Objective To observe the expression of erythropoietin (EPO) and its receptor (EPOR) mRNA and protein levels in retinae of mice with oxygen-induced retinopathy, and to evaluate the effect of EPO and EPOR in retinal vascular develo pment and in the occurrence and development of oxygen-induced retinopathy. Methods One hundred and thirty-two 7-day-old C57BL/6J mice were divided into two g rou ps: normal control group (control group) and oxygen-induced retinopathy group (experimental group). The proliferative neovascular response was estimated by obse rving the vascular pattern in adenosine diphosphatease (ADPase) stained retina flat-mounts by executing 6 mice in each group at the 12th, 15th, and 17th day, respectively. The expression of EPO, EPOR mRNA was determined by reverse transcription-polym erase chain reaction (RT-PCR), and the protein levels of EPO and E PO R were determined by immunohistochemistry. RT-PCR and immunohistochemistry were done every other day from the 7th to the 21st day. Results In the control group, retinal vascularization was found. In the experimental group, the large vesse ls were constricted straight, the branches decreased, and alarge nonperfusion area was observed at the 12th day; the large vessels were dilated and tortuous and neovascularization occurred at the 15th day; a mass of neovascularization was found and the vascular net structure of the deep and shallow layer was destroye d at the 17th day. The expression of EPO mRNA decreased from the 7th day and kee p decreasing in the whole oxygen-breathing duration in the experimental group. A fter the mice were returned to room air, the expression increased obviously from the 15th day and kept the high level until the 21st day. The expression of EPO mRNA increased at the 7th day and reached the peak at the 11th day, and kept the high level until the 21st day. The changes of protein levels of these three fac tors were later than that of their mRNA, but had the same trend. The difference of the expression between the two groups at the different time point was signifi cant except for the 7thday point (Plt;0.05). Conclusion It 's suggested that EPO and EPOR played important roles on the development of normal retina vascularizati on and the pathogenesis of ROP, which may provide new conception and method for the prevention and treatment of the oxygen-induced retinopathy.
High myopia is frequently associated with retinal degenerative changes (such as myopic foveoschisis, macular hole and its related retinal detachment, and choroidal neovascularization) which are the major causes of visual loss in high myopic eyes. Optical coherence tomography may help us to understand the macular lesions in high myopia. Peeling of internal limiting membrane and removal of posterior vitreous cortex at an appropriate time, are believed to facilitate restoring the retinal flexibility and resolution of myopic foveoschisis, and promote the macular hole closure and retinal reattachment. Antiangiogenesis treatment combined with photodynamic therapy and (or) corticosteroid therapy are the future options to treat myopic choroidal neovascularization. Correctly understanding and mastering the methods and timing of diagnosis and treatment of high myopiarelated macular degeneration, and taking targeted interventions to enable patients to be rational and effective treated, are the keys to further reduce the damage of visual function in patients with high myopia.
Paediatric retinal disease is the most important part of paediatric ophthalmology. It usually manifests as leukocoria or yellow pupil, typically in retinopathy of prematurity, familial exudative vitreoretinopathy, persistent hyperplastic primary vitreous, Coats disease and retinoblastoma. It also can be manifested as nystamus poor visual fixation or progressive worsening of visual function, typically in Leber congenital amaurosis, Stargardt disease, Best disease and cone and rod dystrophy. Paediatric retinal diseases can be roughly divided into acquired, hereditary and congenital developmental abnormalities. With the development of gene and stem cell technologies, the advent of new medicine, equipments and new techniques, the concept of diagnosis and treatment in paediatric retinal diseases is also changing. In China, the level is improving progressively in both clinical and research areas of paediatric retinal diseases.
Objective To evaluate the safety and efficacy of brilliant blue G (BBG) assisted internal limiting membrane (ILM) peeling on pathological myopic macular holes with retinal detachment.Methods This is a prospective and noncontrolled study. Twenty-seven high myopia patients (27 eyes) with macular holes and retinal detachment were enrolled. Routine examination was performed, including the best corrected visual acuity (BCVA), intraocular pressure, slit lamp microscope with +90 D pre-set lens, A- or B-ultrasound,optical coherence tomography (OCT) and visual field. All patients received vitrectomy with BBG-assisted ILM peeling and C3F8 gas tamponade. The 5 followup visits were at the first day, the seventh day, the first month, the third month and the sixth month after surgery. The BCVA, intraocular pressure, visual field, macular hole and retinal reattachment were comparatively analyzed.Results The ILM of all patients were peeled completely by BBG staining. There were no major complications such as corneal edema, anterior chamber reaction, elevated intraocular pressure, visual field defects. At the first month after surgery, macular hole closed and retina reattached in 26 eyes (96.3%), the macular hole did not close and retina redetached in one eye (25.9%). At the sixth month after surgery, BCVA of 25 eyes (92.6%) increased, two eyes (7.4%) didnprime;t change, the difference was statistically significant (t=6.08,Plt;0.05).Conclusions BBG can fully stain ILM without any side effects. Vitrectomy with BBG-assisted ILM peeling is a safe and effective treatment for pathological myopic macular holes with retinal detachment.
Objective To observe the safety and efficacy of bevacizumab pretreatment in vitrectomy for vascularly active stage 4 retinopathy of prematurity (ROP). Methods A retrospective case series of 16 eyes of 8 patients with vascularly active stage 4 ROP who received an intravitreal injection of bevacizumab were studied. An intravitreal injection of 0.625 mg bevacizumab was performed one week prior to planned vitrectomy. Five days after injection, the eyes were examined by indirect ophthalmoscopy and documented with fundus photography using a RetCamⅡto evaluate the vascular activity. Lens-sparing vitrectomy was performed in 14 eyes, while vitrectomy combined with lensectomy was performed in 2 eyes, one week after the injection. Three months after vitrectomy, the retinal status and lens clarity were observed. Results All patients showed remarkable regression of the fibrovascular membrane with clinically absent vascular component 5 days after the injection. No adverse events occurred. Three months after vitrectomy, anatomical attachment was achieved in 15 eyes (93.75%), 1 eye (6.25%) had partial attachment. The lens remained clear in all the eyes. Conclusion Intravitreal bevacizumab administrated prior to vitrectomy reduced neovascularization safely and effectively for stage 4 ROP .