Ultra-wide field fundus autofluorescence (FAF) imaging is a new noninvasive technique with an imaging range of about 200 °. It can detect peripheral retinal lesions that cannot be found in previous FAFs and more objectively reflect intracellular content and distribution of lipofuscin in the retinal pigment epithelium (RPE) and RPE cell metabolic status. The ultra-wide field FAF can find the abnormal autofluorescence (AF) in the peripheral retina of the eyes of age-related macular degeneration (AMD), and different AF manifestations may have an impact on the diagnosis and treatment of the different AMD subtypes. It is helpful to evaluate subretinal fluid in the eyes of central serous choroidal retinopathy and can accurately detect the changes in the outer retina of the eyes without subretinal fluid. It can help to determine the type of uveitis and fully display the evolution of the disease. It can also assess the peripheral photoreceptor cell layer and RPE in patients with retinal dystrophy and retinitis pigmentosa, and comprehensively evaluate their retinal function and monitor the progress of disease. It can also assist in the evaluation of the short-term efficacy and RPE cell function after the scleral buckling surgery for patients with rhegmatogenous retinal detachment. In the future, ultra-wide field FAF may change the knowledge and intervention strategy of ocular fundus diseases and promote the clinical and scientific research in this field.
Autofluorescence is produced by lipofuscin in retinal pigment epithelium (RPE) cells which is induced by exciting light and enables the visualization of lipofuscin changes in the RPE cells, thus showing the function of RPE and photoreceptor cells. Fundus autofluorescence (FAF) imaging is a non-invasive imaging technique providing information of RPE and photoreceptor cells, which is not obtainable with other imaging modalities. The scope of applications includes identification of diseased RPE in retinal diseases, elucidating pathophysiological mechanisms, estimating disease progression and prognosis, guiding treatment protocols. Common fundus diseases have different pathological types, levels and causes, so they can cause various damages of RPE and photoreceptor cells which induce complicated FAF. It is worth to further observing and investigating the common retinal diseases' FAF characteristics and clinical applications.
Objective To investigate the clinical features of polypoidal choroidal vasculopathy (PCV) in Chinese patients.Methods The clinical data of 71 continuous patients (142 eyes) who were diagnosed with PCV by fundus photography, fundus fluorescein angiography (FFA), indocyanine green angiography (ICGA) and optical coherence tomography (OCT) were analyzed retrospectively.Results Eleven patients (11 eyes) of 71 patients (142 eyes) were diagnosed with PCV to make up 15.49% and 7.75% of the numbers of patients and affected eyes respectivery. The patients included 7 males (63.6%)and 4 females (36.4%). The predominant location for these lesions was the macular region in 10 eyes (90.9%). Fundus examination demonstrated the reddish-orange nodular elevations in 6 eyes. ICGA revealed umbrellalike or twiglike branching vascular networks and polypoidal dilations at the vascular terminals of the branches in all patients, and feeder vassels within choroidal vascular networks were found in 8 eyes. OCT images of retinochoroidal structures showed prominent anterior protrusion of the orange subretinal mass corresponding to the polypoidal structure in the indocyanine green angiogram. An apparent discontinuity was observed in the highly reflective layer which delineates the polypoidal structure.Conclusions PCV mainly affects the male over 50 years and the eyes involved were mostly unilateral. Most of polypoidal vascular lesions are present in the macul ar area. (Chin J Ocul Fundus Dis,2003,19:269-332)
OCT angiography (OCTA) is a fast, noninvasive and quantifiable new technique, which is especially suitable for long-term follow-up in patients with hereditary retinochoroidal degeneration, such as retinitis pigmentosa, Best vitelliform macular dystrophy, adult onset foveomacular vitelliform dystrophy, doyne honeycomb retinal dystrophy, choroideremia and Stargardt disease. During the follow-up, clinicians can find the subtle signs that explain disease development from the blood flow imaging, quantitatively describe the vascular density, timely detect and treat choroidal neovascularization. It is significant to explore the etiology and monitor the course of these diseases. With the development of more treatments for these diseases, OCTA parameters can also be used as indicators to evaluate and compare different therapeutic effects. In the future, more quantitative indicators of OCTA will be applied to evaluate the course of hereditary retinochoroidal degeneration, and provide valuable basis for early diagnosis and treatment.
The retinal vessel changes are the primary and major features of retinal vascular diseases. The retinal vessel is part of systemic vessels with its own characteristics to sustain normal retinal function. These basic characteristics are important to the correct understanding and proper treatment of retinal vascular diseases. Always keep in mind that the retinal vessels is one part of the systemic vascular system, thus retinal vascular diseases may have systemic etiology, and systemic drug administration may have a profound effects to the whole body. However retinal vascular system also has its own structural and functional characteristics, thus retinal vascular diseases are also different from the systemic diseases. Finally the main function of retinal vascular network is to maintain the neuro-retinal function, thus we should balance the vision protection and treatments against abnormal retinal blood vessels. Over-treatments may damage the retinal vision.
Objective To investigate the characteristics of indocyanine green angiography(ICGA) in central serous chorioretinopathy(CSC) Methods The simultanous fundus fluorescein angiography(FFA) and ICGA were performed on 79 eyes of 70 consecutive patients with Heidelberg Retina Angiography. Results Seventy-nine eyes in FFA revealed RPE leakages.The changes of ICGA showed a small localized delay of filling of choroid vessels during the early phase of angiography in 23 eyes,choroidal capillary congestion in 79 eyes,the choriodal capillary hyperpermeability in the area of RPE leakage in 78 eyes,pigment epithelial detachment in 25 eyes and RPE atrophy in 21 eyes. Conclusion The findings in this research indicate that the choroidal abnormalities are the basic characteristics of ICGA in CSC. (Chin J Ocul Fundus Dis,20000,16:14-16)
Objective To investigate the characteristics of the ocular fundus of Chinese patients with polypoidal choroidal vasculopathy (PCV).Methods The photographs of ocular fundus of 42 Chinese patients (48 eyes) with PCV diagnosed by fundus photography, fundus fluorescein angiography (FFA), and indocyanine green angiography (ICGA) were analyzed.Results In 48 eyes with PCV, 35 (72.9%) had subretinal hemorrhage, 13 (27.1%) had yellow-white exudation, 7 (14.6%) had subretinal tuberculum-like focus in tangerine peel at the posterior pole, and 26 (54.2%) had hemorrhagic or serous pigment epithelium detachment (PED). Thirty-six eyes(75.0%)had polypoidal dilations with branching vascular network, and the other 12 (25.0%) had scattered polypoidal dilations without identifiable continuous branching vascular network. The location for these lesions were at the macular region in 30 eyes (62.5%), arcade region in 6 (12.5%), peripapillary region in 3 (6.3%), and combination region in 9 (18.8%).Conclusions Most of the lesions in Chinese patients with PCV locate at the macular region and temporal vascular arcade. Most eyes are characterized by branching choroidal vessels with polyplike terminal aneurysmal dilations in ICGA. (Chin J Ocul Fundus Dis,2003,19:269-332)