丝裂霉素C对屈光性角膜切削术后人角膜的细胞效应。
Cellular effects of mitomycin-C on human corneas after photorefractive keratectomy.
作者信息
Rajan Madhavan S, O'Brart David P S, Patmore Anne, Marshall John
机构信息
Department of Academic Ophthalmology, Rayne Institute, St Thomas' Hospital, London, UK.
出版信息
J Cataract Refract Surg. 2006 Oct;32(10):1741-7. doi: 10.1016/j.jcrs.2006.05.014.
PURPOSE
To investigate the effects of mitomycin-C (MMC) on epithelial and keratocyte cell kinetics after photorefractive keratectomy (PRK) using an in vitro human cornea model.
SETTING
Department of Academic Ophthalmology, Rayne Institute, St. Thomas' Hospital, London, United Kingdom.
METHODS
Twenty-four human eye-bank corneas were placed in a specially designed acrylic corneal holder and cultured using the air-interface organ culture technique for up to 4 weeks. The corneas were divided into 3 groups. Group 1 consisted of 8 human corneas that had -9.00 diopter (D) myopic PRK without MMC application. Group 2 consisted of 8 corneas that had -9.00 D PRK with MMC (0.2 microg/mL) application for 1 minute on the stromal surface after ablation. Group 3 consisted of 8 corneas that had -9.00 D PRK with 2-minute exposure to MMC (0.2 microg/mL). Temporal events in epithelial and keratocyte cell kinetics were evaluated using digital imaging, confocal microscopy, and light microscopy.
RESULTS
Epithelial latency was significantly delayed with MMC application in Groups 2 and 3 (P<.001). Epithelial migration was delayed in Group 3 (2-minute exposure) compared to migration in Group 2 (P<.04), with a consequent delay in epithelial closure (P<.001). Group 3 corneas had poorly differentiated epithelium that was significantly thinner than in Groups 1 and 2 (P<.0001). A significant delay in keratocyte regeneration occurred after MMC application (P<.0005). At 4 weeks, the anterior stromal cell density was significantly lower in Group 3 than Group 2 (P<.001). There were no significant differences in the mid- and posterior stromal keratocyte density between the groups.
CONCLUSIONS
Results suggest that epithelial healing after MMC is characterized by prolonged latency and decreased migration rate dependent on exposure time. Mitomycin C application did not result in increased loss of keratocytes, but it significantly delayed keratocyte repopulation in the anterior stroma. The use of MMC 0.2 microg/mL for 1 minute resulted in optimum modulation of healing characterized by reduced keratocyte activation with normal epithelial differentiation.
目的
使用体外人角膜模型研究丝裂霉素-C(MMC)对屈光性角膜切削术(PRK)后上皮细胞和角膜细胞动力学的影响。
设置
英国伦敦圣托马斯医院雷恩研究所学术眼科系。
方法
将24个人眼库角膜置于特制的丙烯酸角膜固定器中,采用空气界面器官培养技术培养长达4周。角膜分为3组。第1组由8个人类角膜组成,接受-9.00屈光度(D)的近视PRK且未应用MMC。第2组由8个角膜组成,接受-9.00 D的PRK,在切削后于基质表面应用MMC(0.2微克/毫升)1分钟。第3组由8个角膜组成,接受-9.00 D的PRK并暴露于MMC(0.2微克/毫升)2分钟。使用数字成像、共聚焦显微镜和光学显微镜评估上皮细胞和角膜细胞动力学的时间事件。
结果
第2组和第3组应用MMC后上皮延迟期显著延长(P<0.001)。与第2组相比,第3组(2分钟暴露)的上皮迁移延迟(P<0.04),上皮闭合随之延迟(P<0.001)。第3组角膜的上皮分化不良,明显比第1组和第2组薄(P<0.0001)。应用MMC后角膜细胞再生显著延迟(P<0.0005)。4周时,第3组前基质细胞密度显著低于第2组(P<0.001)。各组中、后基质角膜细胞密度无显著差异。
结论
结果表明,MMC治疗后的上皮愈合特点是延迟期延长和迁移率降低,这取决于暴露时间。应用丝裂霉素C不会导致角膜细胞损失增加,但会显著延迟前基质中角膜细胞的重新填充。使用0.2微克/毫升的MMC 1分钟可实现愈合的最佳调节,其特点是角膜细胞活化减少且上皮正常分化。
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