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AIM:To explore the effect of high aspherical lenticule on controlling low myopia.METHODS: Prospective study. A total of 100 patients aged 7 to 12 years old with low myopia who visited our hospital from May 1 to 31, 2022 were collected. They were divided into two groups with 50 cases in each group according to the wishes of patients. The control group was given single vision glasses after optometry, while the study group was given high aspherical lenticule. The myopia progression(absolute value), axial length(AL)growth, transition rate to moderate myopia, and AL negative growth rate over 6 mo and 1 a were compared between the two groups.RESULTS: The myopia progression and the AL growth of study group was lower than that of the control group after 6 mo and 1 a(all P<0.001).The negative growth rate of AL after 6 mo of treatment was significantly higher than that of the control group(P<0.001). The transition rate to moderate myopia between the two groups was not statistically significant(P=0.62); while the transition rate to moderate myopia in the study group was significantly lower than that in the control group after wearing lens for 1 a(P<0.001), and there was no statistically significant difference in AL negative growth rate between the two groups(P=0.12). Compare with single vision glasses, high aspherical lenticule achieved an 88.2% control rate for low myopia progression over 6mo and a 90.0% control rate of AL growth. The control rate for low myopia to moderate myopia was 66.7%; while the control rate of myopia progression growth was 75.6% after wearing lens for 1a, the control rate of AL growth was 69.2%, and the control rate of the transition rate to moderate myopia was 88.9%.CONCLUSION: For children and adolescents aged 7 to 12 with low myopia, high aspherical lenticule was more effective than single vision glasses in controlling myopia, making it one of the optimal choices for myopia control.
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Purpose: To find the association between reduced best?corrected visual acuity and non?pathologic components after optical correction in individuals with low to high myopia. Methods: Myopic children under 16 years of age were reviewed using electronic medical records and the following data were extracted and recorded: participant’s age, gender, uncorrected visual acuity (UCVA), manifest refraction, and best corrected visual acuity (BCVA). Spherical equivalent and cylinder were classified into low, moderate, and high categories based on the magnitude range. Similarly, astigmatism was defined into with?the?rule, against?the?rule, and oblique based on the location of the steepest meridian. Reduced BCVA was defined when the decimal visual acuity was less than 0.66 (equivalent to Snellen’s acuity of 6/9 or 20/30). Logistic regression was performed to test the factors associated with reduced visual acuity after optical correction in the absence of myopic pathologic changes. Statistical significance was considered if P < 0.05. Results: Overall 44.9% (N = 242/538) of myopes had reduced best?corrected visual acuity (BCVA) and none of the patients had pathologic myopic lesions. Using logistic regression, we found that high spherical refraction (OR 27.98, 95% CI 14.43–54.25, P < 0.001) and moderate spherical refraction (OR 5.52, 95% CI 2.56–11.91, P < 0.001) were significantly associated with reduced best corrected visual acuity despite any pathological lesions. Additionally, oblique and ATR astigmatism were associated with reduced visual acuity in myopic children with (OR 2.05, 95% CI 0.77–5.42) and (OR 1.59, 95% CI 0.82–3.08). Conclusion: Higher magnitude of refractive error components causes reduced visual acuity in the absence of pathologic changes.
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Purpose: Recently, the proportion of patients with high myopia has shown a continuous growing trend, more toward the younger age groups. This study aimed to predict the changes in spherical equivalent refraction (SER) and axial length (AL) in children using machine learning methods. Methods: This study is a retrospective study. The cooperative ophthalmology hospital of this study collected data on 179 sets of childhood myopia examinations. The data collected included AL and SER from grades 1 to 6. This study used the six machine learning models to predict AL and SER based on the data. Six evaluation indicators were used to evaluate the prediction results of the models. Results: For predicting SER in grade 6, grade 5, grade 4, grade 3, and grade 2, the best results were obtained through the multilayer perceptron (MLP) algorithm, MLP algorithm, orthogonal matching pursuit (OMP) algorithm, OMP algorithm, and OMP algorithm, respectively. The R2 of the five models were 0.8997, 0.7839, 0.7177, 0.5118, and 0.1758, respectively. For predicting AL in grade 6, grade 5, grade 4, grade 3, and grade 2, the best results were obtained through the Extra Tree (ET) algorithm, MLP algorithm, kernel ridge (KR) algorithm, KR algorithm, and MLP algorithm, respectively. The R2 of the five models were 0.7546, 0.5456, 0.8755, 0.9072, and 0.8534, respectively. Conclusion: Therefore, in predicting SER, the OMP model performed better than the other models in most experiments. In predicting AL, the KR and MLP models were better than the other models in most experiments.
