .002), then RPGR (n = 104 [7.2%]) (mean -2.664 D [95% CI -3.618 to -1.710], P = .016) and for genes associated with hyperopia, BEST1 (n = 38 [2.6%]) had the highest spherical equivalent RE for hyperopia (mean 2.996 D [95% CI 1.830-4.162], P < .001) followed by RS1 (n = 26 [1.8%]) (mean 2.562 D [95% CI 1.454-3.671], P < .001), then CNGA3 (n = 28 [1.9%]) (mean 0.603 D [95% CI -0.48 to 1.686], P = .009). Overall, patients with IRD were significantly more myopic than age-matched control participants.
CONCLUSION
By combining genetic testing with refraction data from a large cohort of patients, we identify IRD genes associated with myopia and hyperopia. However, we find that the pattern of ametropia varies widely not only by gene but also within a gene cohort. The genes identified to be associated with RE are candidates for further in-depth investigation to understand their functional role in RE.
目的
遗传性视网膜营养不良(IRD)会导致严重的视力损害。屈光不正(RE)也与视力损害以及眼部合并症风险增加相关,并且可能加重IRD所致的损害。确定IRD中的屈光不正模式可能有助于更好地管理IRD患者,并为理解与屈光不正的遗传关联提供见解。本研究的目的是调查来自三个学术眼科转诊中心的IRD患者的屈光不正模式。
设计
回顾性多中心队列研究。
方法
对加利福尼亚大学圣地亚哥分校、俄勒冈健康与科学大学以及洛杉矶儿童医院临床和分子确诊的IRD病例进行病历审查。检索的数据包括患者人口统计学、疾病表型、基因型、最佳矫正视力、客观和/或主观验光。
结果
共审查了1942份患者病历。其中,634名患者(1255只眼)有屈光数据。对于与近视相关的基因,NYX(n = 14 [1%])与最高的近视等效球镜度屈光不正相关(平均-9.26屈光度[D][95%可信区间-11.867至-6.651],P <.001),其次是IMPG2(n = 16 [1.1%])(平均-4.062 D[95%可信区间-6.254至-1.871],P =.002),然后是RPGR(n = 104 [7.2%])(平均-2.664 D[95%可信区间-3.618至-1.710],P =.016);对于与远视相关的基因,BEST1(n = 38 [2.6%])具有最高的远视等效球镜度屈光不正(平均2.996 D[95%可信区间1.830 - 4.162],P <.001),其次是RS1(n = 26 [1.8%])(平均2.562 D[95%可信区间1.454 - 3.671],P <.001),然后是CNGA3(n = 28 [1.9%])(平均0.603 D[95%可信区间-0.48至1.686],P =.009)。总体而言,IRD患者比年龄匹配的对照参与者明显更近视。
结论
通过将基因检测与大量患者的验光数据相结合,我们确定了与近视和远视相关的IRD基因。然而,我们发现屈光不正模式不仅因基因而异,而且在一个基因队列中也有很大差异。确定与屈光不正相关的基因是进一步深入研究以了解其在屈光不正中功能作用的候选对象。
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