Diabetes mellitus is a metabolic syndrome characterized by hyperglycemia, and is caused by complex interaction between genetic and environmental factors. Diabetes mellitus can lead to various ocular surface disorders, including dry eye, superficial punctuatekeratitis, corneal epithelial defects, and recurrent corneal erosion et al. This review focuses on the domestic and overseas research progress on dry eye in diabetics.

AIM: To investigate the effectiveness and safety of intravitreal injection of anti-vascular endothelial growth factors (VEGF) drugs to the patients with proliferative diabetic retinopathy before vitrectomy treatment.METHODS: A Meta-analysis.A comprehensive retrieval was conducted using the database including EMbase,the Cochrane Library,Pubmed,CBM,WanFang Database,CNKI and so on.The retrieval time was limited from the building time of database to Jan.2017.The randomized controlled trial was adopted with no requirements on languages.The Jadad scale and Cochrance cooperation were used as the tool of the risk and bias evaluation to analyze the literature quality.Quality estimation of evidence-based medicine on the parameters of each evaluation index was made via GRADEpro Software.The publishing biases of enclosed documents were inspected with funnel plot.At last,the Meta analysis was conducted with Review Manager 5.3.RESULTS: Totally 16 literatures published from 2008-2016 were finally put into randomized controlled trial.A total of 923 cases were included,among which 493 cases were grouped as intravitreal injection of anti-VEGF before the combined operation of PPV group (the experimental group),and 430 cases were involved in simple PPV group (the control group).The results of Meta-analysis show: (1) The probability of intraoperative bleeding was remarkably lower than the control group [OR=0.06,95%CI (0.02,0.15),P<0.01],with statistically significant differences.(2) The duration of operation was obviously shorter than that of the control group[WMD=-29.13,95% CI (-36.95,-21.30),P<0.01],with statistically significant differences.(3) The probabilities of both early and late postoperative vitreous hemorrhage were lower than those of the control group[OR=0.34,95%CI (0.20,0.58),P<0.01],with highly statistically significant differences.(4) The best corrected visual acuity after surgery was no better than that of the control group,[WMD=-0.51(LogMAR),95%CI(-1.10,0.08),P=0.09] with no statistical significance.(5) The occurrence of iatrogenic retinal rupture was lower than that of the control group[OR=0.24,95%CI(0.14,0.40),P<0.01],with statistically significant differences.(6)Among the 493 patients included in the 16 literature,no case of ocular and general adverse effects due to anti-VEGF injections was reported.CONCLUSION: It is effective and safe for the patients with proliferative diabetic retinopathy to inject anti-VEGF drugs into vitreous cavity before vitrectomy.And it can reduce the occurrence of complications during and after surgery,improving the general treatment effects.However,the specific implementation plans,such as the injection does,the interval between the injection and the operation and so on,still need further exploration and perfection.

The corneal reconstruction is tosurgial recover the structure integrity and corneal function after suffered from various trauma, inflammation and degenerative diseases.The corneal diseases caused millions of people worldwide suffering from eyesight damages and even blindness.At present, the corneal transplant is the main therapy for corneal blindness.However, the shortage in donor corneal issue is a worldwide problem and the failure due to the immunologic rejection of host is common.Nowadays, with the development of tissue culture and bioengineering technology, the application prospect of autologous stem cell transplantation is becoming more and more popular which might replace the allogeneic transplantation, becoming an important clinical treatment of regenerative medicine.Human dental pulp stem cells (hDPSCs) is a class of adult stem cell divided from the third molar teeth.Both hDPSCs and corneal cell are from the cranial nerve in embryonic ectoderm.Extensive researches show that the hDPSCs have the potentialities in corneal cell differentiation without causing immunologic rejection of the recipient.These findings manifested the potentials of hDPSCs in the clinical applications related to ocular surface reconstruction.In this paper, the features and current investigation status of hDPSCs in ocular surface reconstruction are reviewed.

