Indian Journal of Ophthalmology : Table of Contents

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REVIEW ARTICLE FOR RESIDENTS

Anatomy of cornea and ocular surface

Sridhar Mittanamalli S

Year : 2018| Volume: 66| Issue : 2 | Page no: 190-194

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	Fatma Kose, Imdat Orhan, Aydin Alan, Ahmet Cabir, Feyzullah Beyaz, Ayhan Duzler

	Microscopy Research and Technique. 2023;

	[Pubmed] [Google Scholar] [DOI]

2	Efficacy of topical insulin for recurrent epithelial corneal erosions

	Ahmed Esmail, Mohamed Ibrahim, Sara Nage

	Irish Journal of Medical Science (1971 -). 2023;

	[Pubmed] [Google Scholar] [DOI]

3	Gene therapy strategies for glaucoma from IOP reduction to retinal neuroprotection: progress towards non-viral systems

	Antoine Hakim, Benjamin Guido, Lokesh Narsineni, Ding-Wen Chen, Marianna Foldvari

	Advanced Drug Delivery Reviews. 2023; : 114781

	[Pubmed] [Google Scholar] [DOI]

4	Trans-corneal drug delivery strategies in the treatment of ocular diseases

	Liping Li, Fan Jia, Youxiang Wang, Jiamin Liu, Yi Tian, Xinghuai Sun, Yuan Lei, Jian Ji

	Advanced Drug Delivery Reviews. 2023; : 114868

	[Pubmed] [Google Scholar] [DOI]

5	In Vivo Corneal Elastography: A Topical Review of Challenges and Opportunities

	Gongpu Lan, Michael D. Twa, Chengjin Song, JinPing Feng, Yanping Huang, Jingjiang Xu, Jia Qin, Lin An, Xunbin Wei

	Computational and Structural Biotechnology Journal. 2023;

	[Pubmed] [Google Scholar] [DOI]

6	Role of aquaporins in corneal healing post chemical injury

	Madeline E. Bhend, Duraisamy Kempuraj, Nishant R. Sinha, Suneel Gupta, Rajiv R. Mohan

	Experimental Eye Research. 2023; : 109390

	[Pubmed] [Google Scholar] [DOI]

7	Current microfluidic platforms for reverse engineering of cornea

	Qinyu Li, Ho Lam Wong, Yan Lam Ip, Wang Yee Chu, Man Shek Li, Chinmoy Saha, Kendrick Co Shih, Yau Kei Chan

	Materials Today Bio. 2023; : 100634

	[Pubmed] [Google Scholar] [DOI]

8	Protocol to develop a microfluidic human corneal barrier-on-a-chip to evaluate the corneal epithelial wound repair process

	Zitong Yu, Rui Hao, Xi Chen, Lu Ma, Yi Zhang, Hui Yang

	STAR Protocols. 2023; 4(1): 102122

	[Pubmed] [Google Scholar] [DOI]

9	Regulation of the Keratocyte Phenotype and Cell Behavior Derived from Human Induced Pluripotent Stem Cells by Substrate Stiffness

	Lan Zhang, Liying Liang, Ting Su, Yonglong Guo, Quan Yu, Deliang Zhu, Zekai Cui, Jun Zhang, Jiansu Chen

	ACS Biomaterials Science & Engineering. 2023;

	[Pubmed] [Google Scholar] [DOI]

10	Tear film lipid layer and corneal oxygenation: a new function?

	Mazyar Yazdani

	Eye. 2023;

	[Pubmed] [Google Scholar] [DOI]

11	Vanadium inhalation effects on the corneal ciliary neurotrophic factor (CNTF). Study in a murine model.

	Isis Mendoza-Aldabisis, Nelly López-Valdez, María Eugenia Cervantes-Valencia, Teresa Imelda Fortoul

	Cutaneous and Ocular Toxicology. 2023; : 1

	[Pubmed] [Google Scholar] [DOI]

12	Yamane intrascleral haptic fixation, white-to-white distance, and the temporal approach

	Rami Shasha

	Journal of Cataract and Refractive Surgery. 2023; 49(5): 543

	[Pubmed] [Google Scholar] [DOI]

13	Overview of Corneal Transplantation for the Nonophthalmologist

	Yujia Zhou, Theodore Wang, Sonal S. Tuli, Walter A. Steigleman, Ankit A. Shah

	Transplantation Direct. 2023; 9(2): e1434

	[Pubmed] [Google Scholar] [DOI]

14	The Impaired Wound Healing Process Is a Major Factor in Remodeling of the Corneal Epithelium in Adult and Adolescent Patients With Keratoconus

	Katarzyna Jaskiewicz, Magdalena Maleszka-Kurpiel, Eliza Matuszewska, Michal Kabza, Malgorzata Rydzanicz, Robert Malinowski, Rafal Ploski, Jan Matysiak, Marzena Gajecka

