Posterior staphyloma (PS), a hallmark lesion of pathological myopia (PM), is defined as a local swelling of the posterior pole of the eyebulb. PS is closely associated with macular hole, retinoschisis, retinal detachment, chorioretinal degeneration and atrophy. At present, the pathogenesis of PS is not completely concluded, and there are no effective methods of prevention and treatment. The understanding of the epidemiology and risks, diagnose and detection methods, classification and grading, pathogenesis and intervention measures of PS can provide clues to the etiology study.
The lamina cribrosa (LC) is a complicated collagenous meshwork of trabeculae and laminar pores contain capillaries, nerves and neurogliocytes, which provides structural and nutrient support to the retinal ganglion cell axons as they exit the eye. The intraocular pressure causes direct damage or deformation and remodeling of LC, leads to axoplaxmic transport and blood supply disturbance. The preponderance of evidence suggests that LC is the principal site of glaucomatous damage. The development of optic coherence tomography (OCT) technology has improved the imaging quality of deep structures of the optic nerve head and makes it possible to detect LC. The quantitative research indexes of LC structure include LC depth, laminar curvature, laminar thickness, prelaminar tissue, laminar pore, laminar defect and hemodynamics. To improve the understanding of LC structure, explore the characteristics of LC and understand the biomechanical and hemodynamic pathogenesis of glaucoma, which would be contribute to the application of big data research in the diagnosis and treatment of glaucoma.