Peripapillary intrachoroidal cavitation (PICC) is a common pathological change observed in high myopia. The exact pathogenesis of PICC is still unclear. Expansion and mechanical stretching of the peripapillary sclera, breakage and defect in the retina near the border of the myopic conus and communication between intrachoroidal cavity and the vitreous space may be important segments during the development of PICC. Color fundus photography shows a localized and well-circumscribed peripapillary lesion with yellow-orange colour, often accompanied by fundus changes, such as myopic conus excavation, optic disc tilting and inferotemporal retinal vein bending at the transition from the PICC to the myopic conus. However, the PICC lesion is not easy to be recognized in the fundus photography. Fluorescein angiography shows early hypofluorescence and later progressively staining in the lesion. Indocyanine green angiography shows hypofluorescence throughout the examination. Optical coherence tomography (OCT) is vital in diagnosing PICC. Hyporeflective cavities inside the choroid, sometimes communicating with the vitreous chamber, can be observed in OCT images. OCT angiography indicates lower vessel density or even absence of choriocapillary network inside or around PICC lesions.
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)
Polypoidal choroidal vasculopathy (PCV) is a fundus disease characterized by choroidal anomalous branch vascular network and terminal polypoidal dilatation. According to its fundus feature, lesion location, imaging feature and disease progression, PCV can be divided into different types or stages. It can be divided into hemorrhage and exudation PCV according to the fundus features, into macular, peripapillary, periphery and mixed types according to the lesion locations. It can also be divided into type 1 and 2 according to the ICGA (indocyanine green angiography) manifestations, and can be classified as early stage and late stage according to disease progression. There were different correlations between different types of PCV and some risk genetic loci, such as ARMS2 (age-related macular degeneration factor 2)/ HTRA1 (high temperature essential protein A1) , C2, complement factor B, complement factor H, and elastin genes. The response to therapy and prognosis are also different between different types. It is important to further study the clinical classification of PCV, to explore the genetic characteristics, influencing factors and treatment or prognosis features of different types of PCV. The results will improve the differential diagnosis of PCV, and the effectiveness of individualized treatment.
ObjectiveTo observe the clinical characterisitics of choroidal excavation in the macula. MethodsA total of 22 patients (22 eyes) with choroidal excavation diagnosed by spectral domain high definition optical coherence tomography (HD-OCT) were enrolled in this study. The patients included 12 males (54.50%) and 57 females (45.50%). The age was ranged from 21 to 82 years old, with an average of (41.44±13.17) years. All the patients were affected unilaterally, including 9 right eyes and 13 left eyes. The corrected vision, slit lamp microscope with preset lens, fundus photography, HD-OCT and fluorescence fundus angiography (FFA)were measured for all patients. The clinical characterisitics and concomitant diseases were observed. Seventeen eyes were followed for a period between 3 to 12 months. The lesions change were evaluated by HD-OCT. ResultsThere were 18 eyes (81.8%) with symptoms of micropsia and metamorphopsia, 4 eyes (18.2%) without symptoms. The corrected vision was ranged from 0.3 to 1.2, 12 eyes (54.54%) with moderate or high myopia. Fundus examination presents yellowish-white exudation in 12 eyes (54.54%), yellowish-white exudation accompanied with hemorrhage in 9 eyes (40.91%), grayish yellow reflex halo in 1 eye (4.55%). HD-OCT showed that the retinal pigment epithelium (RPE) layer was involved in the excavation, and the photoreceptor outer segment and pigment junction (OPR) layer was disappeared in all eyes. The external limiting membrane and the photoreceptor inner segment/outer segment junction layer were preserved in 13 eyes (59.09%) and disappeared in 9 eyes (40.91%). There were 10 eyes (18.18%) with a single lesion, 4 eyes (18.18%) with idiopathic choroidal neovascularization, 4 eyes (18.18%) with punctate inner choroidopathy, 1 eye (4.55%) with polypoidal choroidal vasculopathy, 1 eye (4.55%) with macular preretinal menbrance, 1 eye (4.55%) with central serous chorioretinopathy. FFA showed hypofluorescence in early phase, hyperfluorescence in late phase, without obvious leakage. There was no noticeable changes in size and morphological changes in the follow-up period. ConclusionsChoroidal excavation in the macula occurs mostly in middle-aged people with myopia. It can be associated with many fundus diseases. The excavation is located in RPE layer, and OPR layer disappeared. Choroidal excavation in the macula develops slowly.
