No abstract available.
Endothelial Cells*

No abstract available.
Endothelial Cells

No abstract available.
Endothelial Cells

The normal corneal endothelial cell count was measured by the non-contact(Nikon, AS-1, Japan) and contact type(Bio-optic, LSM 2000, USA) specular microscopy. The results of two types were compared to investigate the possible differences in types of specular microscopy. No statistically significant differences were found between the results from the non-contact type and those from the contact type; the mean number of normal Korean corneal endothelial cells according to the age was 2795 in the 2nd decade, 2615 in the 3rd decade, 2463 in the 4th decade, 2283 in the 5th decade, 2119 in the 6th decade, 2019 in the 7th decade and 1920 over the 8th decade.
Endothelial Cells* ; Microscopy*

No Abstract Available.
Endothelial Cells* ; Vitrectomy*

No abstract available.
Cell Cycle* ; Endothelial Cells*

To measure the rate of endothelial cell loss caused by anterior radial keratotomy, twenty one eyes of twelve patients were chosen. Numbers of endothelial cells per mm2 were examined through Keeler Konan wide field specular microscope at the time of preoperative, postoperative 3 month, 6 month, and 1 year. There were only a few changes in numbers of endothelial cells, and the results were statistically significant. Therefore anterior radial keratotomy rarely cause bullous keratopathy due to significant endothelial cell loss.
Endothelial Cells* ; Humans* ; Keratotomy, Radial*

To measure the rate of endothelial cell loss caused by anterior radial keratotomy, twenty one eyes of twelve patients were chosen. Numbers of endothelial cells per mm2 were examined through Keeler Konan wide field specular microscope at the time of preoperative, postoperative 3 month, 6 month, and 1 year. There were only a few changes in numbers of endothelial cells, and the results were statistically significant. Therefore anterior radial keratotomy rarely cause bullous keratopathy due to significant endothelial cell loss.
Endothelial Cells* ; Humans* ; Keratotomy, Radial*

PURPOSE: To evaluate corneal endothelial cell changes after conventional coaxial phacoemulsification and bimanual microincision cataract surgery (MICS). METHODS: Forty patients were divided into 2 groups, coaxial phacoemulsification (Group 1, n=20), and MICS (Group 2, n=20). To evaluate corneal endothelial cell changes after coaxial phacoemulsification and bimanual MICS, intraoperative phacoemulsification power and volume of intraoperative irrigation solution (balanced salt solution, BSS(R), Alcon, U.S.A) were measured. Central corneal thickness and endothelial cell count were also evaluated, preoperatively and at 1 week, and 2 months postoperatively. RESULTS: Between the 2 groups, there was no statistically significant difference in intraoperative phacoemulsification power and volume of intraoperative irrigation solution (balanced salt solution, BSS(R), Alcon, U.S.A.) (p>0.05). In addition, there was no statistically significant difference between the 2 groups in endothelial cell count and central corneal thickness (p>0.05). CONCLUSIONS: When comparing bimanual MICS and conventional coaxial phacoemulsification, bimanual MICS appears to have similar endothelial cell changes. In conclusion, MICS has the same safety as compared to coaxial phacoemulsification.
Cataract ; Endothelial Cells ; Humans ; Phacoemulsification

Atherosclerosis ; Autophagy ; Endothelial Cells ; Humans