Diabetic retinopathy (DR) is one of the most common causes of visual impairment and blindness in diabetic patients. It is particularly important to set up simpler, safer, non-invasive and highly effective methods for diagnosis as well as monitoring DR. A variety of new fundus imaging techniques show great advantages in early diagnosis, treatment and monitoring of DR in recent years. The main characteristics of wide-field scanning laser imaging system is achieving a large range of retinal image in a single photograph and without mydriasis. It provides several options for color images, FFA and FAF, which satisfy to detect the retina, choroid and vascular structure. Multi spectral fundus imaging system is suitable for DR screening, because it is able to recognize the typical characteristics of DR, such as microaneurysms, hemorrhage and exudation, and is non-invasive and convenient. OCT angiography is a quantitative examination that provides foveal avascular zone area, macular blood flow density, which provides strong evidence for DR diagnosis. The improvement of these new techniques will help us to build up a personalized evaluation system of DR.
Objective To observe the characteristics of morphological development of premature retina at 33-46 weeks of gestational corrected age (GCA). Methods A total of 268 premature infants were divided into 7 groups according to the GCA (33-34,35-36,37-38,39-40,41-42,43-44 and 45-46 weeks). The ocular fundus of those infants were recorded and analyzed by an indirect ophthalmoscopelinked imaging system. Results As GCA increases, noticeable macular morphological changes occurred and recorded in 96% of infant at 45-46 weeks of GCA. Retinas were gradually vascularized at 41-42 weeks (nasal retina) or 43-44 weeks (area Ⅲ,temporal retina), and pigmented in 84% of infant at 45-46 weeks of GCA. Conclusion Macular morphological patterns, retinal blood vessels and pigments continue to develop in postnatal premature infants.
Fundus photograph, angiography, optical coherence tomography, ultrasonography and other image technology and visual electrophysiology can provide a wealth of information for the diagnosis and treatment of pediatric retinal diseases. However, it put forward higher requirements on pediatric retinal imaging equipment and techniques which will be quite different from adult, because of pediatric retinal disease has its own characteristics, such as disease spectrum, pathogenesis, and pathophysiology. The principles and methods of image results interpretation on adult were not quite ready for children. It is necessary to further study the fundus imaging techniques suitable for children, gradually establish standardized examination procedures and clinical interpretation system, to promote the diagnosis of retinopathy in children.
Objective To observe the effect of scanning laser ophthalmoscope (SLO) measuring macular light sensibility on evaluating the visual function in idiopathic epiretinal membrane (IERM), and analyze the relationship among the macular light sensibility, central visual acuity, and the thickness of fovea. Methods Procedure of microperimetry of SLO was performed on 44 patients (55 eyes) with IERM diagnosed by indirect and direct ophthalmoscope and optical coherence tomography (OCT). The light sensibility at 10deg;macular central area was measured. The results were compared with 31 healthy control eyes which underwent the same examinations simutaneously. The correlation among the macular light sensibility, the thickness of fovea measured by OCT, and the results of logarithm visual acuity was anaylzed. Results Compared with the control eyes, macular light sensibility decreased in IERM eyes significantly (F=47.265, Plt;0.01), which had the positive correlation with the decrease of visual acuity (r=0.687, P=0.000) and negative correlation with the retinal thickness of macular fovea (r=-0.532,P=0.003). The mean macular light sensitivity in patients with metamorphopsia decreased obviously compared with which in patients without (t=7.039, P=0.000). The mean macular light sensitivity in patients with prolifertive IERM decreased compared with which in patients with dropsical IERM without statistical difference (t=-1.706, P=0.094). Conclusion Microperimetry of SLO may sensitively reflect the macular visual function of eyes with IERM and quantificationally evaluate the changes of macular light sensibility. The changes of macular light sensitivity correlates with the central visual acuity and retinal thickness of macular fovea. (Chin J Ocul Fundus Dis, 2006, 22: 100-102)
ObjectiveTo study the effects and outcomes of green diode laser therapy under indirect ophthalmoscope in the treatment of juvenile Coats disease. MethodsNineteen juvenile Coats disease patients (19 eyes) well enrolled in this study. Average age at presentation was 73.5 months (27-146 months). Best corrected visual acuity (BCVA) was ≥0.1 in 7 eyes; 0.01 to 0.09 in 8 eyes; counting finger in 3 eyes and light perception in 1 eye. The macular of all eyes was involved. There were 3 eyes with macular exudative retinal detachment, 4 eyes with sub-macular fibrosis, 1 eye with macular atrophy. Exudative area was more than two quadrants in 17 eyes, and less than two quadrants in 2 eyes. The abnormal blood vessels located in the superior or nasal-superior retina (2 eyes) or inferior or temple-inferior area (17 eyes). Exudative retinal detachment occurred in 13 eyes, in which macular was not involved in 10 eyes, and macular was involved in 3 eyes. All patients were treated with green diode laser (532 nm) ablation therapy under general anesthesia and indirect ophthalmoscope to areas of the retina telangiectasia. 3 patients received a single intravitreal 2 mg triamcinolone injection (IVTA). Average follow-up was 18.5 months (6-51 months). Main outcome measures included visual acuity, retinal vascular abnormalities, subretinal exudates and exudative retinal detachment. ResultsAmong 3 patients treated with IVTA, one needed cataract extraction and one needed pre-retinal membrane peeling surgery. After laser photocoagulation, resolution of telangiectasia lesions was achieved in all patients at the end of follow-up. Exudation was resolved in 8 eyes, reduced in 9 patients and no change in 2 eyes. Exudative detachment was resolved in 8/13 eyes, reduced in area in 3/13 eyes and no change in 2 eyes. There were 9 eyes with sub-macular fibrosis and 3 eyes with macular atrophy at the end of follow-up. The visual acuity was stable in most cases. BCVA was ≥0.1 in 6 eyes; 0.01 to 0.09 in 11 eyes; counting finger in 1 eyes and light perception in 1 eye. Compared to the normal eyes, eyes with Coats disease tended to be more hyperopic (t=3.6,P=0.003) and astigmatic (t=3.6, P=0.004), but no correction were needed for these refractive errors. ConclusionsGreen diode laser therapy under indirect ophthalmoscope can be an effective treatment for juvenile Coats disease with little complications. IVTA can be helpful, but must be used with cautions as it can induce some complications.
With the renovations of modern retinal imaging modality, such as video ophthalmoscopy, fundus photography, fundus fluorescein angiograph and spectral domain optical coherence tomography, it is possible to get high resolution and reproducible in vivo imaging of retina from neonates to improve the diagnosis and treatment of pediatric retinal disease. Now we have a better tool to investigate the early development of human retina, the pathogenesis and progression of pediatric retinal diseases, and to monitor the treatment efficacy and prognosis of these diseases. To expand these technologies in the diagnosis and treatment of pediatric retinal disease, we need simple, safe, comprehensive and objective applications which can only be achieved through multi-disciplinary cooperation.