Objective To observe the visual field loss after 577 nm krypton pan-retinal photocoagulation (PRP) in the treatment of diabetic retinopathy (DR). Methods A prospective clinical studies. Forty-six eyes of 26 patients with proliferative DR (PDR) and severe non-proliferative DR (NPDR) diagnosed by clinical examination from No. 306 Hospital of PLA during January 2014 and December 2015 were included in this study. Among them, 21 eyes of NPDR and 20 eyes of PDR; 13 eyes with diabetic macular edema (DME) (DME group) and 28 eyes without DME (non-DME group). All eyes underwent best corrected visual acuity (BCVA), fundus color photography, fundus fluorescein angiography (FFA) and optical coherence tomography (SD-OCT) examinations. The visual field index (VFI) and visual field mean defect (MD) values were recorded by Humphrey-7401 automatic visual field examination (center 30° visual field). The BCVA of DR eyes was 0.81±0.28; the VFI and MD values were (89.8±8.4)% and −7.5±3.85 dB, respectively. The BCVA of the eyes in the without DME group and DME group were 0.92±0.20 and 0.57±0.27, the VFI were (90.86±7.86)% and (87.46±9.41)%, the MD values were −6.86±3.43 and 8.87±4.48 dB. PRP was performed on eyes using 577 nm krypton laser. The changes of VFI, MD and BCVA were observed at 1, 3, and 6 months after treatment. Results Compared with before treatment, the VFI of DR eyes decreased by 12.0%, 12.3% and 14.8% (t=7.423, 4.549, 4.79; P<0.001); the MD values were increased by −4.55, −4.75, 6.07 dB (t=−8.221, −5.313, −5.383; P<0.001) at 1, 3 and 6 months after treatment, the differences were statistically significant. There was no difference on VFI (t=1.090, −0.486; P>0.05) and MD value (t=−0.560, −0.337; P>0.05) at different time points after treatment. Compared with before treatment, the BCVA was significantly decreased in DR eyes at 1 month after treatment, the difference was statistically significant (t=2.871, P<0.05). Before and after treatment, the BCVA of the DME group was lower than that of the non-DME group, the difference were statistically significant (t=4.560, 2.848, 3.608, 5.694; P<0.001); but there was no differences on the VFI (t=1.209, 0.449, 0.922, 0.271; P>0.05) and MD values (t=1.582, 0.776, 0.927, 1.098; P>0.05) between the two groups. Conclusion The range of 30° visual field loss is about 12%-14.8% after 577 nm krypton laser PRP for DR. VFI and MD can quantitatively analyze the and extent of visual field loss after PRP treatment.
Objective To observe the visual acuity change in patients with different patterns of optical coherence tomography (OCT) of diabetic macular edema (DME) after intravitreal ranibizumab injection and/or laser photocoagulation. Methods A retrospective observational case series. Seventy patients (99 eyes) with DME were enrolled. Best-corrected visual acuity (BCVA) was evaluated using the international vision test chart, and then convert the result to the logarithm of the minimum angle of resolution (logMAR). According to the morphological characteristics of OCT, the DME was divided into 3 patterns, including diffuse macular edema (DRT), cystoid macular edema (CME) and serous neuroepithelial layer detachment. The average follow-up was (80.43±74.89) days. The patients were divided into 3 groups according to the different treatments, including intravitreal ranibizumab injection group (group A, 21 patients, 25 eyes), intravitreal ranibizumab injection and laser photocoagulation group (group B, 23 patients, 26 eyes), laser photocoagulation group (group C, 26 patients, 48 eyes). The changes of absolute BCVA (ABCVA) and improved visual acuity were compared between different treatment groups and different OCT patterns. ABCVA = logMAR BCVA before treatment-logMAR BCVA after treatment. Improvement more than 0.3 of logMAR value was considered as improved visual acuity. Results There was no significant difference in ABCVA between different treatment groups (F=0.050,P>0.05). The improved visual acuity in group A and B were great than group C (χ2=5.645, 6.301;P<0.05). In group A, B and C, there was no significant difference in ABCVA and improved visual acuity between different OCT patterns (P>0.05). Improved visual acuity of DRT and CME eyes were higher in group A&B (70.59% and 50.00%) than in group C (26.47% and 14.29%), the difference was statistically significant (χ2=5.075, 4.453;P<0.05). Conclusions There is no obvious change of visual acuity in patients with different OCT patterns of DME after the same treatment by intravitreal ranibizumab injection and/or laser photocoagulation. The improved visual acuity is not consistent in same OCT patterns after different treatment.
