{"title":"Contact lens wear after photorefractive keratectomy: comparison between rigid gas permeable and soft contact lenses.","authors":"L Lim, K L Siow, J S Chong, D T Tan","doi":"","DOIUrl":null,"url":null,"abstract":"<p><strong>Purpose: </strong>To determine if rigid gas permeable (RGP) or soft contact lenses can be successfully worn after photorefractive keratectomy (PRK) to correct residual refractive errors.</p><p><strong>Methods: </strong>Patients with residual stable ametropia after PRK were fit with RGP or soft lenses. Manifest refraction, corneal topography, and keratometry were performed, and post-PRK corneal haze was graded during the study visits. Contact lens fit characteristics and comfort were assessed. Lens centration, visual quality, and ocular surface status were graded, and visual acuity with contact lenses was charted.</p><p><strong>Results: </strong>Eighteen patients were recruited for RGP lens fitting. The mean refractive error post-PRK was +0.80 D +/- 2.03 (range: -3.50 to+3.00 D). The mean contact lens power was -3.90 D +/- 2.03 (range: 0 to -7.00 D), and the mean contact lens base curve was 7.88 mm +/-0.16. A significant positive tear film at the site of the central ablation was noted, contributing to excessive minus lens power in all cases. Despite mild to moderate lens instability and de-centration, 14 patients reported excellent visual quality with the lenses, and pre-PRK best-corrected acuity was achieved in all patients. Twenty-five percent (4 of 16) of the patients were able to wear the lenses all day. Eleven patients were recruited for soft contact lens fitting-five from the RGP trial. The mean refractive error post-PRK was -0.64 D +/- 2.01 (range: -3.50 to +1.75D). The mean contact lens power was -0.60 D +/- 2.07 (range: -3.75 to +2.5 D), and the mean contact lens base curve was 8.33 mm +/- 0.42. Eight patients were corrected with lenses to their pre-PRK best-corrected acuity, and nine patients reported excellent visual quality with the lenses. All the patients had excellent lens centration. Thirty-six percent (four of 11) of patients were wearing the lenses all day.</p><p><strong>Conclusions: </strong>Fitting RGP lenses after PRK results in good visual acuity but may be associated with mild to moderate lens instability and decentration. Soft contact lens fitting also results in good visual acuity. Soft lenses were better tolerated by the subjects in our study because of improved lens centration and stability.</p>","PeriodicalId":22367,"journal":{"name":"The CLAO journal : official publication of the Contact Lens Association of Ophthalmologists, Inc","volume":"25 4","pages":"222-7"},"PeriodicalIF":0.0000,"publicationDate":"1999-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"The CLAO journal : official publication of the Contact Lens Association of Ophthalmologists, Inc","FirstCategoryId":"1085","ListUrlMain":"","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Purpose: To determine if rigid gas permeable (RGP) or soft contact lenses can be successfully worn after photorefractive keratectomy (PRK) to correct residual refractive errors.
Methods: Patients with residual stable ametropia after PRK were fit with RGP or soft lenses. Manifest refraction, corneal topography, and keratometry were performed, and post-PRK corneal haze was graded during the study visits. Contact lens fit characteristics and comfort were assessed. Lens centration, visual quality, and ocular surface status were graded, and visual acuity with contact lenses was charted.
Results: Eighteen patients were recruited for RGP lens fitting. The mean refractive error post-PRK was +0.80 D +/- 2.03 (range: -3.50 to+3.00 D). The mean contact lens power was -3.90 D +/- 2.03 (range: 0 to -7.00 D), and the mean contact lens base curve was 7.88 mm +/-0.16. A significant positive tear film at the site of the central ablation was noted, contributing to excessive minus lens power in all cases. Despite mild to moderate lens instability and de-centration, 14 patients reported excellent visual quality with the lenses, and pre-PRK best-corrected acuity was achieved in all patients. Twenty-five percent (4 of 16) of the patients were able to wear the lenses all day. Eleven patients were recruited for soft contact lens fitting-five from the RGP trial. The mean refractive error post-PRK was -0.64 D +/- 2.01 (range: -3.50 to +1.75D). The mean contact lens power was -0.60 D +/- 2.07 (range: -3.75 to +2.5 D), and the mean contact lens base curve was 8.33 mm +/- 0.42. Eight patients were corrected with lenses to their pre-PRK best-corrected acuity, and nine patients reported excellent visual quality with the lenses. All the patients had excellent lens centration. Thirty-six percent (four of 11) of patients were wearing the lenses all day.
Conclusions: Fitting RGP lenses after PRK results in good visual acuity but may be associated with mild to moderate lens instability and decentration. Soft contact lens fitting also results in good visual acuity. Soft lenses were better tolerated by the subjects in our study because of improved lens centration and stability.
目的:探讨光屈光性角膜切除术(PRK)后是否可以成功配戴硬性透气性隐形眼镜(RGP)或软性隐形眼镜以矫正残余屈光不正。方法:对PRK术后残余稳定性屈光不正患者配戴RGP或软性晶状体。进行明显屈光、角膜地形图和角膜测量,并在研究访问期间对prk后角膜雾霭进行分级。评估隐形眼镜的贴合特性和舒适度。对隐形眼镜的晶状体集中度、视觉质量和眼表状态进行分级,并绘制视力图表。结果:18例患者接受RGP晶状体配合术。prk后平均屈光不正为+0.80 D +/- 2.03(范围:-3.50 ~ +3.00 D),平均隐形眼镜度数为-3.90 D +/- 2.03(范围:0 ~ -7.00 D),平均隐形眼镜底曲线为7.88 mm +/-0.16。在中心消融部位发现明显的阳性泪膜,导致所有病例中过度负晶状体功率。尽管有轻度到中度的晶状体不稳定和去中心化,14例患者报告了良好的视力质量,所有患者都达到了prk前最佳矫正视力。25%(16名患者中的4名)的患者能够整天佩戴隐形眼镜。招募了11名患者进行软性隐形眼镜配戴,其中5名来自RGP试验。prk后的平均屈光误差为-0.64 D +/- 2.01(范围:-3.50至+1.75D)。平均隐形眼镜度数为-0.60 D +/- 2.07(范围:-3.75 ~ +2.5 D),平均隐形眼镜底曲线为8.33 mm +/- 0.42。8名患者使用晶状体矫正到prk前的最佳矫正视力,9名患者报告使用晶状体后的视觉质量非常好。所有患者晶状体集中良好。36%(11人中有4人)的患者一整天都戴着隐形眼镜。结论:PRK术后配戴RGP晶状体可获得良好的视力,但可能伴有轻度至中度晶状体不稳定和晶状体脱位。软性隐形眼镜配戴也能提高视力。在我们的研究中,由于改善了晶状体的集中和稳定性,受试者对软晶状体的耐受性更好。
求助内容:
应助结果提醒方式:
京公网安备 11010802042870号
