In recent years, more and more new diagnostic and examining techniques are popularized, which improves the level of ocular fundus disease diagnosis and treatment. Because of the uneven distribution of diagnostic and therapeutic instruments resources, low level of application techniques, and different professional level of the doctors, the improvement and development of the application of the equipments and level of the diagnosis and treatment were inhibited. Appropriate understanding and applying basic diagnostic techniques of ocular fundus disease and comprehensive promoting the professionalsprime; levels are an urgent problem needs to be solved.
Optical coherence tomography angiography (OCTA) is a new and noninvasive imaging technique that generates real-time blood flow pattern on chorioretinal vasculature. In order to apply this novel technology in the practice to diagnose and treat ocular fundus diseases, we need to further strengthen the quality of OCTA image acquisition and reporting specifications. We need to understand its technical principle, and multiple factors affecting the OCTA image acquisition and interpretation. Furthermore, In the process of image acquisition, as well as analysis and interpretation, we need to pay attention to the stratification, interpretation of blood flow signals and identification of artifacts of OCTA images.
Adaptive optics (AO) is a technique to improve the performance of optical systems by reducing the influence of optical aberrations. Combined with scanning laser ophthalmoscope (AOSLO), the aberration of human refractive system can be corrected. Thus, the resolution and quality of imaging can be greatly improved to the cellular level in vivo retina (such as photoreceptor, nerve fibers, vascular parietal cell), therefore the earlier changes of the diseases can be detected. At the same time, microstructure changes of retinal can also be observed during the follow-up of the disease. Due to inherent technical defects of AOSLO, its wide application in clinical practice is limited. With the continuous progress of AO technology and the further improvement of related software functions, the function of the system will become more stronger and will play a more and more important role in scientific research and clinic.
Nanophthalmos is a congenital disorder, which is characterized by small eye without any ocular or systemic malformation. It has autosomal-dominant and recessive forms of inheritance. It manifests as reduced total axial length, high hyperopia and thickened sclera. Nanophthalmos is relatively rare, but at high risk of secondary angle-closure glaucoma, uveal effusion syndrome. It can be spontaneous remission or recurrent, and responses poorly to medication. The effect of systemic glucocorticoid treatment is not ideal. The surgery challenges with very high rate of intra- and post-operative complications such as hemorrhage, choroidal and retinal detachment, malignum glaucoma and uveal effusion, so that the prognosis is poor. It is of great instructive significance to further understand the clinical features, complications and treatment progress and to avoid the missed diagnosis and misdiagnosisi of its complications, and thus choose the right management.
Takayasu arteritis (TA) is a rare, chronic non-specific vasculitis that can lead to ocular hypoperfusion. As a result, ocular ischemic syndrome (OIS), which prominently manifests as Takayasu retinopathy, may develop subsequently. Ocular manifestations mainly consist of progressive painless vision loss and amaurosis fugax in TA patients complicated with OIS. However, due to the lack of specific clinical characteristics, it is of great significance to improve the timely diagnosis aided by multimodal imaging, especially fundus fluorescein angiography. Early diagnosis of OIS is essential for reversal of ocular ischemia and better prognosis of TA patients. Management of OIS patients associated with Takayasu arteritis requires a combination of systemic and ophthalmic treatment. Therefore, the optimal individualized regiment should be determined by disease activity and progression, which are addressed by multi-disciplinary team assessment. Ophthalmologists should further understand the clinical features and the importance of regular ophthalmologic examinations during the disease course, thus to improve the overall survival and visual outcomes.