ObjectiveTo observe the influence of human umbilical cord mesenchymal stem cells (hUCMSC) transplantation into vitreous cavity of diabetic rats on the retinal morphology, and the expression of glial fibrillary acidic protein (GFAP) and rhodopsin (RHO). Methods78 male Sprague-Dawley rats were used. 70 rats were injected with streptozotocin by tail vein injection at a dose of 40 mg/kg to establish the diabetes mellitus model, and another 8 rats were injected with 0.1 mol/L pH 4.0 citric acid buffer at the same dose as the normal control group. After 6 weeks of modeling, 10 rats were taken as the control group of diabetic model. hUCMSC suspension was injected into the right eye vitreous cavity of the remaining 60 rats, and the same volume of Dulbecco's modified Eagle/F12 medium was injected into the left vitreous cavity as control eyes. 1, 2 and 4 weeks after transplantation, follow-up experiments were performed. The experimental eyes were labeled as U1, U2, and U4 groups, while the control eyes were recorded as D1, D2, D4, and each group consisted of 20 eyes. After paraffin section and hematoxylin-eosin staining, the structure of the retina was observed by optical microscopy and the thickness of the outer nuclear layer and the inner nuclear layer (INL) were measured. The distribution and migration of hUCMSC in rat retina were observed by frozen section-tissue immunofluorescence assay. The mRNA and protein expression of GFAP and RHO in the retina were detected by real-time quantitative polymerase chain reaction (PCR) and Western blot assays. ResultsThe results of optical microscope observation showed the normal structure of retina in normal control group. The retinal nerve fiber layer (NFL) was thinned and the number of retinal ganglion cells (RGC) in the control group of diabetic rats was decreased. The decreased number and disorder arrangement of RGC were observed as well in U1, D1 rats. The RGC number of U2, U4, D2, D4 rats was gradually decreased. Compared with D4 group, the thickness of INL in U4 group was significantly increased (P < 0.05). Tissue immunofluorescence assay showed that hUCMSC were distributed along the inner limiting membrane in the retina of the U1 group, while the number of hUCMSC in the U2 group was gradually decreased, mainly in the NFL and ganglion cell layers. Real-time PCR and Western blot data indicated that the relative expression of GFAP mRNA and protein in the diabetic retina was significantly increased, and the relative expression of RHO mRNA and protein decreased gradually in the diabetic model group and the D1, D2, D4 groups. Compared with D2 and D4 groups, the mRNA and protein expression of GFAP in U2 and U4 groups were decreased, and the relative expression of RHO mRNA and protein were all increased (P < 0.01). ConclusionhUCMSC could migrate and integrate into the retina, after the transplantation into the vitreous cavity of diabetic rats, which reduced the expression of GFAP, but enhanced the expression of RHO.
Diabetic retinopathy (DR) is a major and irreversible blinding eye disease in working aged adults. Diabetic macular edema (DME) is a complication of the further development of DR, and it is one of the main causes of vision loss in DR patients. The emergence of anti-VEGF drugs has changed the treatment model of DR and DME. Firstly, for the treatment of DME, the previous focal/grid-like laser photocoagulation is converted to anti-VEGF drugs as the first-line treatment. Secondly, for the treatment of proliferative DR (PDR), panretinal photocoagulation (PRP) was the gold standard in the past, and now anti-VEGF drugs have become an alternative treatment for some PDR patients. In varying degrees of DR and DME, the option of treatment, anti-VEGF drug therapy replacing PRP, and the era of anti-VEGF drug therapy on DR treatment modes are worthy questions for consideration by clinicians. In-depth study of the clinical study of PRP and anti-VEGF drugs in the treatment of DR, the changes attention in clinical guidelines and expert consensus, the gradual establishment of treatment of DR and DME suitable, and the personalized treatment of DR patients may help improve the level of DR treatment in China.