	Investigative Opthalmology & Visual Science. 2023; 64(2): 22

	[Pubmed] [Google Scholar] [DOI]

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	Nathalie D. Daher, Ahmed Saeed Saad, Hiram J. Jimenez, Tatyana Milman, Orlando G. Gonzalez-Martinez, Tanmay Deshmukh, Jose S. Pulido, Frederick H. Silver, Dominick A. Benedetto, Christopher J. Rapuano, Zeba A. Syed

	Translational Vision Science & Technology. 2023; 12(4): 11

	[Pubmed] [Google Scholar] [DOI]

16	Porcine Cornea Storage Ex Vivo Model as an Alternative to Human Donor Tissues for Investigations of Endothelial Layer Preservation

	Umberto Rodella, Lorenzo Bosio, Stefano Ferrari, Claudio Gatto, Laura Giurgola, Orietta Rossi, Stefano Ciciliot, Eugenio Ragazzi, Diego Ponzin, Jana D'Amato Tóthová

	Translational Vision Science & Technology. 2023; 12(4): 24

	[Pubmed] [Google Scholar] [DOI]

17	Biomechanics of keratoconus: Two numerical studies

	Nicolas Falgayrettes, Etienne Patoor, Franck Cleymand, Yinka Zevering, Jean-Marc Perone, Antonio Riveiro Rodríguez

	PLOS ONE. 2023; 18(2): e0278455

	[Pubmed] [Google Scholar] [DOI]

18	Computational approaches for evaluating morphological changes in the corneal stroma associated with decellularization

	Igor V. Pantic, Jelena Cumic, Svetlana Valjarevic, Adeeba Shakeel, Xinyu Wang, Hema Vurivi, Sayel Daoud, Vincent Chan, Georg A. Petroianu, Meklit G. Shibru, Zehara M. Ali, Dejan Nesic, Ahmed E. Salih, Haider Butt, Peter R. Corridon

	Frontiers in Bioengineering and Biotechnology. 2023; 11

	[Pubmed] [Google Scholar] [DOI]

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	Ana L. Alves, Ana C. Carvalho, Inês Machado, Gabriela S. Diogo, Emanuel M. Fernandes, Vânia I. B. Castro, Ricardo A. Pires, José A. Vázquez, Ricardo I. Pérez-Martín, Miguel Alaminos, Rui L. Reis, Tiago H. Silva

	Bioengineering. 2023; 10(1): 62

	[Pubmed] [Google Scholar] [DOI]

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	Mutali Musa, Marco Zeppieri, Ehimare S. Enaholo, Ekele Chukwuyem, Carlo Salati

	Clinics and Practice. 2023; 13(1): 264

	[Pubmed] [Google Scholar] [DOI]

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	International Journal of Molecular Sciences. 2023; 24(2): 1567

	[Pubmed] [Google Scholar] [DOI]

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	Methods and Protocols. 2023; 6(3): 50

	[Pubmed] [Google Scholar] [DOI]

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	Pharmaceuticals. 2023; 16(3): 474

	[Pubmed] [Google Scholar] [DOI]

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	Pharmaceutics. 2023; 15(2): 470

	[Pubmed] [Google Scholar] [DOI]

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	Pharmaceutics. 2023; 15(3): 734

	[Pubmed] [Google Scholar] [DOI]

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	Pharmaceutics. 2023; 15(6): 1591

	[Pubmed] [Google Scholar] [DOI]

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	Polymers. 2023; 15(7): 1766

	[Pubmed] [Google Scholar] [DOI]

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	[Pubmed] [Google Scholar] [DOI]

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	Indian Journal of Ophthalmology. 2023; 71(5): 2218

	[Pubmed] [Google Scholar] [DOI]

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	World Journal of Stem Cells. 2023; 15(5): 466

	[Pubmed] [Google Scholar] [DOI]

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	Pakistan Journal of Health Sciences. 2022; : 32

	[Pubmed] [Google Scholar] [DOI]

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	Shivangi C Tidke, Pravin Tidake

	Cureus. 2022;

	[Pubmed] [Google Scholar] [DOI]

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	Journal of Current Ophthalmology. 2022; 34(3): 284

	[Pubmed] [Google Scholar] [DOI]

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	[Pubmed] [Google Scholar] [DOI]

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	Pharmaceutics. 2022; 14(12): 2797

	[Pubmed] [Google Scholar] [DOI]

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	Pharmaceuticals. 2022; 15(11): 1419

	[Pubmed] [Google Scholar] [DOI]

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	Renáta Sklenárová, Naoufal Akla, Meagan Jade Latorre, Jitka Ulrichová, Jana Franková

