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This project proposes to conduct a prospective, multicenter registry study in rural China to evaluate, under real-world conditions, the implementation effectiveness of an integrated child eye health service model centered at the county level and coordinated across county, township, village, and school tiers. The target population will include all children and adolescents within participating counties, and the primary exposure will be the annual coverage and implementation intensity of this service model. The study will focus on its impact on clinical outcomes such as refractive error correction rates and referral rates following eye disease screening, while also examining annual trends in disparities in access to different eye care services. Through long-term and systematic observation, the project aims to clarify the sustained effects of this eye health service model on improving the management of pediatric eye diseases, enhancing visual function, and promoting health equity, thereby providing evidence-based support for optimizing the rural child eye care system in China.
This project aims to address gaps in child eye health services in rural areas of China by developing an accessible, affordable, high-quality, and sustainable model of pediatric eye care. Childhood represents a critical stage of development, and if visual problems are not identified and treated in a timely manner, they may substantially impair motor, language, emotional, social, and cognitive development, with long-term adverse consequences for lifelong health and socioeconomic participation.
At present, the leading cause of visual impairment among children in China is uncorrected refractive error, accounting for more than 90% of cases. China has one of the highest prevalences of refractive error in the world. In 2020, the overall prevalence of myopia among Chinese children and adolescents was 52.7%; the prevalence was 14.3% at age 6, 35.6% in primary school, 71.1% in junior high school, and 80.5% in senior high school. Myopia has become a major public health issue affecting population health. Although wearing spectacles is a safe and cost-effective intervention for myopia correction, inadequate parental awareness, misconceptions about spectacle use, and the lack of high-quality refraction services at the primary-care level together constitute major barriers to effective correction of refractive errors.
In addition to refractive error, amblyopia is also relatively common in children, with a prevalence ranging from 1.0% to 5.0%. Among the approximately 300 million children in China, it is estimated that at least 3 million are affected by amblyopia. Risk factors for amblyopia include refractive error, anisometropia, strabismus, and congenital cataract, and the condition is most commonly seen during the preschool years, which are critical for visual development. If not detected and treated early, amblyopia may progress to persistent visual impairment. Although vision can often be improved through standardized treatment and training, treatment effectiveness declines with age; therefore, early screening and intervention are central principles of amblyopia prevention and control.
At present, the distribution of ophthalmic resources in China is mismatched with the geographic distribution of patients: approximately 70% of ophthalmic patients are located in primary-level settings, whereas high-quality resources are concentrated in urban areas. In rural regions, eye care services are markedly inadequate in terms of availability, accessibility, affordability, and acceptability, which seriously constrains efforts to prevent and manage childhood eye diseases. Therefore, a key scientific and practical challenge is how to establish and sustainably operate an integrated child eye care system in resource-limited settings.
Against this background, the project proposes to explore a pediatric eye care model tailored to rural China by conducting eye health screening among children and adolescents, establishing a county-level referral system for pediatric eye diseases, and strengthening pediatric ophthalmic service capacity in county hospitals. The project will also develop related service guidelines and implementation plans, with the ultimate goal of improving children's visual health and quality of life.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Routine School-Based Eye Health Screening Group |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| School-based Eye Health Screening | Other | This intervention consists of standardized annual school-based eye health examinations conducted under routine field conditions. Basic demographic information, including sex and age, is first recorded. Visual acuity testing is performed before intraocular pressure measurement or any other examination that may affect vision. Uncorrected visual acuity and, where applicable, presenting visual acuity are measured using a standard logarithmic visual acuity chart or ETDRS chart. For participants whose visual acuity is worse than 0.8, pinhole visual acuity is additionally assessed. Intraocular pressure is measured using non-contact tonometry (NCT). For children suspected of strabismus or amblyopia, further assessments may include ocular position examination, alternate cover testing, corneal light reflex testing, angle measurement, and an automatic smartphone-based Digital Ruler of Strabismus (DRS). Refraction is measured using a computerized autorefractor. This screening workflow enables syst |
| Measure | Description | Time Frame |
|---|---|---|
| Annual Eye Health Screening Coverage Rate | The proportion of children who actually received eye health screening among the total number of target children in the study area during a given year, calculated as: number of children screened / total number of target children in the catchment area × 100%. This indicator reflects the reach and implementation coverage of the annual screening program. | Through study completion, assessed once per year, with completion expected within 3 years. |
| Measure | Description | Time Frame |
|---|---|---|
| DRS Sensitivity | Sensitivity is defined as the proportion of true strabismus cases that are correctly identified as positive by the DRS. | Through study completion, assessed once per year, with completion expected within 3 years. |
| Refractive Error Correction Rate |
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Inclusion Criteria:
Exclusion Criteria:
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Students enrolled in schools within the study areas-including kindergartens, primary schools, junior high schools, and senior high schools-in Yangxi County, Jiexi County, Huidong County, and Yingde City of Guangdong Province, as well as Fengqing County of Yunnan Province, or children and adolescents who are permanent residents in these jurisdictions.
| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Wenyong Huang, Professor | Contact | +86 18922103835 | huangwenyong@gzzoc.com |
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| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Fengqing County People's Hospital | Recruiting | Lincang | Yunnan | China |
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| ID | Term |
|---|---|
| D009216 | Myopia |
| D013285 | Strabismus |
| ID | Term |
|---|---|
| D012030 | Refractive Errors |
| D005128 | Eye Diseases |
| D015835 | Ocular Motility Disorders |
| D003389 | Cranial Nerve Diseases |
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At annual reassessment, children previously diagnosed with refractive error but not yet corrected will undergo repeat refraction to determine whether they are now wearing appropriately prescribed spectacles. This indicator reflects the extent to which identified refractive errors have been corrected in the target population. |
| Through study completion, assessed once per year, with completion expected within 3 years. |
| Effective Refractive Error Correction Coverage (eREC) | The proportion of individuals in need of refractive error correction who have received correction, such as spectacles, contact lenses, or refractive surgery, and have achieved an effective or adequate visual outcome. This indicator measures not only access to refractive correction, but also the quality and effectiveness of that correction. | Through study completion, assessed once per year, with completion expected within 3 years. |
| Strabismus/Amblyopia Screening Detection Rate | The proportion of children screened who are identified as having strabismus or amblyopia, calculated as: number of children screened positive for strabismus or amblyopia / total number of children participating in eye health screening × 100%. This indicator reflects the program's yield in detecting major pediatric ocular alignment and visual development disorders. | Through study completion, assessed once per year, with completion expected within 3 years. |
| Referral Rate After Eye Disease Screening | The proportion of children with positive screening results who are successfully referred to county-level hospitals, calculated as: number of screen-positive children who actually attended referral at county-level hospitals / total number of screen-positive children × 100%. This indicator reflects the effectiveness of the referral pathway and the linkage between screening and follow-up care. | Through study completion, assessed once per year, with completion expected within 3 years. |
| DRS Specificity | Specificity is defined as the proportion of non-strabismus cases that are correctly identified as negative by the DRS. | Through study completion, assessed once per year, with completion expected within 3 years. |
| DRS Positive predictive value (PPV) | PPV is defined as the proportion of DRS-positive cases that are confirmed as true strabismus by the reference standard. | Through study completion, assessed once per year, with completion expected within 3 years. |
| DRS Accuracy | Accuracy is defined as the proportion of all screened subjects who are correctly classified by the DRS. | Through study completion, assessed once per year, with completion expected within 3 years. |
| D009422 |
| Nervous System Diseases |