ObjectiveTo observe the characteristics of the images of optical coherence tomography (OCT) performed on the patients with vitreomacular traction syndrome and its clinical significance.MethodsThe clinical data of 25 patients with vitreomacular traction syndrome diagnosed by OCT, fundus fluorescein angiography, and B-scan ultrasonography and confirmed by surgical treatment were retrospectively analyzed. The features of images of OCT in vitreomacular traction syndrome were observed.ResultsFive types were found in the images of OCT in the patients with vetreomacular traction syndrome. The main characteristic of the images of OCT in the patients with vitreomacular traction was the highly reflective band of the vitreous posterior cortex inservion at fovea. In 25 patients, vitreomacular traction associated with macular edema was found in 10, macular hole in 3, macular epiretinal membrane in 6, retinoschisis in 1, and retinal detachment in 5.ConclusionOCT is a potential powerful toll for detecting and monitoring vitreomacular traction syndrome. (Chin J Ocul Fundus Dis, 2005,21:86-89)
ObjectiveTo evaluate the assistant effect of intraoperative OCT (iOCT) in vitreous retinal surgery for macular disease.MethodsA retrospective case study. A total of 71 patients (71 eyes) with macular disease who underwent vitrectomy in Eye Hospital of Wenzhou Medical University at Hangzhou from June 2015 to September 2016 were collected. There were 24 males (24 eyes) and 47 females (47 eyes), aged from 25 to 78 years, with the mean age of 63.35±10.01 years. Among 71 eyes, there were 26 eyes with idiopathic macular hole, 42 eyes with idiopathic epiretinal membrane, 3 eyes with vitreomacular traction syndrome. The examination of iOCT was performed on the patients during 23G minimally invasive vitreoretinal surgery combined with internal limiting membrane peeling. Use observational method to compare the difference between result of iOCT and observation under the microscope, record the change of treatment strategy.ResultsEight eyes (11.27%) iOCT results were different from the surgeon’s observation, which including 5 eyes (62.50%) with idiopathic macular hole, 2 eyes (25.00%) with idiopathic epiretinal membrane, 1 eye (12.50%) with vitreomacular traction syndrome. The treatment strategy was changed in 8 eyes (11.27%) based on iOCT result, which including 5 eyes (62.50%) with idiopathic macular hole, 2 eyes (25.00%) with idiopathic epiretinal membrane, 1 eye (12.50%) with vitreomacular traction syndrome.ConclusionsiOCT can help the surgeon find some subtle morphological changes which can hardly be seen by eyes. The surgeon can change and optimize the treatment strategy based on the result of iOCT.
The threshold micropulse laser is widely used in clinical practice as a safe, non-invasive laser for avariety of macular diseases. Compared with the conventional laser therapy, the subthreshold micropulse laser is selectively absorbed by the RPE and therefore it does not cause retinal damage. To explore the therapeutic mechanism and the safety, development of threshold micropulse laser in the treatment of various common macular diseases, and further clarify its indications and advantages, which are helpful for its wider clinical application.
The macula is a critical anatomical structure for primates to acquire high-resolution spatial and color vision, with macula lesions posing a significant threat to patients' visual function and quality of life. Non-human primate (NHP) are the only mammals with a macular structure that is closest to that of humans, thus offering substantial value in the study of macular diseases. Currently, various methods, including spontaneous occurrence, gene editing, drug-induced, light-induced, and mechanical injury, can be employed to screen and establish NHP models for investigating conditions such as oculocutaneous albinism, achromatopsia, retinitis pigmentosa, age-related macular degeneration, and certain rare ocular syndromes. When constructing NHP models, due consideration should be given to other animal models to facilitate complementary research across different model systems. Additionally, leveraging the advantages of NHP and establishing genetically controlled NHP strains is a goal to strive for to achieve sustainable utilization of these resources in research.