	Journal of Functional Biomaterials. 2022; 13(4): 249

	[Pubmed] [Google Scholar] [DOI]

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	Riina Muilu-Mäkelä, Ulla Aapola, Jenni Tienaho, Hannu Uusitalo, Tytti Sarjala

	Molecules. 2022; 27(12): 3891

	[Pubmed] [Google Scholar] [DOI]

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	Applied Sciences. 2022; 12(7): 3435

	[Pubmed] [Google Scholar] [DOI]

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	Faisal Masood, Jin-Hong Chang, Anosh Akbar, Amy Song, Wen-Yang Hu, Dimitri T. Azar, Mark I. Rosenblatt

	Cells. 2022; 11(20): 3247

	[Pubmed] [Google Scholar] [DOI]

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	Giuseppe Acri, Antonio Micali, Rosalia D’Angelo, Domenico Puzzolo, Pasquale Aragona, Barbara Testagrossa, Emanuela Aragona, Edward Wylegala, Anna Nowinska

	Journal of Clinical Medicine. 2022; 11(5): 1403

	[Pubmed] [Google Scholar] [DOI]

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	Agnieszka Józwik, Joanna Przezdziecka-Dolyk, Ewa Walek, Magdalena Czerniak, Magdalena Asejczyk

	Journal of Clinical Medicine. 2022; 11(11): 2962

	[Pubmed] [Google Scholar] [DOI]

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	Martine Tarsitano, Maria Chiara Cristiano, Massimo Fresta, Donatella Paolino, Concetta Rafaniello

	Gels. 2022; 8(7): 431

	[Pubmed] [Google Scholar] [DOI]

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	Samayitree Das, Sharon D’Souza, Bhavya Gorimanipalli, Rohit Shetty, Arkasubhra Ghosh, Vrushali Deshpande

	International Journal of Molecular Sciences. 2022; 23(6): 3111

	[Pubmed] [Google Scholar] [DOI]

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	Mithun Santra, Yu-Chi Liu, Vishal Jhanji, Gary Hin-Fai Yam

	International Journal of Molecular Sciences. 2022; 23(14): 7967

	[Pubmed] [Google Scholar] [DOI]

46	The Underlying Relationship between Keratoconus and Down Syndrome

	Theresa Akoto, Jiemin J. Li, Amy J. Estes, Dimitrios Karamichos, Yutao Liu

	International Journal of Molecular Sciences. 2022; 23(18): 10796

	[Pubmed] [Google Scholar] [DOI]

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	Shan Lakmal Edirisinghe, Chamilani Nikapitiya, S. H. S. Dananjaya, Jungho Park, Dukgyu Kim, Dongrack Choi, Mahanama De Zoysa

	International Journal of Molecular Sciences. 2022; 23(21): 13525

	[Pubmed] [Google Scholar] [DOI]

48	Autophagy in Extracellular Matrix and Wound Healing Modulation in the Cornea

	Duraisamy Kempuraj, Rajiv R. Mohan

	Biomedicines. 2022; 10(2): 339

	[Pubmed] [Google Scholar] [DOI]

49	Features of morphological and ultrastructural organization of the cornea (literature review)

	A. R. Khalimov, V. K. Surkova, G. M. Kazakbaeva, E. L. Usubov, L. I. Khalimova, N. B. Zaynullina

	Acta Biomedica Scientifica. 2022; 7(6): 194

	[Pubmed] [Google Scholar] [DOI]

50	Monoclonal Antibodies: A Therapeutic Option for the Treatment of Ophthalmic Diseases of the Eye Posterior Segment

	Catalina Ayón, Daniel Castán, Adrián Mora, Dunia Naranjo, Francini Obando, Juan José Mora

	Borneo Journal of Pharmacy. 2022; 5(3): 229

	[Pubmed] [Google Scholar] [DOI]

51	Cornea: anatomical and functional features, new methods of in vivo diagnostics of abnormalities

	N. V. Fisenko

	Journal of Anatomy and Histopathology. 2022; 11(2): 78

	[Pubmed] [Google Scholar] [DOI]

52	Corneal Topographic versus Manifest Refractive Astigmatism in Patients with Keratoconus: A Retrospective Cross-Sectional Study

	Mohamed Elkadim, Mohamed H Nasef, Ahmed Roshdy Alagorie, Waleed Allam

	Clinical Ophthalmology. 2022; Volume 16: 2033

	[Pubmed] [Google Scholar] [DOI]

53	Polyunsaturated Fatty Acid-Derived Lipid Mediators That Regulate Epithelial Homeostasis

	Tatsuro Naganuma, Nodoka Fujinami, Makoto Arita

	Biological and Pharmaceutical Bulletin. 2022; 45(8): 998

	[Pubmed] [Google Scholar] [DOI]

