ObjectiveTo observe the effects of penetrance, different time of onset and mutation sites on retinal nerve fiber layer (RNFL) and macular thickness in patients with Leber's hereditary optic neuropathy (LHON).MethodsThis was a cross-sectional observational study. A total of 88 patients with LHON and 1492 relatives of the maternal relatives (gene carriers) who received treatment in People’s Liberation Army General Hospital from 2015 to 2017 were included in the study. Among the 1492 family members, there were 694 males and 798 females. Peripheral venous blood was extracted from all subjects for mitochondrial DNA testing, and penetrance was calculated. A total of 117 patients underwent BCVA and SD-OCT examinations, including 82 patients and 35 gene carriers. The BCVA examination was performed using the Snellen visual acuity chart, which was converted into logMAR visual acuity. The thickness of RNFL, ganglion cell complex (GCC) and inner limiting membrane (ILM)-RPE were measured with OCT instrument. The mean follow-up was 50.02±86.27 months. The disease course was divided into 6 stages including ≤3 months, 4-6 months, 7-12 months and >12 months. The thickness of RNFL, GCC and ILM-RPE in patients with different time of onset and mutation sites were comparatively analyzed by covariance analysis. Categorical variables were expressed as a percentage, and the χ2 test was used for comparison among multiple groups.ResultsAmong the 1492 family members, 285 were diagnosed with LHON and highly suspected clinical manifestations (19.10%), including 190 males (21.98%) and 95 females (11.90%). The total penetrance rates of 11778, 14484 and rare mutation sites were 19.84% (228/1149), 20.50% (33/161), and 13.19% (24/182) respectively; male penetrance rates were 28.87% (153/530), 27.28% (20/72), and 18.48% (17/92) and female penetrance rates were 12.12% (75/619),14.61% (13/89) and 7.78% (7/90). There was no significant difference in total (χ2=4.732), male (χ2=4.263) and female (χ2=4.263) penetrance between different mutation sites (P=0.094, 0.110, 0.349). Compared with non-pathogenic carriers, the thickness of the RNFL, GCC and ILM-RPE were all different in the four stages ( ≤3months, 4-6 months, 7-12 months and >12 months). The thickness of RNFL, GCC and ILM-RPE decreased with the time of onset (P=0.000). There were significant differences in the thickness of each of the GCC and ILM-RPE layers in the macular area of LHON patients with different mutation sites (P<0.05). Among them, the site 11778 and 3460 had the most severe damage in all quadrants of macular GCC and ILM-RPE layer, followed by 14484 site, and the rare site had the least damage in all quadrants.ConclusionsThe penetrance of LHON patients is 19.10%. With the extension of the onset time (within 1 year), the RNFL layer of the optic disc and all quadrants of the macular GCC and ILM-RPE layer gradually thinned. Compared with 11778 and rare site, 14484 site, and the rare site had the lighter damage on the thickness of RNFL, GCC and ILM-RPE.
Ras homolog family (Rho)/ Rho-associated coiled-coil kinase (ROCK) signaling pathway widely exists in human and mammal cells, which is closely related to inhibition of repair after optic nerve damage. The expression level of Rho/ROCK signaling pathway-related proteins is up-regulated in glaucoma, and related with the death of retinal ganglionic cell (RGC) and the axon activity. ROCK inhibitors can protect the surviving RGC and promote axon extension with a dose-dependent manner. ROCK inhibitors also can inhibit glial scar formation, lower intraocular pressure and inhibit inflammatory response to some degrees. Rho/ROCK signaling pathway correlates with the optic nerve disease progression, and ROCK inhibitors hope to become a new therapeutic drug.
ObjectiveTo analyze retrospectively the risk factors of nonarteritic anterior ischemic optic neuropathy (NAION). MethodsThe complete clinical data of 116 patients (134 eyes) were collected. All patients were asked in detail about the disease history and symptoms and were examined for the visual acuity, intraocular pressure, fundus, visual field and fundus fluorescein angiography (FFA), blood pressure, blood glucose, blood fat and head MRI or CT. Suspicious cases and patients with incomplete clinical data were excluded. The relationship between NAION and age, visual field, FFA, systemic and ocular factors, onset seasons were retrospectively analyzed. Results80 patients (68.97%) were 55 to 70 years old. 97 patients (83.7%) had systemic diseases, including 38 patients (39.2) with diabetes mellitus, 32 patients (32.9%) with hypertension (8 patients had low blood pressure at night), 28 patients (28.9%) with hyperlipidemia, 16 patients (16.5%) with cerebrovascular diseases (mainly lacunar cerebral infarction), 6 patients (6.2%) with coronary heart disease. There were 8 patients with ocular factors, including 3 patients (2.6%) with cataract surgery history, 5 patients (4.2%) with small optic discs. The difference of percentage of with or without diabetes mellitus and hypertension was significant (χ2=362, 259; P < 0.05). There were 27.6% patients with disease onset at March to April, 24.1% patients with disease onset at September to October, much higher than other months (χ2=580, P < 0.05). Visual field test results showed that 49 eyes (36.5%) had inferior visual field defect, 12 eyes (9.0%) had superior visual field defect. FFA showed that in the early stage 103 eyes (76.9%) had optic weak fluorescence, 13 eyes (9.7%) had strong fluorescence; in the late stage, 110 eyes (82.1%) had strong fluorescence, 8 eyes (6.0%) had weak fluorescence. ConclusionsDiabetes mellitus, hypertension may be the system risk factors of NAION. The seasonal variation from spring to summer and from autumn to winter may also be another risk factor for the onset of NAION.
Optic neuritis (ON) is one of the symptom of a central nervous system demyelinating, systemic or infectious disease. The pathogenetic mechanism of ON is still not completely clear, and its core is inflammation and immune that occurred in the optic nerve axons, and apoptosis of RGC was induced. Few patients experience recurrent episodes after treatment, presenting a remission - recurrence course of polyphasic disease, named recurrent ON (RON). Two forms of RON have been assigned: recurrent isolated optic neuritis, which is a chronic corticosteroid-dependent optic neuropathy with intermittent acute relapses, and recurrent isolated optic neuritis, which is a non-progressive relapsing ON without steroid dependence. Recurrence of ON causes cumulative damage to the optic nerve lesions and impaired visual signal transmission, thus causing irreversible damage to vision. Therefore, it is very important to have a deep understanding of the pathogenesis of ON and the clinical characteristics of RON, so as to better conduct clinical treatment.
Infectious and infection-related optic neuritis is an important type of optic neuritis. Infectious optic neuritis is caused by direct spread of pathogenic organism to optic nerve from local infection or blood transmission. Infection-related optic neuritis is caused by pathogens-induced immune allergic reaction. They present with atypical clinical features of optic neuritis, including progressive vision loss, persistent eye pain or headache, ineffectiveness or even worse of glucocorticoid therapy. Fundus manifestations include optic disc swelling with peripapillary hemorrhage or neuro-retinitis, and the feature of concurrent uveitis. When these patients first visit ophthalmic clinics, they often lack signs of systemic infection, thus it is easy to misdiagnose them as other types of optic neuropathy and mistakenly treat them. In particular, high-dose glucocorticoid therapy can lead to very serious consequences. Therefore, how to correctly diagnose infectious and infection-related optic neuritis in the early stages are very important for ophthalmologists and need to be seriously kept in our mind.