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.
Illumimaton intensities of 6 indirect opthalmoscopes and 5 slit lamps were measured and calculated. The results showed the retinal irradiance from these instruments is quite high with dilated pupils ahd clear media. Although such illuminating intensity is a potential risk factor for the human retina, with careful use and reduced intensity, they are relatively safe. We suggest that ophthalmologists try their best to avoid using brighter source beyond useful illumination and unnecessary wide slit. (Chin J Ocul Fundus Dis,1992,8:133-137)
Objective To investigate the incidence, risk factors and relationship with intraocular hemorrhage of Tersonprime;s syndrome among patients with spontaneous subarachnoid hemorrhage (SSAH) after emergency admission. Methods Seventy-four consecutive patients with SSAH from June 2010 to September 2011 were prospectively examined. A direct ophthalmoscope examination was performed in all participants within three hours after emergency admission. If circumstances permit, fundus photos were taken. When initial fundus examination was conducted, the Hunt-Hess grade was classified by the brain surgeon. The fundus examination was taken on the 1st, 3rd, and 7th day, 2 weeks, 1 month, and 3 months after emergency admission. The details were recorded, including sex, age, bleeding patterns, Hunt-Hess grade and death. The incidence of Tersonprime;s syndrome was analyzed and correlated with sex, age and Hunt-Hess grade. The relationship between intraocular hemorrhage and Hunt-Hess grade and mortality was analyzed. Results Among the 74 patients, 19 were suffering from Tersonprime;s syndrome, 31 eyes involved. The incidence of Tersonprime;s syndrome was 25.7%. Statistical analysis demonstrated that the sex of the patient was randomly distributed (chi;2=0.071,P=0.790), and the age components were also randomly distributed (Fisherprime;s exact test.P=0.203). The Hunt-Hess grade components were nonrandomly distributed (Fisherprime;s exact test,P=0.000). Among the patients with preretinal hemorrhage and vitreous hemorrhage, Hunt-Hess grade Ⅴ was in 76.9% patients; among inte-retinal hemorrhage, Hunt-Hess grade was in 16.7% of patients. The distribution was non-random (Fisherprime;s exact test.P=0.041). All intraocular hemorrhages were found at the time of first fundus examination. The mortality from Tersonprime;s syndrome was 68.4% (13/19) according to the follow-up investigation. The mortality in patients with vitreous hemorrhage and preretinal hemorrhage was statistically different (Fisherprime;s exact test.P=0.046) from patients with inter-retinal hemorrhage. Among the six recovered Tersonprime;s syndrome patients, two of them were recovered from vitrectomy, and the other four were recovered from selfabsorption. Conclusions A higher frequency (25.7%) of Tersonprime;s syndrome was observed in patients with SSAH. The incidence is highly related to the general condition of the patient but not to the sex or age. Intraocular hemorrhage is more likely to happen in the early time of SSAH. People with more severe intraocular hemorrhage may have worse general condition or higher mortality.
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.