ObjectiveTo observe the different effect of 23G vitrectomy surgery assisted with intravitreal injection of ranibizumab and pan-retina photocoagulation in severe proliferative diabetic retinopathy (PDR) treatment. MethodsA total of 60 patients (78 eyes) with severe PDR diagnosed were enrolled and divided into intravitreal injection of Lucentis group (Group A, 22 patients, 28 eyes), pan-retina photocoagulation group (Group B, 18 patients, 20 eyes) and control group (Group C, 20 patients, 30 eyes), all of them received 23G vitreoretinal surgery. The average operation time, iatrogenic hiatus, the use of filler and electric coagulation, postoperative bleeding and best corrected visual acuity in three months were comparatively analyzed among the three groups. ResultsThe operation time in the three group was (67.429±11.243), (77.762±10.435), (106.839±20.724) min respectively, the differences of A vs C and B vs C were statistically significant(t=8.940, 5.928; P < 0.05). Five eyes needed electric coagulation in Group A, 6 eyes in Group B, and 24 eyes in Group C, the differences of A vs C and B vs C were all statistically significant (χ2=19.955, 10.505;P < 0.05). Four eyes used the filler in Group A, 3 eyes in Group B, and 23 eyes in Group C, the differences of A vs C and B vs C were all statistically significant (χ2=18.099, 14.083;P < 0.05). The difference of iatrogenic hiatus and postoperative bleeding was no significance among the three groups (P > 0.05). The best corrected visual acuity of 3 months after surgery in the three group is (0.383±0.122), (0.251±0.067), (0.104±0.044) respectively, the differences of A vs C and B vs C were all statistically significant(t=11.909, 13.616;P < 0.05). ConclusionThe intravitreaI injection of ranibizumab or pan-retina photocoagulation treatment before the vitrectomy surgery is very effective, both of them can shorten the operation time, reduce electric coagulation and use of filler, and improve patients' eyesight.
ObjectiveTo investigate the clinical outcome and therapeutic efficacy of short-pulse pattern scan laser (PASCAL) photocoagulation for diabetic retinopathy (DR). MethodsForty-three DR patients (70 eyes) including 19 males (32 eyes) and 24 females (38 eyes) underwent short-pulse PASCAL pan-retinal photocoagulation (PRP). There were 24 patients (42 eyes) with proliferative diabetic retinopathy (PDR) and 19 patients (28 eyes) with severe non-proliferative diabetic retinopathy (NPDR). The best corrected visual acuity was better than or equal to 0.1 in 62 eyes, worse than 0.1 in 8 eyes. Diabetic macular edema was found in 18 eyes. Short-pulse PASCAL PRP was applied with multi-spot arrays. Macular edema was treated by PASCAL macular mode (MAC A + MAC B) and/or single spot. Visual acuity and fundus examinations were analyzed at the one-year follow-up procedure. ResultsOne year after short-pulse PASCAL treatment, the final visual acuity was improved in 10 eyes, stable in 53 eyes, decreased in 7 eyes; macular edema was relieved in 38 eyes, aggravated in 12 eyes, and stable in 20 eyes. Of 42 eyes with PDR, neovascularization were regressed in 20 eyes, uncontrolled in 11 eyes which experienced additional photocoagulation (1-2 times) during the follow-up. Among the 11 uncontrolled eyes, 3 eyes (3/11) received vitrectomy due to vitreous hemorrhage. ConclusionPASCAL might stabilize the progress of diabetic retinopathy safely and effectively.
