Pay attention to the role of fundus multimodal imaging in teaching fundus disease

doi:10.3877/cma.j.issn.2095-2007.2024.06.001

Abstract

Abstract:

The subject of ocular fundus disease is one of the most important fields of ophthalmology，with a high degree of complexity and diversity.Fundus imaging is an essential tool to assist in the diagnosis of fundus disease，and also a necessary and reliable way in teaching fundus diseases.Different fundus imaging bases and the clinical significance reflected by their image features have their own emphasis and characteristics.Fundus multimodal imaging is a necessary and reasonable combination of multiple imaging examinations，which can integrate multiple imaging manifestations of histological morphology，structure and function.Fundus multimodal imaging comprehensively reveals the pathological characteristics of fundus diseases from different angles and at different levels，which provides more powerful support for the further research，clinical diagnosis and treatment，monitoring of therapeutic efficacy and prognosis of fundus diseases.Mastering the fundus multimodality imaging technology，and rationally selecting，analyzing and integrating the significance of different imaging manifestations are important tasks in fundus diseases teaching，and also bring problems and challenges.The problems existing in fundus imaging teaching，the different bases and characteristics of fundus imaging，the development of fundus multimodal imaging technology and its application in the teaching of fundus disease were comprehensively reviewed，in particularly the importance of the application and development of multimodal imaging in the teaching of ocular fundus diseases was emphasized.

Key words: Ocular fundus disease, Multimodal imaging, Teaching

Xuehui Shi, Haiyan Wang, Wenbin Wei. Pay attention to the role of fundus multimodal imaging in teaching fundus disease[J]. Chinese Journal of Ophthalmologic Medicine(Electronic Edition), 2024, 14(06): 321-326.

