Clinical diagnosis of conjunctival microcirculation in hypertensive patients using shadowless imaging optical technology based on artificial intelligence
Objective To utilize artificial intelligence (AI) -based shadowless imaging optical technology to achieve high-definition collection, feature extraction, and comprehensive analysis of conjunctival microcirculation in hypertensive patients, and explore the characteristics of the scleral vasculatur...
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The Editorial Department of Chinese Journal of Clinical Research
2025-05-01
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| Series: | Zhongguo linchuang yanjiu |
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| Online Access: | http://zglcyj.ijournals.cn/zglcyj/ch/reader/create_pdf.aspx?file_no=20250507 |
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| author | SONG Tianli LI Haixia LIU Li’an |
| author_facet | SONG Tianli LI Haixia LIU Li’an |
| author_sort | SONG Tianli |
| collection | DOAJ |
| description | Objective To utilize artificial intelligence (AI) -based shadowless imaging optical technology to achieve high-definition collection, feature extraction, and comprehensive analysis of conjunctival microcirculation in hypertensive patients, and explore the characteristics of the scleral vasculature in these patients. Methods Eye images of patients were collected, and eye image features were extracted. The MyEyeD-10 scleral shadowless imaging health intelligent analysis system, independently developed by Beijing CapitalBio Technology, was used for analysis. Results Significant morphological differences were observed in the scleral vasculature of hypertensive patients compared to normal individuals. Hypertensive patients’ scleral vasculature typically exhibited features such as “blood vessels” (bright red or dark red blood vessels appearing on the sclera) , “foggy diffusion” (a diffuse, mist - like staining extending from the coronal region across the sclera) , “dots” (shallow circular spots that do not protrude from the surface of the sclera) , and “patches” (colored irregular patches, either round or elliptical in shape). Conclusion By combining machine learning algorithms with shadowless imaging optical technology, it is possible to statistically analyze and classify parameters such as the color, location, shape, and pixel count of blood vessels in the images, thus enabling precise diagnosis of hypertensive patients.
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| format | Article |
| id | doaj-art-612413a80fc0463282d166b5fcef07fd |
| institution | OA Journals |
| issn | 1674-8182 |
| language | zho |
| publishDate | 2025-05-01 |
| publisher | The Editorial Department of Chinese Journal of Clinical Research |
| record_format | Article |
| series | Zhongguo linchuang yanjiu |
| spelling | doaj-art-612413a80fc0463282d166b5fcef07fd2025-08-20T01:53:05ZzhoThe Editorial Department of Chinese Journal of Clinical ResearchZhongguo linchuang yanjiu1674-81822025-05-0138568568810.13429/j.cnki.cjcr.2025.05.038Clinical diagnosis of conjunctival microcirculation in hypertensive patients using shadowless imaging optical technology based on artificial intelligenceSONG Tianli0LI Haixia1LIU Li’an2Guang'anmen Hospital, China Academy of Chinese Medical Sciences, Beijing 100053, ChinaGuang'anmen Hospital, China Academy of Chinese Medical Sciences, Beijing 100053, ChinaBeijing University of Chinese Medicine, Beijing 100105, ChinaObjective To utilize artificial intelligence (AI) -based shadowless imaging optical technology to achieve high-definition collection, feature extraction, and comprehensive analysis of conjunctival microcirculation in hypertensive patients, and explore the characteristics of the scleral vasculature in these patients. Methods Eye images of patients were collected, and eye image features were extracted. The MyEyeD-10 scleral shadowless imaging health intelligent analysis system, independently developed by Beijing CapitalBio Technology, was used for analysis. Results Significant morphological differences were observed in the scleral vasculature of hypertensive patients compared to normal individuals. Hypertensive patients’ scleral vasculature typically exhibited features such as “blood vessels” (bright red or dark red blood vessels appearing on the sclera) , “foggy diffusion” (a diffuse, mist - like staining extending from the coronal region across the sclera) , “dots” (shallow circular spots that do not protrude from the surface of the sclera) , and “patches” (colored irregular patches, either round or elliptical in shape). Conclusion By combining machine learning algorithms with shadowless imaging optical technology, it is possible to statistically analyze and classify parameters such as the color, location, shape, and pixel count of blood vessels in the images, thus enabling precise diagnosis of hypertensive patients. http://zglcyj.ijournals.cn/zglcyj/ch/reader/create_pdf.aspx?file_no=20250507artificial intelligenceshadowless imaging opticshypertensionbulbar conjunctival microcirculation |
| spellingShingle | SONG Tianli LI Haixia LIU Li’an Clinical diagnosis of conjunctival microcirculation in hypertensive patients using shadowless imaging optical technology based on artificial intelligence Zhongguo linchuang yanjiu artificial intelligence shadowless imaging optics hypertension bulbar conjunctival microcirculation |
| title | Clinical diagnosis of conjunctival microcirculation in hypertensive patients using shadowless imaging optical technology based on artificial intelligence |
| title_full | Clinical diagnosis of conjunctival microcirculation in hypertensive patients using shadowless imaging optical technology based on artificial intelligence |
| title_fullStr | Clinical diagnosis of conjunctival microcirculation in hypertensive patients using shadowless imaging optical technology based on artificial intelligence |
| title_full_unstemmed | Clinical diagnosis of conjunctival microcirculation in hypertensive patients using shadowless imaging optical technology based on artificial intelligence |
| title_short | Clinical diagnosis of conjunctival microcirculation in hypertensive patients using shadowless imaging optical technology based on artificial intelligence |
| title_sort | clinical diagnosis of conjunctival microcirculation in hypertensive patients using shadowless imaging optical technology based on artificial intelligence |
| topic | artificial intelligence shadowless imaging optics hypertension bulbar conjunctival microcirculation |
| url | http://zglcyj.ijournals.cn/zglcyj/ch/reader/create_pdf.aspx?file_no=20250507 |
| work_keys_str_mv | AT songtianli clinicaldiagnosisofconjunctivalmicrocirculationinhypertensivepatientsusingshadowlessimagingopticaltechnologybasedonartificialintelligence AT lihaixia clinicaldiagnosisofconjunctivalmicrocirculationinhypertensivepatientsusingshadowlessimagingopticaltechnologybasedonartificialintelligence AT liulian clinicaldiagnosisofconjunctivalmicrocirculationinhypertensivepatientsusingshadowlessimagingopticaltechnologybasedonartificialintelligence |