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Purpose: To investigate the change in ocular parameters of anisomyopic children treated with 0.01% atropine. Methods: This retrospective study analyzed the data of anisomyopic children who underwent comprehensive examination at a tertiary eye center in India. Anisomyopic subjects (difference of ?1.00 D) of age 6–12 years who were treated with 0.01% atropine or prescribed regular single vision spectacle and had follow?ups of more than 1 year were included. Results: Data from 52 subjects were included. No difference was observed in the mean rate of change of spherical equivalent (SE) of more myopic eyes between 0.01% atropine (?0.56 D; 95% confidence interval [CI]: ?0.82, ?0.30) and single vision lens wearers (?0.59 D; 95% CI: ?0.80, ?0.37; P = 0.88). Similarly, insignificant change in the mean SE of less myopic eyes was noted between the groups (0.01% atropine group, ?0.62 D; 95% CI: ?0.88, ?0.36 vs. single vision spectacle wearer group, ?0.76 D; 95% CI: ?1.00, ?0.52; P = 0.43). None of the ocular biometric parameters showed any difference between the two groups. Though anisomyopic cohort treated with 0.01% atropine revealed a significant correlation between the rate of change of mean SE and axial length in both eyes (more myopic eyes, r = ?0.58; P = 0.001 and less myopic eyes, r = ?0.82; P < 0.001) compared to single vision spectacle wearer group, the change was not significant. Conclusion: Administration of 0.01% atropine had minimal effect on reducing the rate of myopia progression in anisomyopic eyes.
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Introducción: La Organización Mundial de la Salud considera a la miopía un problema de salud mundial debido a su prevalencia creciente. Se espera que afecte al 52 % de la población mundial en 2050. Objetivo: Determinar la progresión de la miopía durante la pandemia de COVID-19 con respecto al período previo al confinamiento. Métodos: Se realizó un estudio descriptivo y ambispectivo de una serie de 12 pacientes atendidos en la Consulta de Oftalmología Pediátrica del Instituto Cubano de Oftalmología "Ramón Pando Ferrer" antes de la pandemia y que acudieron en el período de confinamiento por la COVID-19 para su seguimiento. Las variables evaluadas fueron edad, género, antecedentes patológicos familiares de miopía, horas pantalla, equivalente esférico y biometría. Resultados: El promedio de edad fue de 9,7 años y el 58,3 por ciento correspondió al sexo femenino. El 75 por ciento de los pacientes tenían antecedentes patológicos familiares de miopía y el tiempo estimado frente a pantalla fue de 5,3 ± 0,8 h diarias. La media de la biometría se incrementó en el tiempo de 23 mm en 2019 a 25,5 mm en 2021. La diferencia de la media del equivalente esférico previo a la COVID-19 fue -0,89 y -0,84 para ojo derecho y el ojo izquierdo, respectivamente. En la etapa epidémica se percibió un aumento hasta -1,97 y -1,72. Conclusiones: El incremento del uso de los medios digitales debido al confinamiento ha causado la progresión de la miopía(AU)
Introduction: Myopia is considered a global health problem by the World Health Organization due to its increasing prevalence and is expected to affect 52 percent of the world's population by 2050. Objective: To determine the progression of myopia during the COVID-19 pandemic with respect to the pre-confinement period. Methods: A descriptive and ambispective study of a series of 12 patients treated at the Pediatric Ophthalmology Clinic of the Cuban Institute of Ophthalmology "Ramón Pando Ferrer" before the pandemic and who visited the hospital during the COVID-19 confinement period for follow-up, was carried out. The variables evaluated were age, gender, family history of myopia, screen hours, spherical equivalent and biometry. Results: The average age was 9.7 years and 58.3 percent of the patients were females. Seventy-five percent of the patients had a family history of myopia and the estimated time in front of the screen was 5.3 ± 0.8 h per day. The medium biometry increased over time from 23 mm in 2019 to 25.5 mm in 2021. The difference in medium pre-COVID-19 spherical equivalent was -0.89 and -0.84 for right eye and left eye, respectively. In the epidemic stage, an increase to -1.97 and -1.72 was perceived. Conclusions: Increased use of digital media due to confinement has caused myopia progression(AU)
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Humans , Female , Child , Myopia/epidemiology , Epidemiology, DescriptiveABSTRACT
