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Multifocal pupillographic objective perimetry (mfPOP) is being developed as an alternative to subjective threshold perimetry for the management of visual and neurological disorders. Here, we evaluate, in normal subjects, differences in signal quality between the original mfPOP method of spatially sparse Continuous stimulus presentation and the new Clustered Volleys (CVs) method. We hypothesized that the CVs method would lead to increased signal-to-noise ratios (SNRs) over the original method due to the stabilization of gain within the pupillary system.Data were collected from six separate studies where otherwise-identical pairs of mfPOP tests using either the original Continuous stimulus presentation method or the new CVs method were undertaken; 440 6-minute tests from 96 normal subjects of varying ages were included. Per-region SNRs were compared between the two methods.Mean SNRs for the CVs mfPOP variants were between 35% and 57% larger than the original Continuous mfPOP variants (P < 0.001 in five of six studies). Similarly, the goodness-of-fit measure (r2) demonstrated large and significant fold increases of between 2.3× and 3.4× over the original method (all P < 0.001). Significant improvements in SNRs were present in all of the 88 test regions (44/eye), ranging between 8.4% and 93.7%; mean SNRs were significantly larger in 98% of test subjects.The CVs mfPOP stimulus presentation method produced substantial increases in signal quality over the original method. This is likely due to the stabilization of pupillary gain during stimulus presentation.These improvements increase diagnostic accuracy and have enabled shorter, 80-second mfPOP tests to be developed.
To describe a case of central retinal vein occlusion in a young patient presenting with symptomatic malignant hypertension because of Conn syndrome.Single interventional case report.A 44-year-old man presented with a 1-day history of headache and vision loss in his right eye on a background of malignant hypertension. He was diagnosed with right central retinal vein occlusion. Further investigation of his malignant hypertension revealed Conn syndrome because of an aldosterone-secreting adenoma in the left adrenal gland.This is the first reported case of Conn syndrome presenting as central retinal vein occlusion. Conn syndrome should be suspected in young patients with central retinal vein occlusion because it is a common cause of hypertension and carries significant cardiovascular risk if left untreated.
To present the 2-year results of all patients receiving laser treatment for retinopathy of prematurity (ROP) at a single institution over a 9.5-year period. To establish the frequency of threshold ROP.Consecutive case series. All patients who had laser treatment for ROP at The Royal Women's Hospital, Melbourne, Australia, between January 1992 and July 2001 were prospectively recorded in a database. Their medical charts were retrospectively reviewed. Baseline birthweight, gestational age at birth, timing of treatment, and ROP severity at treatment were recorded. The main outcome measures were visual acuity (significantly reduced or not), anatomic outcome and refractive error at 2 years of age (corrected for the degree of prematurity).A total of 107 eyes of 57 babies were treated with laser photocoagulation. Four children did not survive for follow-up, and 2-year follow-up data were available for 38 children (67%, 71 treated eyes). Average duration of follow-up was 26 months. Two-year visual acuity was significantly reduced in 12/71 (17%) treated eyes, and 3/38 children (8%) had significantly reduced vision in both eyes. An anatomical outcome of macular fold or worse was observed in 8/71 eyes (11%). Mean 2-year spherical equivalent refractive outcome was only minimally myopic (-0.6 D).Visual, anatomic and refractive outcomes after laser treatment for ROP were favourable, confirming that laser photocoagulation is an effective treatment for severe ROP.
To investigate retinal function in subjects with unilateral exudative age-related macular degeneration (AMD) using multifocal pupillographic objective perimetry (mfPOP) and to assess the diagnostic accuracy of this technique.We tested each of 20 exudative AMD patients and 20 control subjects with 4 different mfPOP stimulus variants. Multifocal stimuli consisting of 24 or 44 independent stimulus regions per eye extending from fixation to 15° eccentricity were presented dichoptically. The aperiodic stimuli were presented at 1 or 4 s mean intervals. Video cameras recorded pupil responses under infrared illumination. Test duration consisted of 8 segments of 30 s. Stimuli were presented at a luminance of 250 cd/m and a background of 10 cd/m. Peak regional contraction amplitudes, time to peaks, and a linear combination of these were used to produce receiver operator characteristic (ROC) curves to measure the diagnostic accuracy of this method.Mean constriction amplitudes of exudative AMD subjects were decreased by 0.77 ± 0.15 dB (p < 5 × 10). Stimulus ensembles with 44 regions and faster presentation rates produced the largest effect on response sizes (t = 3.63; p < 0.0002). When comparing the control eyes to exudative AMD eyes, the area under the curve of ROC plots was 0.96 ± 0.03 (mean ± SE). This was achieved for asymmetry analysis of the difference in response amplitudes obtained from the two eyes at each point in the visual field.The mean effect of exudative AMD on contraction amplitudes reflected the severity of disease, and ROC analysis from amplitude deviations improved the sensitivity of detection of exudative AMD. A longitudinal investigation into the mfPOP responses of patients with non-exudative AMD may detect and classify visual fields with poor prognosis.
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