L Saxby1, E Rosen, M Boulton. 1. University Department of Ophthalmology, Manchester Royal Eye Hospital.
Abstract
AIM: To study the behaviour of residual lens epithelial cells after capsulorhexis and expression of material from the isolated lens. METHODS: Human and bovine lens capsules were isolated, sterile non-toxic silicone rings inserted, and the preparations placed in organ culture for up to 12 weeks. Cell coverage of the posterior lens capsule was recorded and the capsules were examined, both pre- and post-coverage, for (a) proliferative activity and (b) cytoskeletal components. RESULTS: After a lag period outgrowth was observed across the posterior capsule. The rate of cell coverage was dependent upon both species and the presence or absence of serum. The proliferative activity of the cells was greatest at or near the leading edge and decreased once covered. Wrinkles became visible in the posterior capsule during the late stages of precoverage and increased in both number and complexity. All cells on both the human and bovine posterior capsules contained F-actin and vimentin and the majority were immunolabelled for alpha-smooth muscle actin (alpha-SMA). CONCLUSIONS: This model exhibits many of the in vivo characteristics of the lens capsule after extracapsular surgery and may prove useful in further elucidating the cellular mechanisms of posterior capsule opacification.
AIM: To study the behaviour of residual lens epithelial cells after capsulorhexis and expression of material from the isolated lens. METHODS:Human and bovine lens capsules were isolated, sterile non-toxic silicone rings inserted, and the preparations placed in organ culture for up to 12 weeks. Cell coverage of the posterior lens capsule was recorded and the capsules were examined, both pre- and post-coverage, for (a) proliferative activity and (b) cytoskeletal components. RESULTS: After a lag period outgrowth was observed across the posterior capsule. The rate of cell coverage was dependent upon both species and the presence or absence of serum. The proliferative activity of the cells was greatest at or near the leading edge and decreased once covered. Wrinkles became visible in the posterior capsule during the late stages of precoverage and increased in both number and complexity. All cells on both the human and bovine posterior capsules contained F-actin and vimentin and the majority were immunolabelled for alpha-smooth muscle actin (alpha-SMA). CONCLUSIONS: This model exhibits many of the in vivo characteristics of the lens capsule after extracapsular surgery and may prove useful in further elucidating the cellular mechanisms of posterior capsule opacification.
Authors: I M Wormstone; C S Liu; J M Rakic; J M Marcantonio; G F Vrensen; G Duncan Journal: Invest Ophthalmol Vis Sci Date: 1997-02 Impact factor: 4.799