Purpose To observe the features of the hyperfluorascent areas in the posterior ocular fundus detected by indocyanine green angiography(ICGA) in healthy volunteers, and to study circulatory properties of choroid. Methods Routine ICGA was performed on each of fifty consecutive normal eyes. Results ⑴Hyper fluorescence began at an average time of (30.80plusmn;5.42) seconds. ⑵The patterns of the hyperfluorescence revealed themselves in doubling areas divided symmetrically by the relatively hypoer fluorescence blelt running horizontally across the fovea in 29 eyes(58%), and single area in 21 eyes(42%).⑶The average area of the hyper fluorescence was (57.27plusmn;14.08)mm2.⑷ The sustaining time of the hyper fluorescence was (172.44plusmn;59.70) seconds at average. Conclusion During ICGA, a very patchy filling pattern of hyper fluorescence was visible in posterior fundus in normal eyes, and its filling time and shape presented choroidal blood supply and circulation. These parameters would offer consulted bases for clinical diagnosis of the choroidal diseases. (Chin J Ocul Fundus Dis,1999,15:1-3)
ObjectiveTo investigate the relationship of the age-related maculopathy susceptibility 2 (ARMS2) A69S polymorphism and polypoidal choroidal vasculopathy (PCV), and to explore the distribution of risk allele in PCV and exudative age-related macular degeneration (wAMD). MethodsThis is a systemic review and meta-analysis. A literature research was performed in Pubmed, Embase, Web of Knowledge, Chinese national Knowledge Infrastructure and Wanfang Medicine Database by the key words of "ARMS2, LOC387715, A69S, rs10490924, age related macular degeneration, polypoidal choroidal vasculopathy, single nucleotide polymorphism". Case-control studies were included, while review, case report, or systemic reviews were excluded. The latest one of multiple articles was included only which published by the same group. The results of individual studies were pooled using the software Review Manager 5.1.4, and the correlation between allele frequencies, genotype and phenotype were analyzed. ResultsA total of 14 articles, consisting 2007 PCV patients, 1308 wAMD patients and 3286 controls were recruited. The pooled odds ratio (OR) in random-effects models for genotype TT versus wild homozygous genotype GG is 5.20 (95% CI: 3.90-6.95). Heterozygous genotype GT mildly increased the risk in affecting PCV, and the OR of GT versus GG is 1.85 (95% CI: 1.42-2.40. The frequency of T allele in wAMD was higher than in PCV, pool OR=1.60 (95% CI: 1.31-1.96). ConclusionsThe ARMS2 A69S variant is associated with PCV. Genotypes of TT and GT had an effect in increasing the risk of PCV, and the effect is even greater in genotype of TT. T allele had an effect in increasing the risk of PCV and wAMD, and the risk for wAMD is slightly greater than for PCV.
Objective To investigate the imaging characteristics of patients with choroidal folds, which including ocular fundus, fundus fluorescein angiography (FFA), indocyanine green angiography (ICGA) and optical coherence tomography (OCT). Methods The clinical data of 62 eyes of 34 patients with choroidal folds were analyzed retrospectively. The patients include 10 patients(20 eyes) of VogtKoyanagiHarada syndrome, 1 patients(2 eyes) of Behcet diseases, 11 patients(21 eyes) of other uveitis, 5 patients (9 eyes) of papolloedema, 2 patients(2 eyes) of choroidal tumor, 2 patients(4 eyes) of, hypotony with macular degeneration, 1 patient(2 eyes) of,Graves diseases, 1 patient (1 eye) of,blunt trauma and 1 patient(1 eye) of uveal effusion syndrome. All patients underwent the examination of direct ophthalmoscope, fundus color photography and FFA, meanwhile, 9 patients (17 eyes) with ICGA examination, 9 patients(18 eyes) with OCT examination. Results Choroidal folds were bright and dark stripes on the fundus, their numbers were variable. They can be arranged radially, horizontally, oblique or concentrically around the macular area, or radiating from optic disk but rarely over equator region. On FFA there were more folds which were subjected to coarse folds and wrinkles. They were obvious at early stage and no leakage at late stage. On ICGA choroidal folds showed normal or hypofluorescence at early stage, and hyperfluorescence or hypofluorescence at late stage. The hyperfluorescence or hypofluorescence bands were corresponding to the hypofluorescence of FFA but not obvious as FFA. On OCT choroidal folds involved choriod and retinal pigment epithelial layer (RPEL). Conclusion Choroidal fold is a bright and dark stripes that involved choriod and RPEL. The angiography showed hypofluorescence bands without leakage. Be familiar with the imaging features of choroidal folds can help to found the choroidal folds and the original diseases.
Optic coherence tomography (OCT) is one of the most rapid developing technologies in ophthalmology. OCT angiography (OCTA) has been made possible by the development of even faster scanning and sampling techniques, which is the next milestone after stratus OCT and spectral domain OCT. Without the need of injection of the contrast agent, OCTA is capable of providing a three-dimensional reconstruction of the perfused microvasculature within the retina and choroid by detecting the motion of scattering particles such as erythrocytes within sequential OCT cross-sectional scans performed repeatedly at the same location of the eye with different analysis algorithms. Comparing to fundus fluorescein angiography and indocyanine green angiography, with improved OCT technology and understanding, OCTA has showed certain advantages to diagnose retinal and choroidal diseases, especially macular vascular diseases. It is important to establish the contributions that OCTA can make to diagnosing, managing and understanding of ocular fundus diseases.