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AIM:To investigate the feasibility of corneal posterior lamellar reconstruction with human umbilical vein endothelial cells (HUVECs) and porcine cornea acellular matrix in vitro, and to observe the physiological function of the transplantation in vivo. METHODS:HUVECs were isolated, cultured, and labeled with fluorescent dye CM-DiI. Porcine corneas were treated with 100% glycerinum, cut to a thinner structure step by step, and dried on the super-clean bench. Transmission electron microscope were used to observe the histological changes of the porcine cornea acellular matrix. Labeled HUVECs were seeded onto the porcine cornea acellular matrix, and examined by scanning electron microscopy. When the HUVECs and Descemets membrane fusion formed a monolayer, the corneal transplantation in rabbits was performed. Twenty-four New Zealand white rabbits were randomly divided into experimental group and control group (n=12 each), and their left eyes served as recipients. RESULTS:Cultured HUVECs exhibited polygonal shape. More than 90% HUVECs were labeled with CM-DiI and the cell membrane was positive with red fluorescence, which was detectable at least up to 3 generations. The histological examination indicated that porcine cornea cells were clearly extracted, and the collagen fibers were well arranged. A continuous monolayer of HUVECs on the porcine cornea acellular matrix was observed under scanning electron microscopy. The reconstructed corneal posterior lamellae were similar to the normal cornea. The observation of transplantation showed that the cornea in experimental group was substantially transparent. However, that in control group was oedematous and adiaphanous. CONCLUSION:Corneal posterior lamellae can be reconstructed in vitro by cultivating HUVECs on porcine cornea acellular matrix. After xenogeneic transplantation, the graft survives in vivo and expresses normal corneal endothelial cell biological functions. Deep lamellar corneal endothelial transplantation is an effective keratoplasty. 相似文献
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Immediate effects of diamond burr debridement in patients with spontaneous chronic corneal epithelial defects,light and electron microscopic evaluation 下载免费PDF全文
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Carmen M. H. Colitz Michael S. Renner Charles A. Manire Bethany Doescher Todd L. Schmitt Steven D. Osborn Lara Croft June Olds Erica Gehring June Mergl Allison D. Tuttle Meg Sutherland‐Smith Jens Christian Rudnick 《Veterinary ophthalmology》2010,13(Z1):47-53
Objective To characterize a form of progressive keratitis that occurs commonly in otariids. Materials and methods One hundred and thirteen captive otariids were evaluated by ophthalmologic examination and digital photography. Results Forty‐six females and 67 males were in the reference population, average age of 14 years. California sea lions predominated (n = 100); there were also six Steller sea lions, five brown fur seals, one Guadalupe fur seal and one northern fur seal. Three stages of progressive keratitis are described. Overall, 64.6% animals and 142 eyes from 113 animals (62.8%) were affected with one of three stages. The mildest form, Stage 1 keratitis, occurred in 78 of 226 eyes (34.5%); the intermediate Stage 2 keratitis occurred in 30 of 226 eyes (13.3%); and the most severe, Stage 3 keratitis, occurred in 34 of 226 eyes (15%). All but six animals had bilateral disease. Animals with Stage 1 keratitis were significantly younger than those in more advanced stages. Discussion ‘Otariid Keratitis’ occurs in all populations of eared seals evaluated. A large‐scale epidemiological study is ongoing to identify the risk factors that contribute to this disease. Exposure to chronic sunlight appears to be an important risk factor as shade diminishes clinical signs; animals kept out of sunlight the majority of the time have less severe clinical signs. Age may be important since exposure accumulates with aging. Progression of the disease is also associated with secondary opportunistic bacterial and fungal infections. The surface immune system may be imbalanced contributing to these infections and progression. 相似文献