IEEE J Biomed Health Inform. 2020 Dec;24(12):3362-3373. doi: 10.1109/JBHI.2020.2984483. Epub 2020 Dec 4.
In-vivo assessment of small vessels can promote accurate diagnosis and monitoring of diseases related to vasculopathy, such as hypertension and diabetes. The eye provides a unique, open, and accessible window for directly imaging small vessels in the retina with non-invasive techniques, such as fundoscopy. In this context, accurate registration of retinal images is of paramount importance in the comparison of vessel measurements from original and follow-up examinations, which is required for monitoring the disease and its treatment. At the same time, retinal registration exhibits a range of challenges due to the curved shape of the retina and the modification of imaged tissue across examinations. Thereby, the objective is to improve the state-of-the-art in the accuracy of retinal image registration.
In this work, a registration framework that simultaneously estimates eye pose and shape is proposed. Corresponding points in the retinal images are utilized to solve the registration as a 3D pose estimation.
The proposed framework is evaluated quantitatively and shown to outperform state-of-the-art methods in retinal image registration for fundoscopy images.
Retinal image registration methods based on eye modelling allow to perform more accurate registration than conventional methods.
This is the first method to perform retinal image registration combined with eye modelling. The method improves the state-of-the-art in accuracy of retinal registration for fundoscopy images, quantitatively evaluated in benchmark datasets annotated with ground truth. The implementation of registration method has been made publicly available.
活体评估小血管有助于准确诊断和监测与血管病变相关的疾病,如高血压和糖尿病。眼睛为使用非侵入性技术(如眼底镜)直接对视网膜中的小血管进行成像提供了一个独特、开放和易于接近的窗口。在这种情况下,准确注册视网膜图像对于比较原始和随访检查中的血管测量值至关重要,这是监测疾病及其治疗的必要条件。同时,由于视网膜的弯曲形状和成像组织在检查过程中的变化,视网膜注册存在一系列挑战。因此,目标是提高视网膜图像注册的准确性。
在这项工作中,提出了一种同时估计眼睛姿势和形状的注册框架。利用视网膜图像中的对应点来解决注册问题,将其作为 3D 姿势估计。
所提出的框架在眼底镜图像的视网膜图像注册中进行了定量评估,结果表明其性能优于最先进的方法。
基于眼睛建模的视网膜图像注册方法可以比传统方法进行更精确的注册。
这是第一个结合眼睛建模进行视网膜图像注册的方法。该方法在基准数据集上进行了定量评估,这些数据集使用真实标注注释了眼底图像,提高了眼底图像的视网膜注册的准确性。该注册方法的实现已公开发布。