Objective:To investigate the prevalence and risk factors of tessellation fundus (TF) among Tianjin Medical University students with different refractive statuses.Methods:A cross-sectional study. From September to December 2019, 346 students from Tianjin Medical University were randomly selected and underwent slit-lamp examination, non-cycloplegic auto-refraction, subjective refraction, best-corrected visual acuity, ocular biometric measurement, and non-dilation fundus photography. The differences in the prevalence of TF in basic characteristics and ocular biometric parameters were compared. Based on the equivalent spherical (SE), refractive status was divided into the non-myopia group (SE>-0.50 D) and the myopia group (SE≤-0.50 D). The myopia group was further divided into mild myopia group (-3.00 D<SE≤-0.50 D), moderate myopia group (-6.00 D<SE≤-3.00 D), and high myopia group (SE≤-6.00 D). According to the axis length (AL), the subjects were divided into AL<24 mm group, 24-26 mm group, and >26 mm group. The logistic regression was used to analyze the risk factors affecting TF. Trend tests were performed for each risk factor and TF.Results:Of the 346 subjects, 324 (93.6%, 324/346) were myopia, of whom 73 (21.1%, 73/346), 167 (48.3%, 167/346), and 84 (24.3%, 84/346) were mild myopia, moderate myopia, and high myopia, respectively; 22 (6.4%, 22/346) were non-myopia. There were 294 (85.0%, 294/346) students with TF in the macula, including 9 (40.91%, 9/22), 58 (79.45%, 58/73), 145 (86.83%, 145/167), and 82 (97.62%, 82/84) in non-myopia, low myopia, moderate myopia, and high myopia group, respectively; 52 (15.0%, 52/346) students were without TF in the macula. There were statistically significant gender differences ( χ2=4.47), SE ( t=6.29), AL ( t=-8.29), anterior chamber depth ( Z=-2.62), lens thickness ( Z=-2.23), and average corneal radius ( Z=-3.58) between students with and without TF in the macula ( P<0.05). Spherical equivalent and axial length were independent risk factors for TF and its severity ( P≤0.001). With an increasing degree of myopia, and increasing axial length, the risk of TF increased ( P for trend<0.001). Conclusions:The prevalence of TF is 85.0% among Tianjin Medical University students. TF is detected in the fundus of no myopia, mild myopia, moderate myopia and high myopia. The degree of myopia is higher, the AL is longer, the possibility of TF is higher.
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AIM: To investigate the distribution of refractive parameters and theirs correlation with spherical equivalent(SE)in preschool children aged 3 to 6 years, and evaluate the accuracy of each screening index in diagnosing refractive errors.METHODS: Cross-sectional study. A total of 791 preschool children, ranging from 3 to 6 years old, who consented to undergo mydriatic refraction were selected. Axial length(AL), corneal refractive power(K), and SE were measured after microcoria optometry and mydriatic optometry. Additionally, the corneal radius of curvature(CR)and the axial length/corneal radius of curvature(AL/CR)ratio were calculated.RESULTS: A total of 791 students participated in the study, out of which 400(50.6%)were male and 391(49.4%)were female. The mean values for AL, CR, AL/CR, and SE were 22.62±0.94mm, 7.81±0.29mm, 2.90±0.09, and +1.95±1.31D, respectively. AL, CR, and AL/CR increased with age. AL and CR were significantly higher in males than in females(all P<0.001), while there was no statistically significant difference between AL/CR and SE in males and females(P=0.82, 0.19). The correlation coefficients of SE and AL/CR, AL and CR were -0.86, -0.50 and 0.16, respectively. The results of multiple linear regression analysis indicate that for each unit increase in AL/CR, there was a corresponding shift of 10.91 towards myopia in SE. The sensitivity of AL/CR in screening for myopia was 94.44%, with a specificity of 90.46% and a Youden index of 0.84. For screening myopia under microcoria optometry, the sensitivity was 100%, with a specificity of 66.09% and a Youden index of 0.66. The area under the curve was 0.967 and 0.809 when the ROC curves were plotted using AL/CR and AL as indicators for screening myopia, respectively.CONCLUSION: For large group screening activities where mydriatic optometry is not feasible, AL/CR is better for evaluating refractive status and identifying children with myopia and hyperopia reserve that are lower than normal for their age, compared to AL and microcoria optometry.
