Objective To investigate the apoptosis of photoreceptor cells in experimental model of retinal detachment in mice. Methods Thirty-six adult C57Bl/6J mice were divided into 2 groups: retinal detachment model was set up in the left eyes of 18 mice by subretinal injection with 1.4% sodium hyaluronate in the experimental group, while the left eyes of other 18 mice underwent scleral puncture only as the control. The retinal sections were stained with histochemical and immunofluorescent staining and examined by confocal microscopy 1,3,7 and 28 days after injection. eye enucleated, and retinal sections studied by histochemistry, immunofluorescence labeling, and confocal microscopy. Rods, cones, and apoptotic cells were labeled by antibodies of anti-rod and anti-cone cells, and terminal deoxynucleotidyl transferase dUTP nick-end labeling (TUNEL), respectively. Photoreceptor cell apoptosis and cell loss were assessed quantitatively by counting both surviving and apoptotic rod and cone cells. Results TUNEL-positive cells were only found in the outer nuclear layer (ONL) of the detached portion of the retina, which were detected at the 1st day after the detachment. The apoptosis of the cells reached the peak at the 3rd day and decreased sharply after 7 days. Photoreceptor cell loss of both rod and cone cells followed a similar time course after retinal detachment. Conclusion Apoptosis is a major pathological degeneration of photoreceptor cell death after retinal detachment. (Chin J Ocul Fundus Dis, 2006, 22: 124-127)
Macular edema is an important cause of visual impairment in many eye diseases such as diabetic retinopathy, retinal vein occlusion and uveitis. Optical coherence tomography (OCT) provides high-resolution image of retinal microstructures in a non-contact and rapid manner, which greatly improves the ability of diagnosis and follow-up to macular edema patients. OCT has been widely used in the clinical detection of patients with macular edema. No matter what the cause of macular edema is, it can be observed in OCT images that there are spot-like deposits with strong reflection signals in the retina, which are mostly distributed discretely or partially convergent, and are called hyperreflective foci. At present, the nature or source of hyperreflective foci is not clear, however, may involve the destruction of the blood retina barrier, retinal inflammatory reaction, neurocellular degeneration, and so on. These mechanisms are also the key physiological mechanisms in the development of macular edema. The clinical research on hyperreflective foci provides a new direction for understanding the pathogenesis of macular edema and predicting the prognosis of macular edema. The distribution and quantity characteristics of hyperreflective foci may be an important biological marker to predict the prognosis of macular edema.nosis of macular edema. foci provides a new direction for understanding the pathogenesis of macular edema and predicting the prognosis of macular edema. The distribution and quantity characteristics of HRF may be an important biological marker to predict the prognosis of macular edema.
Objective To analyze the onset, clinical manifestation, causation, complications of pediatric uveitis. Methods One hundred and two patients with uveitis under 16 year-old were retrospectively studied. They visited the clinic in Peking University First Hospital from November 1979 to December 2008. Their age ranged from 2.5 to 16 years old, with a mean of 11.9 years. Routine exam was carried out, including visual acuity, slit lamp, fundus, and laboratory workup. The diagnosis and classification were made by the anatomic location according to the standard of The International Uveitis Working Group. The data of disease history, age of onset, manifestation, recurrence, causation, systemic diseases, complications, and lab examination were analyzed.Results A total of 102 patients (170 eyes) with pediatric uveitis were included in this study, 68 patients (66.6%) were bilateral cases. Anterior uveitis represented in 38 patients (37.3%), intermediate uveitis in 19 (18.6%), posterior uveitis in 10 (9.8%), and panuveitis in 35 (34.3%). The disease duration was from five days to 2.4 years, with a mean of 3.6 months. The follow-up time was two weeks to more than ten years. The first three causes of pediatric uveitis were juvenile idiopathic arthritis, Vogt-Koyanagi-Harada disease, and Behccedil;etprime;s disease. 36 patients were found with complications, and among them 19 had complicated cataract, seven had secondary glaucoma, five had corneal band dystrophy, 12 had iris synechia (both anterior and posterior), one had retinal detachment, two had eye atrophy, and one patient with juvenile idiopathic arthritis had bilateral femoral head necrosis because of the use of steroid and hip joint was replaced. There were ten children suffering more than two complications. Conclusions Pediatric uveitis is a possible blindness disease with variety of etiology and manifestations,and tends to cause complications. Early and special attention must be taken to avoid serious consequences.
