High myopia has become a global public health issue, posing a significant threat to visual health. There are still some problems in the process of diagnosis and treatment, including the definition of high myopia and pathological myopia, opportunities and challenges of artificial intelligence in the diagnosis and treatment system, domestic and international collaboration in the field of high myopia, the application of genetic screening in children with myopia and high myopia patients, and the exploration of new treatment methods for high myopia. Nowadays, myopia and high myopia show the characteristics of early onset age and sharp rise in prevalence, and gradually become the main cause of low vision and irreversible blindness in young and middle-aged people. Therefore, it is of great significance to accurately define high myopia and pathological myopia, combine artificial intelligence and other methods for screening and prevention, promote cooperation in different fields, strengthen gene screening for early-onset myopia and adopt new and effective ways to treat it.
【摘要】 目的 研究高度近视患者白内障术后后发性白内障接受后囊切开手术的治疗效果,探讨高度近视患者后发性白内障的安全手术方法。 方法 2009年10月-2010年5月对高度近视白内障术后后发性白内障患者29例42眼行手术后囊切开,平均眼轴长度27.43 mm,术中记录手术情况,术后检查测量患者视力及眼部情况。 结果 3个月内所有患者术后裸眼及矫正视力提高,视力提高2行者90.48%,其中矫正视力gt;0.5者为80.95%,术中及术后未发生手术相关并发症。 结论 手术后囊切开对于高度近视白内障术后后发性白内障患者安全有效。【Abstract】 Objective To investigate the therapeutic effect of posterior capsulotomy in order to evaluate the effective and safe therapeutic method for myopia after cataract patients with high myopia. Methods Between October 2009 and May 2010, 29 cases (42 eyes) of after cataract with high myopia were chosen and undergone posterior capsulotomy.Data of operation details, vision acuity (VA) and eye examination were analyzed. Results The post-operative naked vision and best-corrected visual acuity (BCVA) were improved in all patients.No surgery-related complication was found. Conclusion Posterior capsulotomy in treating posterior capsular opacification (PCO) of after cataract with high myopia is a safe and effective method.
Objective To observe the clinical effects of pars plana vitrectomy (PPV) combined with internal limiting membrane (ILM) peeling and C3F8 tamponade for patients with highly myopic macular hole (HM-MH) with and without foveoschisis. MethodsA retrospective case controlled study. From January 2017 to February 2022, 23 eyes of 23 patients with highly myopic macular hole with and without foveoschisis diagnosed in the Shandong Eye Hospital were included in the study. Among them, 5 males had 5 eyes, and 18 females had 18 eyes, the age was (54.43±12.96) years old. The patients with or without foveoschisis were 12 eyes in 12 cases and 11 eyes in 11 cases. Studies were divided into two groups, depending on the presence of a concomitant myopic foveoschisis or not. The groups are high myopia macular hole with foveoschisis (group A) and high myopia macular hole without foveoschisis (group B). Best-corrected visual acuity (BCVA), B-scan ultrasonography, optical coherence tomography and axial length (AL) measurement were performed in all eyes. Snellen chart was used for BCVA examination, and the visual acuity was converted into logarithm of minimum angle of resolution (logMAR) during statistics. The age of the two groups, sex, macular hole (MH) diameter, logMAR BCVA, AL, posterior scleral staphyloma, there was no significant difference (P>0.05). PPV combined with ILM peeling and C3F8 filling were performed in all eyes. Follow-up was at least 3 months after the last operation. BCVA changes and MH closure were compared between the two groups after surgery. Wilcoxon test was used to compare BCVA before and after operation. Mann-whiteny U test was used to compare preoperative and postoperative BCVA between groups. ResultsAfter initial surgery, MH was closed in 17 of 23 eyes (74%, 17/23). MH was closed in 8 eyes in group A (66.7%, 8/12). Four eyes were not closed (33.3%, 4/12); MH closed in 9 eyes in group B (81.8%, 9/11). There was no significant difference between the two groups after initial operation (P>0.05). At 1 and 3 months after surgery, the logMAR BCVA of patients in group A and group B were 1.00±0.46, 1.03±0.83 and 0.53±0.63, 0.55±0.41, respectively. Compared with before operation, there was no significant difference at 1 month (P=0.783, 0.358), but the difference was statistically significant at 3 months (P=0.012, 0.007). There was no significant difference in logMAR BCVA between group A and group B at 1 and 3 months after operation (P=0.687, 0.950). ConclusionPPV combined with ILM peeling and C3F8 tamponade can promote MH closure and improve visual acuity in most affected eyes with HM-MH with and without foveoschisis.