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AIM: To systematically evaluate the effects of low-energy red light on choroidal thickness(ChT), spherical equivalent(SE), and axial length(AL)in myopic children.METHODS: A total of 8 databases, including Pubmed, Embase, Cochrane Library, Web of Science, CNKI, WanFang Database, VIP Database and China Biomedical Literature Database, were electronically retrieved to collect the clinical randomized controlled trial(RCT)of low-energy red light in myopia, with red light intervention as an experimental group and glasses as a control group. The retrieval time limit is from the establishment of the database to January 2023. According to the recommendation of the Cochrane Handbook, literature quality and risk of bias were evaluated. Revman5.4 software was used for Meta-analysis.RESULTS: Totally 8 RCT about red-light treatment with myopia were included. The sample size for ChT analysis contained 407 eyes in the red-light group and 425 eyes in the control group; SE analysis included 490 eyes in the red-light group and 518 eyes in the control group; sample size for AL analysis were 518 eyes in the red-light group and 539 eyes in the control group. The differences in ChT, SE and AL between the groups were statistically significant(ChT: WMD=37.81, 95%CI: 21.55~54.07, P<0.001; SE: WMD=0.58, 95%CI: 0.46~0.71, P<0.001; AL: WMD=-0.31, 95%CI: -0.39~-0.24, P<0.001).CONCLUSION: Specific red light can promote the increase of ChT while inhibit SE and AL. However, its long-term efficacy and side effects remain unclear. The above conclusions need to be further clarified by more RCT with large samples.
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Purpose: Myopia is the most common type of refractive error and the leading cause of functional visual loss. Increased risk of myopic maculopathy, retinal detachment, glaucoma and cataract has been seen with a myopia of as low as ?1D. This study was done to determine the effect of atropine 0.01% eye drops on the progression of myopia in children >5 years. Methods: This was a single?blind, prospective, randomized case–control study which included children of 5–15 years with myopia of >2D and were divided into treatment group (group 1) and placebo group (group 2). Children under treatment group were treated with application of 0.01% atropine at night. Children with history of any ocular surgery, chronic ophthalmic illness, squint and amblyopia were excluded from the study. The follow?up for myopia progression was done for two years. Results: This study showed a significant difference in increase of spherical equivalent and axial length among treatment and placebo groups after a duration of two years. Total duration of follow up was twenty?four months. Mean increase in axial length of group 1 and 2 was 0.115 mm and 0.32 mm, respectively. Mean increase in refraction of groups 1 and 2 was ?0.30 D and ?0.88 D, respectively, showing significant change in axial length and refraction (P < 0.0001). Conclusion: This study supports the use of atropine 0.01% eye drops in reducing the progression of myopia.
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Objetivos: describir el comportamiento del defecto miópico hasta el año de vida, en pacientes que desarrollaron retinopatía de la prematuridad, y determinar los principales factores de riesgo del mismo. Método: se realizó un estudio descriptivo, longitudinal, prospectivo en 37 pacientes que, habiendo sido tratados o no por retinopatía de la prematuridad, mantuvieron un seguimiento estable en consulta posterior a la fase aguda de la enfermedad. Fueron evaluadas a los seis y 12 meses de vida teniendo en cuenta las variables edad gestacional al nacer, peso al nacer, tipo de retinopatía de la prematuridad, presencia de miopía. Resultados: la mediana de edad gestacional y peso al nacer fueron 30,2 semanas y 1 287 g. A los seis meses cinco ojos de 27 pacientes (considerando solo los ojos derechos) presentaron miopía, lo cual representa el 18,5 por ciento. A los 12 meses este valor se incrementó a 44,4 por ciento. La edad gestacional y el peso al nacer no mostraron relación con el desarrollo de miopía (p = 0,072 y p = 0,397) a los 12 meses. En pacientes con retinopatía de la prematuridad grave el defecto miópico resultó más frecuente (p = 0,003). Conclusiones: la prematuridad y el peso al nacer no constituyeron variables que influyeran en la aparición de miopía. Por el contrario, la retinopatía de la prematuridad grave sí se asoció con una mayor miopía, sobre todo a los 12 meses(AU)
