Functional Characterization and Multimodal Imaging of Treatment-Naive Quiescent Choroidal Neovascularization

PURPOSE. To investigate the multimodal morphological and functional characteristics of treatment-naive quiescent choroidal neovascularization (CNV) secondary to AMD. METHODS. Eleven patients with treatment-naive quiescent CNV that consecutively presented over a 6-month period, underwent multimodal morphological and functional assessment (including indocyanine green angiography [ICGA], spectral-domain optical coherence tomography [SD-OCT], microperimetry, and preferential hyperacuity perimeter [PHP]). For the purpose of this study, asymptomatic previously untreated CNVs showing absence of intraretinal/subretinal exudation in two consecutive visits (at least 6 months apart) were defined as treatment-naive quiescent CNV. RESULTS. Eleven eyes of 11 patients (9 females; mean age 76.5 +/- 8.5 years) were included. On fluorescein angiography (FA), quiescent CNVs appeared as late speckled hyperfluorescent lesions lacking well-demarcated borders. Mid-late phase ICGA allowed visualizing the hyperfluorescent quiescent CNV network and delineating the plaque. Mean lesion area (mid-late phase ICGA) appeared larger compared with earliest previous examination performed 23.8 +/- 16.0 months before (3.24 +/- 2.51 mm(2) vs. 3.52 +/- 2.46 mm(2), respectively; P = 0.01). SD-OCT revealed, at the site of quiescent CNV, an irregularly slightly elevated RPE, without hyporeflective intraretinal/subretinal fluid, showing a major axis in the horizontal plane, which was characterized by collections of moderately reflective material in the sub-RPE space and clear visualization of the hyperreflective Bruch's membrane. Hypergeometric distribution revealed a significant correlation between microperimetry and PHP with respect to locations of affected areas (P = 0.001). CONCLUSIONS. Quiescent CNVs are sub-RPE CNVs secondary to AMD, showing absence of intraretinal/subretinal exudation on repeated OCT. Quiescent CNVs enlarge over time and may contribute to local reduced retinal sensitivity and metamorphopsia.