/ / Recommend

Add to citation manager EndNote|Ris|BibTeX

URL: https://zhykyxzz.cma-cmc.com.cn/EN/10.3877/cma.j.issn.2095-2007.2024.06.001

https://zhykyxzz.cma-cmc.com.cn/EN/Y2024/V14/I06/321

References 52

［1］	彭晓燕，宋晓佳.合理选用多模态眼底影像学检查方法［J］.中华眼科杂志，2023，59（11）：865-869.
［2］	宋宗明，郭晓红.眼底多模式影像的进展及其现阶段存在的问题［J］.中华眼底病杂志，2022，38（2）：93-97.
［3］	文峰，华瑞.掌握各种眼底影像学检查特点，合理选择眼底影像学检查方法［J］.中华实验眼科杂志，2021，39（5）：376-381.
［4］	Fogel-Levin M，Sadda SR，Rosenfeld PJ，et al.Advanced retinal imaging and applications for clinical practice：A consensus review［J］.Surv Ophthalmol，2022，67（5）：1373-1390.
［5］	Arrigo A，Aragona E， Battaglia PM， et al.Quantitative approaches in multimodal fundus imaging：State of the art and future perspectives［J］.Prog Retin Eye Res，2023，92：101111.
［6］	文峰，张雄泽.眼底影像的繁荣和挑战［J］.中华眼底病杂志，2021，37（2）：89-92.
［7］	冯蕾，孔金锋，陆逸飞，等.智能眼底影像辅助诊断系统在眼科研究生临床教学中的应用［J］.中华医学教育探索杂志，2021，20（9）：994-996.
［8］	Choudhry N，Duker JS，Freund KB，et al.Classification and Guidelines for Widefield Imaging：Recommendations from the International Widefield Imaging Study Group［J］.Ophthalmol Retina，2019，3（10）：843-849.
［9］	谢娟，王永梅，侯军军，等.超广角眼底影像在外伤性脉络膜视网膜病变诊断中的应用［J］.中华眼外伤职业眼病杂志，2021，43（8）：589-594.
［10］	Kumar V，Surve A，Kumawat D，et al.Ultra-wide field retinal imaging：A wider clinical perspective［J］.Indian J Ophthalmol，2021，69（4）：824-835.
［11］	Shoughy SS，Arevalo JF，Kozak I.Update on wide and ultrawidefield retinal imaging［J］.Indian J Ophthalmol，2015，63（7）：575-581.
［12］	Schmitz-Valckenberg S，Pfau M，Fleckenstein M，et al.Fundus autofluorescence imaging［J］.Prog Retin Eye Res，2021，81：100893.
［13］	Sukkarieh G，Lejoyeux R，LeMer Y，et la.The role of nearinfrared reflectance imaging in retinal disease：A systematic review［J］.Surv Ophthalmol，2023，68（3）：313-331.
［14］	Kellner U，Kellner S，Weinitz S.Fundus autofluorescence（488NM）and near-infrared autofluorescence（787NM）visualize different retinal pigment epithelium alterations in patients with age-related macular degeneration［J］.Retina，2010，30（1）：6-15.
［15］	Patal R，Banin E，Batash T，et al.Ultra-widefield fundus autofluorescence imaging in patients with autosomal recessive retinitis pigmentosa reveals a genotype-phenotype correlation［J］.Graefes Arch Clin Exp Ophthalmol， 2022， 260（11）：3471-3478.
［16］	Pole C， Ameri H.Fundus Autofluorescence and Clinical Applications［J］.JOphthalmic Vis Re，2021，16（3）：432-461.
［17］	Abbasgholizadeh R，Habibi A，Emamverdi M，et al.Comparison of Blue-Light Autofluorescence and Ultrawidefield Green-Light Autofluorescence for Assessing Geographic Atrophy［J］.Ophthalmol Retina，2024，8（10）：987-993.
［18］	Strauss RW，Kong X，Ho A，et al.Progression of Stargardt Disease as Determined by Fundus Autofluorescence Over a 12-Month Period：ProgStar Report No.11.JAMA Ophthalmol，2019，137（10）：1134-1145.
［19］	Kim YH，Chung YR，Oh J，et al.Demographic and Multimodal Imaging Features of Macular Telangiectasia Type 2：Korean Macular Telangiectasia Type 2 Study-Report No.2.Ophthalmic Epidemiol，2021，28（5）：436-443.
［20］	Bindewald-Wittich A，Dolar-Szczasny J，Kuenzel SH，et al.Blue-light fundus autofluorescence imaging of pigment epithelial detachments［J］.Eye（Lond），2023，37（6）：1191-1201.
［21］	Koizumi H，Maruyama K，Kinoshita S.Blue light and nearinfrared fundus autofluorescence in acute Vogt-Koyanagi-Harada disease［J］.Br J Ophthalmol，2010，94（11）：1499-1505.
［22］	Battaglia Parodi M，Iacono P，FalcomatàB，et al.Near-infrared fundus autofluorescence in multiple evanescent white-dot syndrome［J］.Eur JOphthalmol，2015，25（1）：43-46.
［23］	Banda HK，Shah GK，Blinder KJ.Applications of fundus autofluorescence and widefield angiography in clinical practice［J］.Can J Ophthalmol，2019，54（1）：11-19.
［24］	Kim P，Sun HJ，Ham DI.Ultra-wide-field angiography findings in acute Vogt-Koyanagi-Harada disease［J］.Br J Ophthalmol，2019，103（7）：942-948.
［25］	Moriyama M，Cao K，Ogata S，et al.Detection of posterior vortex veins in eyes with pathologic myopia by ultra-widefield indocyanine green angiography［J］.Br JOphthalmol，2017，101（9）：1179-1184.
［26］	Akilesh MS，Kumar V，Sinha A，et al.Ultra-wide field indocyanine green angiography in central serous chorioretinopathy［J］.Indian JOphthalmol，2024，72（Suppl4）：S606-S609.
［27］	Hirahara S，Yasukawa T，Kominami A，et al.Densitometry of Choroidal Vessels in Eyes With and Without Central Serous Chorioretinopathy by Wide-Field Indocyanine Green Angiography［J］.Am J Ophthalmol，2016，166：103-111.
