ABSTRACT
With the high incidence and early onset age of myopia, continuous attention has been paid to the prevention and control of high myopia.Interventions to control the progression of high myopia in children and adolescents at present mainly include low-dose atropine eye drops, orthokeratology, multifocal soft contact lenses and posterior scleral reinforcement.The interventions have also been applied among children with high myopia and have been proved effective in controlling the progression of myopia.Controversies over their clinical usages and safety still exist.There is a contradiction between concentration and safety of low-dose atropine eye drops, namely, higher concentration showing better efficacy is accompanied by the higher risk of adverse reactions.Meanwhile, there exist some children having poor response to atropine treatment.The long-term effect of orthokeratology lens is unclear, and how to choose the power of orthokeratology lens has not come to an agreement.The effect of multifocal soft contact lens on high myopia needs to be further verified by clinical trials with large sample size.Posterior scleral reinforcement is a surgical procedure, having a higher risk of adverse reactions and trauma than other interventions, and there is a lack of high-level evidence-based medical evidence to prove its efficacy.The promotion and application of interventions for high myopia still require the support of high-level medical evidences.From the perspectives of medicine, optics, surgery and other strategies, the recent controversies about the intervention for high myopia in children and adolescents were reviewed in this article.
ABSTRACT
Peripapillary intrachoroidal cavitation (PICC) is a common pathological change observed in high myopia. The exact pathogenesis of PICC is still unclear. Expansion and mechanical stretching of the peripapillary sclera, breakage and defect in the retina near the border of the myopic conus and communication between intrachoroidal cavity and the vitreous space may be important segments during the development of PICC. Color fundus photography shows a localized and well-circumscribed peripapillary lesion with yellow-orange colour, often accompanied by fundus changes, such as myopic conus excavation, optic disc tilting and inferotemporal retinal vein bending at the transition from the PICC to the myopic conus. However, the PICC lesion is not easy to be recognized in the fundus photography. Fluorescein angiography shows early hypofluorescence and later progressively staining in the lesion. Indocyanine green angiography shows hypofluorescence throughout the examination. Optical coherence tomography (OCT) is vital in diagnosing PICC. Hyporeflective cavities inside the choroid, sometimes communicating with the vitreous chamber, can be observed in OCT images. OCT angiography indicates lower vessel density or even absence of choriocapillary network inside or around PICC lesions.
ABSTRACT
Peripapillary intrachoroidal cavitation (PICC) is a common pathological change observed in high myopia. The exact pathogenesis of PICC is still unclear. Expansion and mechanical stretching of the peripapillary sclera, breakage and defect in the retina near the border of the myopic conus and communication between intrachoroidal cavity and the vitreous space may be important segments during the development of PICC. Color fundus photography shows a localized and well-circumscribed peripapillary lesion with yellow-orange colour, often accompanied by fundus changes, such as myopic conus excavation, optic disc tilting and inferotemporal retinal vein bending at the transition from the PICC to the myopic conus. However, the PICC lesion is not easy to be recognized in the fundus photography. Fluorescein angiography shows early hypofluorescence and later progressively staining in the lesion. Indocyanine green angiography shows hypofluorescence throughout the examination. Optical coherence tomography (OCT) is vital in diagnosing PICC. Hyporeflective cavities inside the choroid, sometimes communicating with the vitreous chamber, can be observed in OCT images. OCT angiography indicates lower vessel density or even absence of choriocapillary network inside or around PICC lesions.
ABSTRACT
Thinning and atrophy of sclerotic tissues play an important role in the development of high myopia. High myopic eyes had the thickest sclera at the posterior pole and the thinnest sclera at the equator. Most clinical studies found that scleral thickness was negatively correlative with the axial length. Patients complicated with posterior staphyloma had even thinner sclera, and its height was negatively related with the scleral thickness. At present, the main measurement methods for scleral thickness of high myopic eyes include histological measurement, enhanced depth imaging optical coherence tomography (OCT), and swept-source OCT. Following the development of OCT technique, it gradually becomes feasible to carry out studies on sclera thickness in mildly and moderately myopic populations, which is helpful to illuminate the mechanism of action of sclera on the onset and progression of high myopia.