Diabetic retinopathy is a serious complication of diabetes and is the leading cause of blindness in people with diabetes. At present, there are many views on the pathogenesis of diabetic retinopathy, including the changes of retinal microenvironment caused by high glucose, the formation of advanced glycation end products, oxidative stress injury, inflammatory reaction and angiogenesis factor. These mechanisms produce a common pathway that leads to retinal degeneration and microvascular injury in the retina. In recent years, cell regeneration therapy plays an increasingly important role in the process of repairing diseases. Different types of stem cells have neurological and vascular protection for the retina, but the focus of the target is different. It has been reported that stem cells can regulate the retinal microenvironment and protect the retinal nerve cells by paracrine production, and can also reduce immune damage through potential immunoregulation, and can also differentiate into damaged cells by regenerative function. Combined with the above characteristics, stem cells show the potential for the repair of diabetic retinopathy, this stem cell-based regenerative therapy for clinical application provides a pre-based evident. However, in the process of stem cell transplantation, homogeneity of stem cells, cell delivery, effective homing and transplantation to damaged tissue is still a problem of cell therapy.
Diabetic macular ischemia (DMI) is one of the manifestation of diabetic retinopathy (DR). It could be associated with diabetic macular edema (DME), which may affect the vision of DR patients. FFA is the gold standard for the diagnosis of DMI, but with the advent of OCT angiography, a more convenient and diversified method for the evaluation of DMI has been developed, which makes more and more researchers start to study DMI. Intravitreal injection of anti-VEGF has become the preferred treatment for DME. When treating with DME patients, ophthalmologists usually avoid DMI patients. But if intravitreal anti-VEGF should be the contradiction of DME is still unclear. To provide references to the research, this article summarized the risk factors, assessment methods and influence of DMI. This article also analyzed the existing studies, aiming to offer evidences to a more reasonable and effective treatment decision for DME individual.
Objective To observe the effect of panretinal photocoagulation (PRP) on the expression of cyclooxygenase-2 (COX-2), vascular endothelial cell growth factor (VEGF) in epiretinal membrane of proliferative diabetic retinopathy (PDR). Methods Atotal of 35 patients (35 eyes) with PDR and underwent plana vitrectomy were enrolled in this study. The patients were divided into non-PRP group (19 patients, 19 eyes) and PRP group (16 patients, 16 eyes) depends on if they had received PRP before surgery. The epiretinal membranes stripped during operation were collected for pathological examination. The histopathological features was observed by haematoxylin and eosin stain. The expression of CD34, COX-2 and VEGF, and microvessel density (MVD) were measured by immunohistochemistry method. Results Many new dispersed capillary blood vessels were found in the thick epiretinal membranes of non-PRP group, while scattered small blood vessels were found in the relatively thin epiretinal membranes of PRP group. MVD value was (7.42±1.39) in the non-PRP group and (4.56±1.22) in the PRP group, which was lower than the non-PRP group (t=6.41, P<0.01). The expression of CD34, COX-2 and VEGF in the tissues of epiretinal membrane in PRP group were obviously lower than the non-PRP group (t=6.147, 5.944, 7.445; P<0.01). Conclusion PRP can effectively inhibit the expression of COX-2 and VEGF in epiretinal membrane of PRP patients.
Objective To investigate the therapeutic effect of different wavelength krypton lasers on diabetic retinopathy. Methods A total of 55 eyes (35 cases) with diabetic retinopathy underwent different wavelength k rypton lasers photocoagulation treatment, according to the different manifestati on of the affected eyes. The visual acuity, intraocular pressure,visual field,visual evoked potential were examined, and slit-lamp, ophthalmoscopy, Bultraso nography, and fundus fluorescein angiography were performed preoperatively. The patients were followed up for at least 12 months after krypton laser treatment. Results The resulting effect on visual acuity after 12 months of photocoagulation in this series revealed that, 20 eyes (36.4%) i mproved, 34 eyes (61.8%) remained no change, and one eye (1.8%) decreased. Conclusions Different wavelength krypton lasers photoco agulation can be used in treatment of diabetic retinopathy and can improve the visual acuity at certain extent. (Chin J Ocul Fundus Dis, 2001,17:178-180)