COVID-19 associated fundus lesions are mostly vascular occlusion or inflammatory changes. The affected vessels include both retinal macrovessels and microvessels, and the inflammatory changes are mainly autoimmune lesions. Clinically, the different lesions present as various fundus diseases, with varying degrees of impact on visual function. The mechanism of these lesions is considered to be related to direct injury of SARS-CoV-2, abnormal coagulation or inflammatory response caused by SARS-CoV-2. Awareness of fundus lesions associated to COVID-19 is helpful to figure out the pathophysiological mechanism of COVID-19 and promote in-depth studies for a deeper and complete understanding of the occurrence and full impact of COVID-19, emphasizing the importance of early prevention and control of the disease, and highlighting the significance of early intervention of the fundus diseases caused by COVID-19.
Pediatric uveitis is an inflammatory disease involving iris, ciliary body and choroid. Compared with adult uveitis, pediatric uveitis has insidious onset and is easy to delay treatment. In recent years, biological agents have made remarkable progress in the treatment of non-infectious uveitis (NIU) in children. Anti-tumor necrosis factor-alpha drugs represented by Adalimumab have shown good effects in the control of inflammation, the saving of glucocorticoids, the frequency of uveitis attacks and the improvement of visual prognosis. At the same time, other biologics such as B cell antagonists, T cell antagonists, interleukin-6 antagonists and Janus kinase inhibitors were also gradually tested in children with NIU, bringing good news to children who failed to respond to anti-tumor necrosis factor-alpha drugs. With the in-depth understanding of the diagnosis and treatment of NIU children by clinicians, as well as the characteristics and therapeutic application of various biological agents, it is helpful to develop a more diversified and individualized treatment plan for children, so as to save the vision of children and children's families.
Hypertensive retinopathy (HR) often coexist with carotid lesions in hypertensive patients. Carotid lesions are closely associated with cardiovascular and cerebrovascular diseases, as well as end events, offering early important evidence to screening high risk patients. HR has significant value to predict target organ damage (TOD) of hypertension including carotid lesion. In addition, hypertensive retinopathy and carotid lesions-related ischemic ocular diseases will cause serious vision function damage. This article is going to summarize the value and correlation between hypertensive retinopathy and carotid lesions in terms of clinical manifestations, pathological physiological mechanism and target organ damage.
The abnormalities of retinal vessels such as retinal arteriolar narrowing, arteriovenous nicking, micro-aneurysms, retinal hemorrhages, and cotton wool spot are closely related to systemic diseases including hypertension, diabetes mellitus, cardiovascular disorders, stroke and renal diseases. The modern retinal vessels examination technology has features of quick noninvasive, quantitative standardized and intelligent analysis. Taking advantage of these to fully discover the retinal vascular abnormalities and get deeper understanding of the relationship between its' mechanism and systemic vascular diseases is not only helpful to better diagnose and treat retinal vascular diseases, but also contributes to predicting the risk and prognosis of systemic diseases. We suggest emphasizing on the study of correlation between retinal vascular abnormalities and systemic vascular diseases using modern retinal vessels examination technology. It will provide the preventive clue of diseases of circulatory system by finding out the retinopathy. Meanwhile, correctly treating systemic diseases would get a better prognosis of the retinopathy. They exist side by side and play a part together for providing a better prognosis, which would be a new direction for the doctors and scientists in the new era.