Objectives: to describe the behavior of the myopic defect up to one year of life, in patients who developed retinopathy of prematurity, and to determine the main risk factors for it. Method: a descriptive, longitudinal, prospective study was carried out in 37 patients who, having been treated for retinopathy of prematurity or not, maintained a stable follow-up in consultation after the acute phase of the disease. They were evaluated at 6 and 12 months of life taking into account the variables gestational age at birth, birth weight, type of retinopathy of prematurity, presence of myopia. Results: Median gestational age and birth weight were 30.2 weeks and 1287g. At 6 months, 5 eyes of 27 patients (considering only the right eyes) presented myopia, which represents 18.5 percent. At 12 months this value increased to 44.4 percent. Gestational age and birth weight were not related to the development of myopia (p = 0.072) and p = 0.397) at 12 months. In patients with severe retinopathy of prematurity, myopic defect was more frequent (p = 0.003). Conclusions: prematurity and birth weight were not variables that influenced the appearance of myopia. On the contrary, severe retinopathy of prematurity was associated with greater myopia, especially at 12 months(AU)
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Humans , Infant , Retinopathy of Prematurity/etiology , Risk Factors , Myopia/diagnosis , Birth Weight , Epidemiology, Descriptive , Prospective Studies , Longitudinal Studies , Gestational AgeABSTRACT
Purpose: To evaluate peripapillary?RNFL thickness in myopia by Cirrus OCT among north Indian population by spherical equivalent (SE), age, gender, and axial length (AL). Methods: This was a cross? sectional study held during 2019–2020. Patients aged 18–60 years underwent ophthalmic examination including retinoscopy, AL, and OCT RNFL thickness. Persons with previous ocular surgery or ocular ailment other than refractive error were excluded. The peripapillary?RNFL thickness was noted and compared by demographic determinants. Results: We examined 300 eyes of 300 persons (mean age: 30.75 ± 8.57 years; 144 males/156 females). Among them, 224 were myopes and 76 were emmetropes (EM). The mean SE was ? 3.3 ± 0.4D (range: ?11.0D to + 0.37D). The mean AL was 24.61 ± 1.92 mm (22.1–29.5). Overall temporal, nasal, superior, inferior, and mean peripapillary?RNFL thickness was 66.31 ± 7.58, 78.57 ± 16.00, 120.63 ± 11.69, 116.60 ± 15.80, and 95.50 ± 10.84 ?m, respectively. Temporal, nasal, superior, inferior, and mean peripapillary?RNFL thickness was 73.97 ± 8.36, 94.84 ± 7.63, 127.96 ± 8.96, 136.89 ± 6.53, and 108.34 ± 6.28 ?m, respectively, in EM eyes as compared to 63.71 ± 6.18, 73.05 ± 14.24, 118.21 ± 11.53, 109.71 ± 11.50, and 91.14 ± 8.31 ?m, respectively, in myopic eyes (P < 0.001). Association of peripapillary?RNFL thickness with myopia and its different grades was P < 0.001. Association of mean peripapillary?RNFL thickness with age was P > 0.005 and gender was P = 0.168. Correlation between SE and RNFL thickness was positive and significant. Correlation between AL and RNFL thickness was negative but statistically significant. Association of AL with SE was P < 0.001. Conclusion: We provide normative peripapillary?RNFL thickness in the north Indian population in order to help in screening for myopia with comorbidity such as glaucoma based on RNFL thickness.
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@#AIM: To observe the epidemiological characteristics of myopia among primary school students in Xindu District of Chengdu before and after COVID-19 home isolation period(from Jan.-May 2020).<p>METHODS:Cross-sectional study. A total of 10 153 primary school students from grade 1-6(age 6-13, three classes per grade)were selected from four primary schools in Xindu District of Chengdu for three consecutive years(2018-2020), by using a random stratified cluster sampling method. All students' visual acuity and spherical equivalent refraction(SE)were measured, a further cycloplegia optometry was conducted for those whose visual acuity was less than 5.0. The SE was recorded and the prevalence of myopia was calculated. Chi-square test was used to compare the difference of prevalence of myopia between different years. One-way Anova was used to compare the difference of SE among different years.<p>RESULTS: There was statistical difference in prevalence of myopia between the three years(2018: 35.98%, 2019: 36.29%, 2020: 42.52%; χ<sup>2</sup>=39.374, <i>P</i><0.001). The prevalence of myopia among 6-9 years old students increased significantly in 2020(<i>P</i><0.01). They were 2.20 times(6 years old), 2.08 times(7 years old), 1.36 times(8 years old)and 1.24 times(9 years old)of the previous year. Students aged 6-9 years showed an obvious myopic shift in SE in 2020(<i>P</i><0.05). The increases were -0.34±0.76D(6 years old), -0.28±0.84D(7 years old), -0.29±1.41D(8 years old)and -0.18±1.35D(9 years old)than the previous year. The prevalence of myopia and SE remained stable among 10-13 years old students in 2018-2020(<i>P</i>>0.05).<p>CONCLUSION: After the COVID-19 home isolation period, there was a significant myopic shift among students aged 6-9 years old. We should pay more attention to the window period for myopia prevention and control of 6-9 years old.
