López-García José Santiago, Rivas Jara Luis, García-Lozano Isabel, Murube Juan
Ophthalmology Service, Hospital Cruz Roja, Madrid, Spain.
Cornea. 2007 Oct;26(9):1043-8. doi: 10.1097/ICO.0b013e31812375fd.
To study the histopathologic evolution of the corneal limbus after alkaline burns according to the clinical severity and therapy used.
A prospective study of 15 eyes from 12 patients (9 men and 3 women) with moderate and severe alkaline burns was performed. All patients were divided into 2 groups in accordance with the clinical ocular severity and the therapy that was used: medical therapy, amniotic membrane transplantation (AMT), autologous limbal transplantation (ALT), and ALT combined with AMT (ALT + AMT). Biopsies were obtained from affected limbal areas immediately after the ocular burn and 9 months later.
Limbal regeneration was limited to small areas in patients with moderate burns treated with medical therapy; in contrast, the limbal structure showed significant stromal and epithelial regeneration in patients with moderate burns treated with AMT. There was an important stromal regeneration with an incomplete reepithelialization in patients with severe burns treated with AMT. Patients treated with ALT showed a good reepithelialization with a defective stromal regeneration. Epithelial and stromal regeneration was notable in patients with severe burns treated with ALT + AMT.
In patients with moderate alkaline burns, AMT improved both limbal stromal and epithelial regeneration more effectively than medical therapy. In patients with severe burns, the best reepithelialization and stromal regeneration were obtained with ALT + AMT.
根据临床严重程度和所采用的治疗方法,研究碱性烧伤后角膜缘的组织病理学演变。
对12例患者(9例男性,3例女性)的15只眼进行了中度和重度碱性烧伤的前瞻性研究。所有患者根据临床眼部严重程度和所采用的治疗方法分为2组:药物治疗、羊膜移植(AMT)、自体角膜缘移植(ALT)以及ALT联合AMT(ALT + AMT)。在眼部烧伤后即刻和9个月后从受影响的角膜缘区域获取活检组织。
药物治疗的中度烧伤患者角膜缘再生仅限于小面积区域;相比之下,接受AMT治疗的中度烧伤患者角膜缘结构显示出明显的基质和上皮再生。接受AMT治疗的重度烧伤患者有重要的基质再生,但上皮再形成不完全。接受ALT治疗的患者上皮再形成良好,但基质再生有缺陷。接受ALT + AMT治疗的重度烧伤患者上皮和基质再生显著。
在中度碱性烧伤患者中,AMT比药物治疗更有效地改善了角膜缘基质和上皮再生。在重度烧伤患者中,ALT + AMT实现了最佳的上皮再形成和基质再生。