［28］	Singh SR，Chhablani J.Optical Coherence Tomography Imaging：Advances in Ophthalmology［J］.J Clin Med，2022，11（10）：2858.
［29］	史雪辉，张丛，魏文斌.关注糖尿病黄斑水肿的光学相干断层扫描分型及相关影像特征［J/OL］.中华眼科医学杂志（电子版），2021，11（1）：1-7.
［30］	刁莉莉，史雪辉，张丛，等.糖尿病性黄斑水肿患者黄斑中心凹无血管区形态与视网膜光感受器层完整性的关系［J］.眼科新进展，2020，40（1）：38-41.
［31］	Meuer SM，Myers CE，Klein BE，et al.The epidemiology of vitreoretinal interface abnormalities as detected by spectral-domain optical coherence tomography：the beaver dam eye study［J］.Ophthalmology，2015，122（4）：787-795.
［32］	Lee CS，Woo SJ，Kim YK，et al.Clinical and spectral-domain optical coherence tomography findings in patients with focal choroidal excavation［J］.Ophthalmology，2014，121（5）：1029-1035.
［33］	Venkatesh R，Agrawal S，Reddy NG，et al.Visual function correlates with foveal slope，retinal and choroidal thickness on optical coherence tomography in type 2 Macular Telangiectasia［J］.Semin Ophthalmol，2022，37（4）：524-530.
［34］	Hufendiek K，Gamulescu MA，Hufendiek K，et al.Classification and characterization of acute macular neuroretinopathy with spectral domain optical coherence tomography［J］.Int Ophthalmol，2018，38（6）：2403-2416.
［35］	Zur D，Frenkel S，Leshno A，et al.Subretinal Fluid Optical Density and Spectral-Domain Optical Coherence Tomography Characteristics for the Diagnosis of Circumscribed Choroidal Hemangioma［J］.Ophthalmologica，2019，241（4）：195-201.
［36］	Dai L，Huang F，Jiang Q，et al.Sensitive optical coherence tomography angiography parameters detecting retinal vascular changes in Behcet's uveitis［J］.Photodiagnosis Photodyn Ther，2024，49：104353.
［37］	Parravano M，Cennamo G，Di Antonio L，et al.Multimodal imaging in diabetic retinopathy and macular edema：An update about biomarkers［J］.Surv Ophthalmol，2024，69（6）：893-904.
［38］	Perez Y，Neri P，Pichi F.Multimodal Imaging in Retinal Vasculitis［J］.Ophthalmologica，2024，247（4）：203-213.
［39］	Foote KG，Roorda A，Duncan JL.Multimodal Imaging in Choroideremia［J］.Adv Exp Med Biol，2019，1185：139-143.
［40］	Wang N，Zou J，Li S，et al.Multimodal imaging to distinguish microvascular and morphological changes in retinal vein occlusion after intravitreal ranibizumab with or without triamcinolone acetonide injection［J］.BMC Ophthalmol，2024，24（1）：354.
［41］	乔芯蕊，周娜磊，马景学，等.先天性视盘小凹的多模影像学特征分析［J］.中华实验眼科杂志，2021，39（11）：989-996.
［42］	Herbort CP，Arapi I，Papasavvas I，et al.Acute Zonal Occult Outer Retinopathy（AZOOR）Results from a Clinicopathological Mechanism Different from Choriocapillaritis Diseases： A Multimodal Imaging Analysis［J］.Diagnostics（Basel），2021，11（7）：1184.
［43］	Papasavvas I， Mantovani A， Herbort CP.Diagnosis，Mechanisms，and Differentiation of Inflammatory Diseases of the Outer Retina： Photoreceptoritis versus Choriocapillaritis； A Multimodal Imaging Perspective［J］.Diagnostics（Basel），2022，12（9）：2179.
［44］	Xiao D，Lhamo T，Meng Y，et al.Peripapillary hyperreflective ovoid mass-like structures：multimodal imaging and associated diseases［J］.Front Neurol，2024，15：1379801.
［45］	Rabinovich M，Seray S， Amoroso F， et al.Peripapillary hyperreflective ovoid mass-like structures and the retinal nerve fiber layer thinning［J］.Eur J Ophthalmol，2024，34（2）：126-130.
［46］	Yan Y，Ludwig CA，Liao YJ.Multimodal Imaging Features of Optic Disc Drusen［J］.Am JOphthalmol，2021，225：18-26.
［47］	史雪辉，杨帆，王海燕，等.以案例为基础的多模影像教学在眼底病教学中的应用［J］.眼科，2024，33（6）：461-466.
［48］	Feo A，De Simone L，Cimino L，et al.Differential diagnosis of myopic choroidal neovascularization（mCNV）：insights from multimodal imaging and treatment implications［J］.Graefes Arch Clin Exp Ophthalmol，2024，262（7）：2005-2026.
［49］	Garrity ST，Sarraf D，Freund KB，et al.Multimodal Imaging of Nonneovascular Age-Related Macular Degeneration［J］.Invest Ophthalmol Vis Sci，2018，59（4）：48-64.
［50］	Guymer R，Wu Z.Age-related macular degeneration（AMD）：More than meets the eye.The role of multimodal imaging in today's management of AMD-A review［J］.Clin Exp Ophthalmol，2020，48（7）：983-995.
［51］	Goh KL，Abbott CJ，Campbell TG，et al.Clinical performance of predicting late age-related macular degeneration development using multimodal imaging［J］.Clin Exp Ophthalmol，2024，52（7）：774-782.
［52］	魏文斌，董力，张瑞恒，等.人工智能生成对抗网络在眼科临床教学中的应用初探［J］.眼科，2024，33（3）：223-225.

