Ten-Year Follow-Up of Fellow Eyes in Patients with Unilateral Naïve Exudative AMD.

PURPOSE: To determine the 10-year morphological outcomes and identify potential risk factors for exudative AMD in the fellow eyes (FE) in patients with naïve exudative AMD. METHODS: Data from 100 patients were retrospectively reviewed. Baseline macular neovascularization (MNV) type in the exudative AMD eye and presence of drusen, intraretinal hyperreflective foci (iHRF), non-foveal incomplete atrophy (iRORA), central retinal thickness and subfoveal choroidal thickness in the FEs were analyzed as biomarkers for progression in the second eye. RESULTS: 54 patients developed exudative AMD in the FE at the end of the follow-up. Subjects with type 2 and 3 MNV in the exudative AMD eye had a higher risk of exudative AMD in the FE (HR=3.365; p=0.039 and HR=3.801; p=0.037). FEs with drusen (large HR=6.938, p=0.001; cuticular HR=6.937, p<0.0001; subretinal drusenoid deposits HR=13.678, p<0.0001) and iHRF (HR=1.853, p=0.041) were also at higher risk. Seven patients were legally blind by the end of the follow-up. CONCLUSIONS: The rate of exudative AMD in the FE was 54% 10 years after the diagnosis in the exudative eye. The FE of patients with type 2 and 3 MNV was at high risk for early progression. Drusen and iHRF were also significant risk factors for MNV development.

Six-Degree-of-Freedom Freehand 3D Ultrasound: A Low-Cost Computer Vision-Based Approach for Orthopedic Applications.

In orthopedics, X-rays and computed tomography (CT) scans play pivotal roles in diagnosing and treating bone pathologies. Machine bulkiness and the emission of ionizing radiation remain the main problems associated with these techniques. The accessibility and low risks related to ultrasound handling make it a popular 2D imaging method. Indeed, 3D ultrasound assembles 2D slices into a 3D volume. This study aimed to implement a probe-tracking method for 6 DoF 3D ultrasound. The proposed method involves a dodecahedron with ArUco markers attached, enabling computer vision tracking of the ultrasound probe's position and orientation. The algorithm focuses on the data acquisition phase but covers the basic reconstruction required for data generation and analysis. In the best case, the analysis revealed an average error norm of 2.858 mm with a standard deviation norm of 5.534 mm compared to an infrared optical tracking system used as a reference. This study demonstrates the feasibility of performing volumetric imaging without ionizing radiation or bulky systems. This marker-based approach shows promise for enhancing orthopedic imaging, providing a more accessible imaging modality for helping clinicians to diagnose pathologies regarding complex joints, such as the shoulder, replacing standard infrared tracking systems known to suffer from marker occlusion problems.