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Objective:To investigate the changes, distribution and influencing factors of ocular dominance after small incision lenticule extraction (SMILE).Methods:A retrospective observational case series study was conducted.One hundred and twelve patients (224 eyes) with an average age of 25.1±5.4 years who underwent SMILE surgery at Tianjin Eye Hospital from November 2017 to February 2018 were enrolled.There were 42 male and 70 female patients.The dominant eye was determined using the hole-in-the-card test before and after the surgery.Subjective and objective refraction and uncorrected visual acuity examination were performed before operation, and 1 day, 1 week, 1 month and 3 months after operation.The subjects were divided into switch group and non-switch group based on whether the dominant eye changed after surgery.Binary logistic regression was used to analyze the main influencing factors of dominant eye switches.This study adhered to the Declaration of Helsinki.The study protocol was approved by the Ethics Committee of Tianjin Eye Hospital (No.201905). Written informed consent was obtained from each patient before any medical examination.Results:There were 18 patients (16.1%) in the switch group including 7 males (38.9%) and 11 females (61.1%), and 94 patients (83.9%) in the non-switch group including 35 males (37.2%) and 59 females (62.8%). No statistically significant difference was found in sex between the two groups ( χ2=0.02, P=0.89). At 1 month and 3 months after the surgery, there was a statistically significant difference in the cylindrical power between the dominant and non-dominant eye ( t=2.31, 1.95; both at P<0.05). Binary logistic regression equation showed that spherical equivalent[odds ratio ( OR)=0.47, 95%confidence interval ( CI): 0.35-0.66]and refractive error difference ( OR=3.04, 95% CI: 2.12-4.36) were significantly related to the eye dominance switches. Conclusions:There were 16.1% of patients having eye dominance switches after SMILE.The dominant eye transfomation is associated with higher spherical equivalent and anisometropia difference before surgery.
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@#AIM: To study the characteristics and related influencing factors of subfoveal choroidal thickness(SFCT)changing with time in children with myopia. <p>METHODS: Totally 60 eyes of 60 children with myopia aged 6-15 years old who were admitted to the Eye Hospital of Nanchang University from July 2018 to September 2018 were included. IOP, axial length, equivalent spherical degree and SFCT were measured at baseline and 6mo of follow-up, respectively. Analyze the changes of the above-mentioned eye parameters and related influencing factors of SFCT. <p>RESULTS: Compared with baseline, follow-up for 6mo, myopic children's SFCT decreased by 8±14μm(<i>P</i><0.001), the axial length increased by 0.15±0.16mm(<i>P</i><0.001), and the equivalent spherical degree increased by -0.34±0.33D(<i>P</i><0.001), and there is a significant correlation between the SFCT change value and the axial length and equivalent spherical power change value(<i>r</i>s=-0.701, 0.633, both <i>P</i><0.001), indicating faster axial growth and myopia increasing is related to more thinning of the membrane thickness. Multiple linear regression analysis shows that SFCT is significantly correlated with axial length(<i>P</i>=0.001).<p>CONCLUSION: The SFCT of myopic children becomes thinner over time, and the axial length is negatively correlated with SFCT, and children with faster axial growing and greater myopia increasing are usually accompanied by more SFCT thinning.
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@#AIM: To study the characteristics and related influencing factors of subfoveal choroidal thickness(SFCT)changing with time in children with myopia. <p>METHODS: Totally 60 eyes of 60 children with myopia aged 6-15 years old who were admitted to the Eye Hospital of Nanchang University from July 2018 to September 2018 were included. IOP, axial length, equivalent spherical degree and SFCT were measured at baseline and 6mo of follow-up, respectively. Analyze the changes of the above-mentioned eye parameters and related influencing factors of SFCT. <p>RESULTS: Compared with baseline, follow-up for 6mo, myopic children's SFCT decreased by 8±14μm(<i>P</i><0.001), the axial length increased by 0.15±0.16mm(<i>P</i><0.001), and the equivalent spherical degree increased by -0.34±0.33D(<i>P</i><0.001), and there is a significant correlation between the SFCT change value and the axial length and equivalent spherical power change value(<i>r</i>s=-0.701, 0.633, both <i>P</i><0.001), indicating faster axial growth and myopia increasing is related to more thinning of the membrane thickness. Multiple linear regression analysis shows that SFCT is significantly correlated with axial length(<i>P</i>=0.001).<p>CONCLUSION: The SFCT of myopic children becomes thinner over time, and the axial length is negatively correlated with SFCT, and children with faster axial growing and greater myopia increasing are usually accompanied by more SFCT thinning.
