SummaryA total of 72 patients with biopsy proven celiac disease (CD) (mean age 51, SD 15 yrs.) were screened for neurological disorders. Only 15.4 % of patients did not show any evidence for neurological disease. Medical history revealed a high prevalence of neurological disorders such as migraine (27.8 %), carpal tunnel syndrome (19.4 %), vestibular neuritis (8.3 %), seizures (5.6 %) and myelitis (2.8 %). Interestingly, 34.7 % of CD patients complained of psychiatric problems such as depression, personality changes or even psychosis. The physical examination yielded stance and gait problems in more than one third of the patients, while limb ataxia, intention tremor, and dysarthria were rather uncommon. Other motor features such as basal ganglia symptoms, pyramidal tract signs, tics and myoclonus were infrequent.34.7 % of CD patients showed deep sensory loss with reduced ankle reflexes in 13.9 %.Interestingly, vestibular deficits were present in 12.5 % of patients. So, gait disturbances in CD cannot only result from cerebellar ataxia, but also from proprioceptive or vestibular impairment. Abbreviations
Different types of CNV in exudative AMD can be visualized and differentiated with OCT-A. Type 1 CNV were larger with minor demarcation from the surrounding vasculature and were visible on the slab "mid-choroid", "CC" and "RPE". In contrast, type 2 CNV demonstrated a sharp demarcation from the surrounding vasculature reaching the slab "outer retina".
The aim of this pilot study was to test whether mathematical parameters of the vascular morphology of choroidal neovascularization (CNV) can be used as biomarkers and to investigate how these parameters change during anti-vascular endothelial growth factor (VEGF) therapy. Methods Treatment-naive CNV in exudative age-related macular degeneration (AMD) was diagnosed in 28 patients. OCTangiography (OCT-A) (Avanti/FA Optovue) performed before and after anti-VEGF therapy. The OCT-A data sets were exported to an external image processing program and vessel skeletonization was accomplished by means of edge detection. Based on this technique the total vessel length, the number of segments and the fractal dimension (FD) of the CNV were calculated before and after therapy. The results were compared with other clinical parameters such as VA and central retinal thickness (RT). Results The total vessel length of the CNV was significantly reduced by anti-VEGF-therapy (mean value 652 pixels vs. 397 pixels; p < 0.0001), as well as the number of individual vessel segments of the CNV (mean value 117 vs. 76; p < 0.0001). The FD of the CNV also decreased significant reduction during therapy (mean 1.23 vs. 1.16, p < 0.0001). The changes in these parameters during treatment corresponded with an increase in VA and a reduction in RT. Conclusion This pilot study demonstrates that the vascular pattern of CNV in AMD can be visualized and described using mathematical parameters of OCT-A. The changes during therapy correlate significantly with established "activity" parameters of CNV, so changes in these parameters (especially FD) may represent additional CNV "activity" biomarkers.
The development of RPE tear after anti-vascular endothelial growth factor therapy for vascularized pigment epithelial detachment in exudative age-related macular degeneration does not necessarily result in large disciform scars and functional loss, but multiple injections seem to be beneficial especially in the first year. With this strategy, RPE tears seem to be covered by autofluorescent and hyperreflective tissue and a regrowth of the neovascular complex can be prohibited. As a result, photoreceptor cells regain their metabolic support with functional recovery.
ObjectiveOptical coherence tomography angiography (OCT-A) enables detailed visualisation of the vascular structure of choroidal neovascularisation (CNV). The aim of this study was to determine whether mathematically ascertained OCT-A vascular parameters of type 1 and type 2 CNV in exudative age-related macular degeneration (AMD) change during antivascular endothelial growth factor (anti-VEGF) treatment. The OCT-A vascular parameters were also compared with previously obtained activity parameters (fluid distribution on spectral domain OCT (SD-OCT)) to establish whether they could potentially be used as further ‘activity parameters’ for assessment of anti-VEGF treatment.Methods and AnalysisWe evaluated 27 eyes of 27 patients (mean follow-up 9.8 months) with type 1, type 2 or mixed CNV who had received anti-VEGF treatment (IVAN scheme). The parameters analysed were area (aCNV), total length of all vessels (tlCNV), overall number of vascular segments (nsCNV) and fractal dimension (FD) of the CNV. The changes in each of these parameters were correlated with the central foveal thickness (CFT).ResultsRegression and renewed perfusion of the CNV corresponded with the decrease or increase, respectively, of macular fluid distribution on SD-OCT. The increase and decrease of CFT during anti-VEGF treatment were highly significantly correlated with changes in FD (p<0.00001), aCNV (p<0.00001), tlCNV (p<0.00001) and nsCNV (p<0.00001).ConclusionOCT-A enables detailed analysis of AMD with regard to FD, aCNV, tlCNV and nsCNV. As the changes in these parameters correlate closely with changes on SD-OCT, they can be used as new activity parameters, alongside fluid distribution, for assessment of treatment effect and as parameters of stabilisation or the need for repeated treatment.
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