Changes of MMP-9 expression in rabbit retina after laser irradiation at different thresholds
10.3980/j.issn.1672-5123.2017.7.10
- VernacularTitle:兔视网膜在不同阈值激光作用后MMP-9表达的变化
- Author:
Chun-Yan, WANG
;
Hui-Li, LI
;
Xiao-Dan, LI
;
Hai, YU
;
Yan, FU
- Keywords:
subthreshold micropulse laser;
retina;
MMP-9
- From:
International Eye Science
2017;17(7):1242-1244
- CountryChina
- Language:Chinese
-
Abstract:
AIM: To observe the changes of MMP-9 expression in rabbit retina after laser irradiation at different thresholds of 577nm.METHODS: Twenty-six pigmentation rabbits were randomly divided into normal control group(n=2), conventional photocoagulation group (n=6) and subliminal micropulse laser photocoagulation group (n=18).The conventional photocoagulation group was treated with 577nm laser photocoagulation, subcutaneous micro-pulsed laser photocoagulation at a working loading rate of 9%, 12% and 15%, respectively.Eighteen rabbits were again divided into three subgroups according different powers of subthreshold working loading rate of 9%(n=6), 12%(n=6) and 15%(n=6) that undertook, respectively.The expression of MMP-9 on the retina of rabbit eyes was detected by immunohistochemistry.RESULTS: In the conventional photocoagulation group, the expression of MMP-9 in the RPE layer and the visual cell layer was strongly positive, which was significantly higher than that in the sub-micro pulse group(P<0.05).Less MMP-9 positive expression of RPE layer and visual cell layer in the working loading rate of 9% subgroup, and more MMP-9 positive expression of RPE layer and visual cell layer in the working loading rate of 12% subgroup;little expression was also noted in the nucleus of RPE and visual cell layer.Moderate MMP-9 positive expression of RPE layer and visual cell layer was observed in the working loading rate of 15% subgroup.There were no significant differences between the three subgroups (P>0.05).CONCLUSION: The 577nm subliminal micro-pulsed photocoagulation has high selectivity to retinal pigment epithelium at working load rate of 9%, 12% and 15%, and no damage to retinal nerve fiber layer, which is safer than conventional 577nm laser photocoagulation.