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@#AIM: To study the characteristics and related influencing factors of subfoveal choroidal thickness(SFCT)changing with time in children with myopia. <p>METHODS: Totally 60 eyes of 60 children with myopia aged 6-15 years old who were admitted to the Eye Hospital of Nanchang University from July 2018 to September 2018 were included. IOP, axial length, equivalent spherical degree and SFCT were measured at baseline and 6mo of follow-up, respectively. Analyze the changes of the above-mentioned eye parameters and related influencing factors of SFCT. <p>RESULTS: Compared with baseline, follow-up for 6mo, myopic children's SFCT decreased by 8±14μm(<i>P</i><0.001), the axial length increased by 0.15±0.16mm(<i>P</i><0.001), and the equivalent spherical degree increased by -0.34±0.33D(<i>P</i><0.001), and there is a significant correlation between the SFCT change value and the axial length and equivalent spherical power change value(<i>r</i>s=-0.701, 0.633, both <i>P</i><0.001), indicating faster axial growth and myopia increasing is related to more thinning of the membrane thickness. Multiple linear regression analysis shows that SFCT is significantly correlated with axial length(<i>P</i>=0.001).<p>CONCLUSION: The SFCT of myopic children becomes thinner over time, and the axial length is negatively correlated with SFCT, and children with faster axial growing and greater myopia increasing are usually accompanied by more SFCT thinning.
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@#AIM: To study the characteristics and related influencing factors of subfoveal choroidal thickness(SFCT)changing with time in children with myopia. <p>METHODS: Totally 60 eyes of 60 children with myopia aged 6-15 years old who were admitted to the Eye Hospital of Nanchang University from July 2018 to September 2018 were included. IOP, axial length, equivalent spherical degree and SFCT were measured at baseline and 6mo of follow-up, respectively. Analyze the changes of the above-mentioned eye parameters and related influencing factors of SFCT. <p>RESULTS: Compared with baseline, follow-up for 6mo, myopic children's SFCT decreased by 8±14μm(<i>P</i><0.001), the axial length increased by 0.15±0.16mm(<i>P</i><0.001), and the equivalent spherical degree increased by -0.34±0.33D(<i>P</i><0.001), and there is a significant correlation between the SFCT change value and the axial length and equivalent spherical power change value(<i>r</i>s=-0.701, 0.633, both <i>P</i><0.001), indicating faster axial growth and myopia increasing is related to more thinning of the membrane thickness. Multiple linear regression analysis shows that SFCT is significantly correlated with axial length(<i>P</i>=0.001).<p>CONCLUSION: The SFCT of myopic children becomes thinner over time, and the axial length is negatively correlated with SFCT, and children with faster axial growing and greater myopia increasing are usually accompanied by more SFCT thinning.
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Background: To study the association of ocular biometric parameters {Spherical equivalent (SE), Axial length (AL), Anterior chamber depth (ACD) and Corneal curvature (CC)} with diabetic retinopathy (DR) in subjects with Type 2 diabetes mellitus (DM).Methods: This prospective observational study was conducted in the Outpatient Department of Ophthalmology of a tertiary care teaching hospital in North India. The study included 100 subjects having various grades of DR as cases and 100 diabetics without DR as controls. The SE was assessed using objective autorefraction, while AL, CC and ACD were measured using the NIDEK AL SCAN. International Clinical Diabetic Retinopathy Disease Severity Scale was used for grading of DR.Results: A total of 181 eyes in the study group and 200 eyes in the control group were analysed. Progressive decrease in the mean AL was observed with the increasing severity of DR (p=0.017). Deeper ACD had a negative correlation with severity of DR (p=0.037). No statistically significant difference was observed for AL and ACD with the incidence of DR (p=0.147 and p=0.091 respectively). Likewise, there was no significant relation of DR with SE or CC.Conclusions: Longer AL and deep ACD were protective against progression to the severe forms of DR. However, there was no correlation of AL and ACD with the incidence of DR. The SE and CC were not found to be significant determinants for either development or severity of DR.