[1]	Jiajia Wang, Yunyun Zhan, Fan Jiang, Biyun Sun, Yu Bi, Rubing Li, Mei Peng. Application of Peyton's four-step teaching method in standardized residency training program for ultrasound segmentation of cervical lymph nodes [J]. Chinese Journal of Medical Ultrasound (Electronic Edition), 2024, 21(08): 814-818.
[2]	Zihan Niu, Wenbo Li, Mengsu Xiao, Qing Zhang, Yixiu Zhang, Qingli Zhu. Integrating "curriculum ideology and politics" into ultrasonic medicine teaching: practice and effect evaluation [J]. Chinese Journal of Medical Ultrasound (Electronic Edition), 2024, 21(06): 597-601.
[3]	Yuxin Cao, Zhuojun Mao, Jiahe Liang, Jiangpu Yi, Zekai Zhang, Wenshuai Ma, Yuntao Chen, Xiaoqian Li, Yuxin Zhang, Tiesheng Cao, Lijun Yuan. Application of three-dimensional printed heart model in simulating clinical teaching of left atrial appendage closure [J]. Chinese Journal of Medical Ultrasound (Electronic Edition), 2024, 21(06): 602-607.
[4]	Mengxiao Feng, Yuanqiang Lu. Analysis and reflection on current situation of emergency medicine teaching for international students coming to China—taking Zhejiang University as an example [J]. Chinese Journal of Critical Care Medicine(Electronic Edition), 2024, 17(03): 177-179.
[5]	Liping Wu, Rujie Gong, Wei Wang. Application effect of situational simulation teaching based on the ADDIE model in training for junior nurses on the transport of critically ill patients [J]. Chinese Journal of Injury Repair and Wound Healing(Electronic Edition), 2024, 19(05): 416-421.
[6]	Yijiao Sun, Runfa Bao, Ping Dong, Yijun Shu. Application and thinking of PBL combined with surgical video clip teaching in standardized training of general surgery specialists [J]. Chinese Journal of Operative Procedures of General Surgery(Electronic Edition), 2025, 19(01): 96-99.
[7]	Bo Sun, Xusheng Huang, Xiujuan Bai, Yan'e Guo, Zhaohui Chen, Li Ling, Mengjie Huang, Zheyi Dong. Effect of multimodal teaching method in teaching of contact heat evoked-potentials （CHEPs） [J]. Chinese Journal of Kidney Disease Investigation(Electronic Edition), 2024, 13(05): 288-290.
[8]	Nan Yuan, Mengjie Huang, Yunfeng Bai, Xiaofan Li, Congjuan Luo, Jianwen Chen. Analysis of teaching points and learning effect in the establishment of an acute kidney injury-chronic kidney disease transition model in mice [J]. Chinese Journal of Kidney Disease Investigation(Electronic Edition), 2024, 13(04): 226-230.
[9]	Li Huang, Zhao Wu, Junting Cai, Yuhang Ai, Daomiao Xu, Zhiyong Liu, Lina Zhang. Discussion on the teaching practice of integrating ideological and political education into critical care medicine [J]. Chinese Journal of Critical Care & Intensive Care Medicine(Electronic Edition), 2024, 10(04): 375-378.
[10]	Ming Lu, Biying Zhang, Zhonghua Deng, Xiaoguang Li, Ning Shen. Application of scene teaching for standardized training of residents in fever clinics [J]. Chinese Journal of Clinicians(Electronic Edition), 2024, 18(04): 388-391.
[11]	Xiaofei Hou, Wei Wang, Shibao Lu. Application of case presentation-based preoperative discussion model in teaching degenerative spinal diseases [J]. Chinese Journal of Clinicians(Electronic Edition), 2024, 18(03): 295-298.
[12]	Wenying Luo, Lihong Qiu, Hui Liu, Jiaze Dai. Practical study of problem-based learning teaching model in labor education of “quality control before examination and analysis” [J]. Chinese Journal of Clinical Laboratory Management(Electronic Edition), 2024, 12(04): 244-250.
[13]	Shuangshuang Gu, Quanpeng Wang, Qiuling Zhang, Binxia Shao, Jun Wang, Jin Li. Application of scenario simulation teaching of case-based leaning combined with improved mini-clinical evaluation exercise in standardized training for emergency department residents [J]. Chinese Journal of Hygiene Rescue(Electronic Edition), 2024, 10(03): 149-153.
[14]	Weihua Jia, Furong Liu, Baoling Yang, Ou Zhang, Bingqing Zhao. Application of multi-mode teaching based on post comprehensive competency and integrated ideological and political education in stroke practice teaching [J]. Chinese Journal of Cerebrovascular Diseases(Electronic Edition), 2024, 18(04): 365-369.
[15]	Haiyan Zhao, Hongsong Song, Dongsheng Fan, Yu Fu. Application of role playing model in the teaching of doctor-patient communication in neurology department [J]. Chinese Journal of Cerebrovascular Diseases(Electronic Edition), 2024, 18(03): 274-276.

Please choose a citation manager

Content to export