Objective To observe the short-term effect of changing the sequence of PRP and MLP on the pre-proliferative or proliferative diabetic retinopathy patients with clinical significant macular edema (CSEM). Methods Sixty-three consecutive pre-proliferative or proliferative diabetic retinopathy outpatients (103 eyes) with clinical significant macular edema were selected and divided into two groups: 54 eyes in patients of group A accepted MLP one month prior to PRP and 49 eyes in patients of group B accepted the photocoagulative therapies in a contrary sequence. All the patients were followed up for 3 to 13 months and visual acuity. Light sensitivity of 5deg;macular threshold, and FFA were performed pre- and post-photocoagution. Results The improvement of visual acuity was found to be better in group A than that of group B (Plt;0.01) 2 months after the therapy, since then, there was no significant defference (Pgt;0.05) in both groups. Three and 4 months after the treatment, there was no significant difference in change of light sensitivity of 5deg;macular threshold in both groups. The macular leakages of 59 eyes, 32 ingroup A and 27 in group B, were well controlled. Conclusion Among the pre-proliferative or proliferative diabetic retinopathy patients with CSEM, visual acuity of those who accept MLP prior to PRP more rapidly than those who accept contrary sequence of photocoagulation, but the changing of therapeutic sequence might have no dramatic influence on light sensilivity of 5deg;macular threshold. (Chin J Ocul Fundus Dis,2000,16:150-152)
Objective To observe the functional and morphological changes of macular after panretinal photocoagulation(PRP)in the patients with diabetic retinopathy(DR).Methods A total of 57 eyes of 34 patients with DR undergoing PRP were enrolled in this prospective and self-reflection study. Comparatively analyze the changes of the best visual acuity(BCVA), optical coherence tomography (OCT) and multi-focal electroretinography (mfERG) before PRP,20 days, 3 months and more than 9 months after PRP. Statistical analyses were performed by wilcoxon, chisquare, Dunnett-t, LSD-t tests and spearman related analyses. The changes of macular function and foveal retinal thickness before and after PRP were comparatively analyzed.Results BCVA of all patients reduced at 9 months after PRP(P=0.022).The amplitude density of mfERG P1 of ring 2 decreased at 20 days after PRP(P=0.039),then recovered at 3 months and decreased again at 9 months(P=0.014).The amplitude density of mfERG P1 of ring 3-5 decreased at 20 days,3 months and more than 9 months after PRP(20 days: ring 3: P=0.000,ring 4: P=0.001, ring 5: P=0.000;3 months: ring 3:P=0.000, ring 4: P=0.006, ring 5: P=0.001; more than 9 months: ring 3: P=0.000,ring 4: P=0.000, ring 5: P=0.000). The amplitude density of mfERG P1 of ring 1 was significantly lower at 9 months after PRP(P=0.050). The foveal retinal thickness increased at 20 days after PRP(P=0.007), then recovered at 3 months or later. Cystoid macular degeneration was found in 6 eyes(10.5%) at 20 days after PRP.Conclusions After the treatment of PRP, there were some extend reduction of the macular function, a transient increase on foveal retinal thickness. Combined mfERG and OCT can be a comprehensively and objectively assessment of macular function and morphology.
The threshold micropulse laser is widely used in clinical practice as a safe, non-invasive laser for avariety of macular diseases. Compared with the conventional laser therapy, the subthreshold micropulse laser is selectively absorbed by the RPE and therefore it does not cause retinal damage. To explore the therapeutic mechanism and the safety, development of threshold micropulse laser in the treatment of various common macular diseases, and further clarify its indications and advantages, which are helpful for its wider clinical application.