ObjectiveTo investigate the relationship between single nucleotide polymorphisms (SNP) in the CHRM1 gene and genetic susceptibility to high myopia (HM) in the Han population of Henan Province. MethodsA retrospective case-control study. From January 2021 to April 2023, 576 HM patients (HM group) and 768 healthy volunteers (control group) were recruited from the Department of Ophthalmology, the First Affiliated Hospital of Zhengzhou University. All participants were of Han ethnicity from Henan Province. SNP data for the CHRM1 gene in the Northern Han Chinese population were downloaded from the 1000 Genomes Project Online Website, with screening criteria of Hardy-Weinberg equilibrium P>0.05 and minor allele frequency>0.05. Haploview software was used to analyze HapMap genotypes, identifying 5 tagSNP: rs55885673, rs544978, rs56995061, rs1942499, and rs2075748. MassARRAY system was employed for genotyping the 5 tagSNP loci. The SHEsis online software was employed to analyze the distribution differences of genotypes and allele frequencies between the two groups. Linkage disequilibrium coefficient D' was used to evaluate the recombination events between SNP loci, and haplotypes with frequencies exceeding 3% were constructed for statistical analysis. Results The age of the HM group was significantly lower than that of the control group (t=18.515, P<0.05), while no significant difference was observed in gender distribution (χ2=2.869, P=0.087). Compared with the control group, the HM group showed significantly higher frequencies of the C allele [odds ratio (OR)=1.44, 95% confidence interval (CI): 1.09-1.91, Pc=0.045)] and CC genotype (OR=1.50, 95%CI: 1.11-2.02, Pc=0.038) at the rs56995061 locus, and significantly lower frequencies of the T allele (OR=0.69, 95%CI: 0.52-0.91, Pc=0.045) and CT genotype (OR=0.67, 95%CI: 0.49-0.91, Pc=0.045). Additionally, the CT genotype frequency at the rs2075748 locus was significantly lower in the HM group (OR=0.66, 95%CI: 0.53-0.84, Pc=0.002). The haplotype G-T-A-A formed by rs55885673-rs56995061-rs1942499-rs544978 was significantly less frequent in the HM group (OR=0.71, 95%CI: 0.54-0.94, P=0.170).ConclusionsThe polymorphisms at the SNP loci rs56995061 and rs2075748 in the CHRM1 gene are associated with the genetic susceptibility to high myopia in the Chinese Han population. The G-T-A-A haplotype composed of rs55885673-rs56995061-rs1942499-rs544978 reduces the susceptibility to high myopia.
High myopia has a high genetic tendency, it not only shows in the excessive elongation of the axial length, but also lends to the formation and progression of various eye lesions, such as peripheral retinopathy, optic disc changes, posterior staphyloma, and myopic maculopathy, due to the mechanical stretching of the axial length to the ocular structure. In addition, high myopia increases the risk of several complications, such as glaucoma, cataract, and corneal disease. All these pathological changes will affect visual function and lead to irreversible vision impairment and blindness in the future. Therefore, it is important to pay attention to screening for optic disc abnormalities and posterior staphyloma, and regular monitor the changes of fundus, intraocular pressure, and lens. At the same time, high myopia has an impact on personal life such as study, psychology, sport, and work, and can reduce the quality of life as well as increase the cost of health care. The clinic should pay more attention to high myopia, prevent and control the development of high myopia from an early stage, in order to minimize its impact on ocular structure and visual function as well as its hazard to personal life and society.
ObjectiveTo observe the imaging features of extramacular retinoschisis (EMRS) and paravascular abnormalities (PVA) in myopic patients, and preliminary analyze the differences in age, best corrected visual acuity (BCVA), spherical equivalent (SE), axial length (AL), and subfoveal choroidal thickness (SFCT). MethodsA cross-sectional clinical study. A total of 60 myopia patients with EMRS who were admitted to Department of Ophthalmology of The First Affiliated Hospital of Zhengzhou University from January 2023 to June 2024 were included in the study. There were 18 male cases with 18 eyes and 42 female cases with 42 eyes. Age was (37.57±17.14) years; SE was (−10.76±4.66) D; AL was (28.36±1.87) mm. According to the characteristics of ultra-wide-angle optical coherence tomography images, PVA was divided into perivascular cysts (PC), perivascular microfolds (PM) and perivascular lamellar holes (PLH). According to the splitting level, EMRS can be divided into inner layer, middle layer and outer layer. According to SE, the affected eyes were divided into low myopia group, moderate myopia group and high myopia group. The occurrence of EMRS near optic disc, supratemporal, suprasal and subnasal, as well as the clinical characteristics of patients with EMRS at different locations, levels and forms of PVA were observed. Age, BCVA, SE, AL and SFCT of EMRS patients at different locations and levels were compared by independent sample t test. χ2 test or Fisher exact probability test were used to compare the categorical variables between groups. ResultsIn 60 eyes, EMRS were located in supratemporal, infratemporal, supranasal, subnasal, and paratopic discs in 36, 43, 15, 13, and 14 