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find Keyword "Fluorescein angiography/utilization" 4 results
  • Ophthalmoscopic image characteristics and relation with vision and course of disease in nonarteritic anterior ischemic optic neuropathy

      Objective To observe the characteristics of fundus fluorescein angiography(FFA)and optical coherence tomography(OCT)in nonarteritic anterior ischemic optic neuropathy (NAION),and investigate its relation with visual acuity and course of disease.Methods The clinical data of 47 patients (47 eyes) with NAION were retrospectively analyzed. All the patiens had undergone visual acuity,fundus and visual field examination,meanwhile FFA and OCT were carried out at first visit. FFA and visual field were carried out by routine. OCT was carried out by line and circle shape scanning in macula and optic disc. Thirtyfive NAION patients were checked with OCT at half, one, two, three and six month after onset in respectively. Take the healthy fellow eyes of 36 NAION patiens as control group.The FFA,visual field,OCT characteristics and relation with visual acuity and course disease were comparatively analyzed.ResultsFFA showed that all the eyes appear as delayed filling of the optic disc in early stage and hyperfluorescence leakage of the optic disc in late stage,besides hyperfluorescence presented to macular area in 24 eyes. OCT showed that optic papilla swelling and physiological depression narrow or nearly disappearance, neuroepithelial layer thickening or neuroepithelial layer eminence and subretinal fluidity area opaca between optic disc and macula. There were 14 eyes with normal physiological depression and 22 eyes with small physiological depression or non physiological depression in control group. Half month after onset,the neuroepithelial layer thickness of macula fovea, the maximum thickness of neuroepithelial layer between optic disc and macula,and the average retinal nerve fiber layer(RNFL)thickness in NAION group were higher than those in the control group,the difference were statistically significant (F=6.51,26.12,75.49;P<0.05).Two months after onset,the maximum thickness of neuroepithelial layer between optic disc and macula, the average RNFL thickness, and the RNFL thickness of temporal optic disc in NAION group were significant thinner, but the elevated height of the optic disc in NAION group were near those of the control group. Three months after onset,the average RNFL thickness and the RNFL thickness of temporal optic disc in NAION group decreased continually, they were lower than those of the control group, the difference were statistically significan(F=75.49,37.92;P<0.05).Visual field showed that inferior defect were found in 21 eyes (45%). With progress, the superior RNFL thickness obviously decreased, coincidence with appearance of visual field. It indicate that the superior optic atrophy serious. Visual acuity had significant negative correlation with the neuroepithelial layer thickness of macula fovea, the neuroepithelial layer maximum thickness between optic disc and macula, the average RNFL thickness, the RNFL thickness of temporal optic disc(r=-0.394,-0.424,-0.412,-0.464;P<0.05).Conclusions FFA showes that hyperfluorescence leakage appearanced in part macula. OCT showes that RNFL becomes thinner as the disease duration increases. The results of OCT and visual field examinaion in the configuration of optic disc and changes of RNFL are accordant.

    Release date:2016-09-02 05:41 Export PDF Favorites Scan
  • Application of Micron Ⅳ retinal imaging system in three different types of mouse models

    ObjectiveTo evaluate Micron Ⅳ retinal imaging system in three mouse models of retinal diseases. MethodsMouse models of oxygen induced retinopathy (OIR) model (OIR group), N-methyl-N nitrosourea (MNU) model (MNU group) and N-methyl-D-aspartate (NMDA) model (NMDA group) were induced in 24 healthy male C57BL/6J mice. Fundus photograph, fundus fluorescein angiography (FFA) and optical coherence tomography (OCT) and electroretinogram (ERG) were used to evaluate these mice. All the imaging examinations were performed by Micron Ⅳ retinal imaging system. ResultsOIR mice showed tortuous and dilated retinal vessels in fundus photograph, neovascularization plexus and vascular leakage in FFA, and epiretinal fibrovascular tissue and tortuous expansion vascular vessels in OCT. MNU mice showed wax yellow optic disk without retinal pigmentary changes, slight thinning of retinal blood vessels in FFA, and normal structure and thickness in OCT. The a-wave amplitudes of the maximum mixed response decreased significantly, and were (15.38±4.36) μV and (13.78±5.52) μV at 2 or 3 days of modeling, respectively. NMDA mice showed a pale retina with vasospasm. ERG revealed that there was no obvious change in latency of a- and b-wave, but significantly decreased amplitude of b-wave at 12 hours and 24 hours after modeling with (72.28±7.18) μV and (65.35±9.18) μV, respectively. ConclusionMicron Ⅳ retinal imaging system is a real-time, non-invasive tool to study the retinal structure and function in animal models of retinal diseases.

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  • Imaging technology and the diagnosis and treatment of pediatric retinal disease

    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.

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  • Study pediatric fundus imaging techniques to improve the diagnosis of retinal diseases in children

    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.

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