Background Marrow mesenchymal stem cells (MSCs) has been successful induced to differentiate into corneal cells,retinal ganglion cells (RGCs) and retinal neuron-like cells in recent years,but there are few studies about MSCs induced into photoreceptor cells and their microenvironment.Objective The aim of this study was to explore the induce and differentiation of bone marrow mesenchymal stem cells (BMSCs) into photoreceptor-like cells in vitro and microenvironment.Methods The second generation of human BMSCs strain and RPE cells strain were cultured and passaged,respectively,and the fourth generation of BMSCs and the third generation of RPE cells were used in the experiment.BMSCs were cocultured using the mesenchymal stem cells medium (MSCM) contained 20 μg/L basic fibroblast growth factor (bFGF),20 μg/L epithelial growth factor (EGF)and 20 μg/L brain derived neurotrophic factor (BDNF) with RPE cells to induce the differentiation of BMSCs in the induced group,and BMSCs were cultured in MSCM only in the control group.The morphology of induced and differentiated cells were observed under the inverted microscope.Inmmunocytochemistry was used in induced for 3-,5-,7-day cells to detect the expression rate of rhodopsin protein for the identification of phenotype of the differentiated cells.RT-PCR was used in induced for 5-,7-day cells to detect the expressions of rhodopsin mRNA and recoverin mRNA.Results Cultured BMSCs grew well with the spindle shape,and passaged RPE cells showed the uniform size and polygon shape with the abundant pigment in the cells.Some induced cells appeared to be the neuron-like cells with round shape and long prominence and the secondary reticular branches.The expression rates of rhodopsinin the cells were (5.83±0.29)％,(20.36±0.32)％ and (29.80±2.30)％ in the third,fifth and seventh day after induce,which were significantly higher than (0.71 ±0.35) ％,(2.56±0.24) ％ and (2.32±0.42) ％ of control cells (t3 d =41.510,t5d =107.290,t7 d =30.036,P＜0.01).The grey scales of rhodopsin mRNA and recoverin mRNA were significantly elevated in the induced and differentiated cells compared with control cells in the fifth and seventh day (rhodopsin mRNA:t5 d =103.506,t7 d =122.584,P＜0.01 ; recoverin mRNA:t5 d =106.674,t7 d =189.992,P＜0.01).Conclusions BMSCs can be successfully induced to differentiate into photoreceptor cells after cocultured by conditioned medium with RPE cells.

Diabetic retinopathy ( DR ) is one of the common and serious complications of diabetes, which also the main causes of visual impairment in patients with diabetes, and its incidence has been increasing. With the in- depth study of the pathogenesis of DR, through the control of risk factors including blood glucose, blood pressure and lipid, as well as the application of a variety of drugs, the prevention and cure of DR achieved a certain effect. ln this paper, we make a review of the present status and progress in recent years on the DR control risk factors and drug intervention.

· Mesenchymal stem cells ( MSCs ) are a population of multipotent stem cells with various neurotrophins from bone marrow which are widely used in tissue, cell repair and alternative research.Recently, some researches have shown that MSCs could enhance the viability of neurons under a pathological circumstance by secreting some neurotrophins. So the neuroprotection of MSCs can provide a new method of the treatment on retinopathy that it possible to promote cells survial and functional recovery.Here we make a brief review on the secretory function of neurotrophin and neuroprotective effects of MSCs on retinal cells and its application in the treatment of retinal disease.

Diabetic retinopathy ( DR ) due to disturbance of carbohydrate metabolism is the most serious ocular complication in patients with diabetic disease, and diabetic macular edema ( DME) is one of the main causes of vision loss. lt is considered that many factors are involved in DME pathological process. DME is defined as an abnormal thickening of the macular associated with the accumulation of excess fluid in the extracellular space of the neurosensory retina. Nowadays, the main treatment methods of DME include pharmacotherapy, laser photocoagulation and surgery. lnflammatory components within the vascular tissue play an important role in the development of DME, so drug therapy is an important method for DME. ln this review, we summarized the risk factors and the current pharmacotherapy situation of DME.

?Bone marrow mesenchymal stem cells ( BMSCs ) is a kind of adult stem cells mainly enriched in bone marrow, which possesses multiple differentiation potential and can differentiate into trans-germinal layer. lt is easy for BMSC to be isolated and cultured, which has the ability of repairing various tissues with efficient proliferation and expression. BMSC could be used as seed cell for the transplantation therapy of retinal disease because of its properties of immunoregulation and neurotrophin secretion. This review focuses on research progress on retinal protection of BMSCs.

Internal limiting membrane ( ILM) peeling is commonly used in the operation of idiopathic macular hole ( IMH ) surgery. The success of ILM peeling has been greatly improved with the assistance of vital dyes. Currently, several kinds of vital dyes such as indocyanine green ( ICG ) , brilliant blue G ( BBG ) are applied in the ILM staining. However, all of the vital dyes have potential toxicity and side effects on the retina. In recent years, many kinds of dyes and staining improved emerge in endlessly. This paper reports the progress in the application of different colorants in the operation of IMH.

Uveitis is a group of inflammatory diseases causing serious impairment of visual function. The precise etiology and pathogenesis remain unclear. lt can be induced by infection, trauma, tumor or autoimmune response, of which autoimmune response is the most common. ln recent years, the cytokines in the process of inflammatory autoimmune diseases role has become one of research hot spots, its role in the pathogenesis and the relationship between the disease activity more and more attention. This article reviews the effects of interleukin, tumor necrosis factor, interferon and transforming growth factor-β in the pathogenesis of uveitis.