eyes, respectively. The EMRS in the inner and outer layers were 59 (98.3%, 59/60) and 35 (58.3%, 35/60) eyes, respectively. PVA was present in 47 eyes (78.3%, 47/60). Among them, PC, PM and PLH were 45, 39 and 18 eyes, respectively. The age of those with paratopic splitting was older than those without paratopic splitting (t=2.720). Those with temporal splitting had worse BCVA and longer AL than those without splitting (t=2.139, 2.119). Those with subnasal splitting had worse BCVA, higher myopia, longer AL and thinner SFCT than those without splitting. The differences were statistically significant (t=2.926, −2.640, 2.635, −3.938; P<0.05). Compared with other types of EMRS, patients with inner EMRS had younger age (t=−2.383), better BCVA (t=−4.825), shorter AL (t=−4.767), lower myopia (t=4.791), and thicker SFCT (t=4.791); patients with full-layer EMRS were older (t=2.419), worse BCVA (t=3.656), longer AL (t=2.677), higher degree of myopia (t=−2.755), and thinner SFCT (t=−3.283), with statistical significance (P<0.05). There was significant difference in SFCT among patients with or without PC (t=−2.396, P<0.05). Compared with eyes without PM and PLH, eyes with PM had worse BCVA, longer AL, higher myopia, and thinner SFCT, and the differences were statistically significant (PM: t=2.514, 3.078, −2.811, −4.205; P<0.05; PLH: t=2.514, 2.992, −2.949, −1.773; P<0.05). ConclusionsEMRS primarily occurs in the temporal side, with the highest frequency in the inner layer. Patients with inner-layer EMRS are younger, have better BCVA, shorter AL, lower myopia, and thicker SFCT, whereas patients with full-layer EMRS exhibit the opposite characteristics.
ObjectiveTo use ultrasound biomicroscope (UBM) to observe the zonules in patients before cataract surgery and study the relation between the length of zonules and axial length (AL), so as to understand the underlying anatomical and pathological basis of factors influencing the stability of lens capsule in high axial myopic patients and provide objective theoretical references for surgical risk reduction and postoperative follow-up guidance. MethodsFifty-five patients (55 eyes) proposed to receive phacoemulsification between October 2014 and October 2015 were divided into group A (AL < 26 mm, n=21), group B (26 mm≤AL < 29 mm, n=14), and group C (AL≥29 mm, n=20) according to their AL.UBM examination was conducted preoperatively.Through measuring the length of zonules in supine position at 12, 3, 6, and 9 o'clock respectively, we compared the difference of the length of zonules among those three groups, and explored the correlation between the length of zonules and axial length. ResultsThe average length of zonules in group A was (0.67±0.13) mm, while that in group B and group C was (0.93±0.29) and (0.98±0.19) mm, respectively.The length of zonules in group A was shorter than that in group B and Group C, and the differences were statistically significant (P < 0.001);and that in group B was shorter than that in group C, but the difference was of no statistical significance (P=0.331).In the correlation analysis between axial length and the average length of zonules, the length of zonules was positively correlated with the axial length (r=0.502). ConclusionsUBM provides a quantitative method for observing zonules.In the assessment before cataract surgery, it is a more accurate method for evaluation of zonules, and probably has a certain value in pre-assessment of intra ocular lens dislocation after cataract surgery.
Objective To explore the influencing factors of intraocular lens (IOL) position after cataract surgery and analyze the effect of ocular biological parameters on IOL centering under different axial length (AL). Methods Patients who underwent cataract phacoemulsification and IOL implantation at West China Hospital of Sichuan University between February and July 2024 were prospectively selected. According to the different AL values, the patients were divided into non-high myopia group (22.0 mm≤AL<26.0 mm) and high myopia group (AL≥26.0 mm) to explore the influencing factors of IOL position after cataract surgery. Results This study included a total of 240 patients (240 eyes), with 120 cases (120 eyes) in both the non-high myopia group and the high myopia group. The preoperative lens tilt and decentration of the non-high myopia group and high myopia group were (4.41±1.07)°, (0.13±0.09) mm and (3.57±1.81)°, (0.20±0.10) mm, respectively. The results of multiple linear regression analysis showed that in the non-high myopia group, preoperative lens tilt (P<0.001) was the influencing factor of postoperative IOL tilt, while lens thickness (P=0.027) and preoperative lens decentration (P<0.001) were the influencing factors of postoperative IOL decentration. In the high myopia group, lens thickness (P=0.023) and preoperative lens tilt (P<0.001) were the influencing factors of postoperative IOL tilt, while anterior chamber depth (P=0.030), lens thickness (P=0.013), and preoperative lens decentration (P<0.001) were the influencing factors of postoperative IOL decentration. Conclusion Ophthalmologists can accurately predict the postoperative IOL position based on the patient’s degree of myopia (with a focus on identifying high myopia) and specific ocular biological parameters before surgery, thereby optimizing surgical plans and improving postoperative outcomes.