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Objective To investigate the relationship between axial length (AL)elongation and the progression of spherical equivalent refraction (SER) and its influential factors in school-aged children with myopia based on machine learning (ML).Methods A cross-sectional study evaluated 1 011 eyes of school-aged myopic children admitted to the optometry center of Peking University People's Hospital from January 2017 to December 2018,and data from the right eyes were used for analysis.All the collected data were used to train ML algorithms.When building predictive models,the input features included age,gender,central corneal thickness (CCT),mean K readings (K-mean),horizontal visible iris diameter (HIVD),lens power,and axial length (AL),and the output parameter was SER.A five-fold cross validation scheme randomly divided all the data into five groups,of which four were used as training data,and one group was used as validation data.This process was repeated five times so that all the data were validated by this model,which allowed a better prediction of the overall sample.The prediction accuracy of different models was evaluated by the R-value and R2.The best-performing algorithm was applied to investigate the relationship between AL elongation and the progression of SER and its influencing factors.Written informed consent was obtained from each guardian of each patient prior to entering the study cohort.This study followed the Declaration of Helsinki.The study protocol was approved by the Ethics Committee of Peking University People's Hospital (No.2019PHB280-01).Results In the comparison of the R-value and R2 of six ML algorithms based on five-fold cross validation,among all models,the best was the quadratic SVM regression model,with an R-value and R2 of 0.99 and 0.98,respectively.The results of Pearson correlation analysis showed that lens power was negatively correlated with age (r =-0.301,P<0.01).According to the results calculated by the Bennett-Rabbetts formula,the average lens power of the 6-year-old myopic group was higher than that of the 18-year-old myopic group.According to this model,the SER change caused by AL elongation was not a constant value,which was estimated from plano to nearly-3.00 D,depending mainly on the time needed for 1-mm AL elongation.According to the results calculated by this model,the longer it took for the AL to grow by 1 mm,the smaller the corresponding SER change.In myopic children over an age span of one year,for example,from 6-7 years or 12-13 years,1-mm elongation of the AL corresponded to-2.50 D and-2.33 D of SER change,respectively.Over a three years span,for example,from 6-9 years,a 1-mm elongation of the AL corresponded to-1.77 D of SER change.Conclusions For myopic children,the longer the age span required for 1-mm elongation of the AL,the smaller the SER change.An ML algorithm can provide clinical practitioners with a relatively precise estimation for the relationship between AL elongation and myopia progression.
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Objective@#To investigate the relationship between axial length (AL)elongation and the progression of spherical equivalent refraction (SER) and its influential factors in school-aged children with myopia based on machine learning (ML).@*Methods@#A cross-sectional study evaluated 1 011 eyes of school-aged myopic children admitted to the optometry center of Peking University People's Hospital from January 2017 to December 2018, and data from the right eyes were used for analysis.All the collected data were used to train ML algorithms.When building predictive models, the input features included age, gender, central corneal thickness (CCT), mean K readings (K-mean), horizontal visible iris diameter (HIVD), lens power, and axial length (AL), and the output parameter was SER.A five-fold cross validation scheme randomly divided all the data into five groups, of which four were used as training data, and one group was used as validation data.This process was repeated five times so that all the data were validated by this model, which allowed a better prediction of the overall sample.The prediction accuracy of different models was evaluated by the R-value and R2.The best-performing algorithm was applied to investigate the relationship between AL elongation and the progression of SER and its influencing factors.Written informed consent was obtained from each guardian of each patient prior to entering the study cohort.This study followed the Declaration of Helsinki.The study protocol was approved by the Ethics Committee of Peking University People's Hospital (No.2019PHB280-01).@*Results@#In the comparison of the R-value and R2 of six ML algorithms based on five-fold cross validation, among all models, the best was the quadratic SVM regression model, with an R-value and R2 of 0.99 and 0.98, respectively.The results of Pearson correlation analysis showed that lens power was negatively correlated with age (r=-0.301, P<0.01). According to the results calculated by the Bennett-Rabbetts formula, the average lens power of the 6-year-old myopic group was higher than that of the 18-year-old myopic group.According to this model, the SER change caused by AL elongation was not a constant value, which was estimated from plano to nearly -3.00 D, depending mainly on the time needed for 1-mm AL elongation.According to the results calculated by this model, the longer it took for the AL to grow by 1 mm, the smaller the corresponding SER change.In myopic children over an age span of one year, for example, from 6-7 years or 12-13 years, 1-mm elongation of the AL corresponded to -2.50 D and -2.33 D of SER change, respectively.Over a three years span, for example, from 6-9 years, a 1-mm elongation of the AL corresponded to -1.77 D of SER change.@*Conclusions@#For myopic children, the longer the age span required for 1-mm elongation of the AL, the smaller the SER change.An ML algorithm can provide clinical practitioners with a relatively precise estimation for the relationship between AL elongation and myopia progression.