54	Bio-fabrication of stem-cell-incorporated corneal epithelial and stromal equivalents from silk fibroin and gelatin-based biomaterial for canine corneal regeneration

	Chutirat Torsahakul, Nipan Israsena, Supaporn Khramchantuk, Juthamas Ratanavaraporn, Sirakarnt Dhitavat, Watchareewan Rodprasert, Sirirat Nantavisai, Chenphop Sawangmake, Panayiotis Maghsoudlou

	PLOS ONE. 2022; 17(2): e0263141

	[Pubmed] [Google Scholar] [DOI]

55	A global bibliometric and visualized analysis in the status and trends of corneal tissue engineering research from 1991 to 2021

	Hua-Qing Niu, Yun Yang, Bei-Bei Wang, Wen-Tian Xiao, Hui-Ru Wu, Ya-Dong Liu, Bo-Wen Zheng, Ming-Xiang Zou

	Journal of Tissue Engineering. 2022; 13: 2041731422

	[Pubmed] [Google Scholar] [DOI]

56	Scaffold-Free Strategy Using a PEG–Dextran Aqueous Two-Phase-System for Corneal Tissue Repair

	Lap Tak Hung, Stephanie Hiu Ling Poon, Wing Huen Yan, Rebecca Lace, Liangyu Zhou, Jasper Ka Wai Wong, Rachel L. Williams, Kendrick Co Shih, Ho Cheung Shum, Yau Kei Chan

	ACS Biomaterials Science & Engineering. 2022;

	[Pubmed] [Google Scholar] [DOI]

57	Hyaluronan Modulates the Biomechanical Properties of the Cornea

	Xiao Lin, Taye Mekonnen, Sudhir Verma, Christian Zevallos-Delgado, Manmohan Singh, Salavat R. Aglyamov, Tarsis F. Gesteira, Kirill V. Larin, Vivien J. Coulson-Thomas

	Investigative Opthalmology & Visual Science. 2022; 63(13): 6

	[Pubmed] [Google Scholar] [DOI]

58	Novel vision restoration techniques: 3D bioprinting, gene and stem cell therapy, optogenetics, and the bionic eye

	Abhay Menon, Sanjairaj Vijayavenkataraman

	Artificial Organs. 2022;

	[Pubmed] [Google Scholar] [DOI]

59	Capsanthin from Capsicum annum fruits exerts anti-glaucoma, antioxidant, anti-inflammatory activity, and corneal pro-inflammatory cytokine gene expression in a benzalkonium chloride-induced rat dry eye model

	Velmurugan Shanmugham, Ravi Subban

	Journal of Food Biochemistry. 2022;

	[Pubmed] [Google Scholar] [DOI]

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	Vivek Suganthan Ramasubramanian, S. Meenatchi Sundaram, Rinu Thomas, S. Ve. Ramesh, B. Raghuvir Pai, Manali Hazarika, Shah Mohammed Abdul Khader, Rakshath G. Poojary, H. Girish, Vernon Seth Crasto, Biju B. Thomas

	Journal of Ophthalmology. 2022; 2022: 1

	[Pubmed] [Google Scholar] [DOI]

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	Noha A. Sherif, David Fleischman, O'Rese J. Knight

	Cornea. 2022; Publish Ah

	[Pubmed] [Google Scholar] [DOI]

62	Mobile-CellNet: Automatic Segmentation of Corneal Endothelium Using an Efficient Hybrid Deep Learning Model

	Ranit Karmakar, Saeid V. Nooshabadi, Allen O. Eghrari

	Cornea. 2022; Publish Ah

	[Pubmed] [Google Scholar] [DOI]

63	Molecular characterization of fungal endophthalmitis and keratitis caused by yeasts

	Nicole L Belanger, Su Jeoung Kim, Paulo J M Bispo

	Medical Mycology. 2022; 61(1)

	[Pubmed] [Google Scholar] [DOI]

64	A rapid review of the red eye

	Tara M. McSwigan, David Beck, Deborah Farkas

	JAAPA. 2022; 35(7): 40

	[Pubmed] [Google Scholar] [DOI]

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	Abdul Shukkur Ebrahim, Thanzeela Ebrahim, Hussein Kani, Ahmed S. Ibrahim, Thomas W. Carion, Elizabeth A. Berger

	Scientific Reports. 2022; 12(1)

	[Pubmed] [Google Scholar] [DOI]

66	Inverse Hartmann test for radius of curvature measurement in a corneal topography calibration sphere

	J. M. Jalife-Chavira, G. Trujillo-Schiaffino, P. G. Mendoza-Villegas, D. P. Salas-Peimbert, M. Anguiano-Morales, L. F. Corral-Martínez, N. Tornero-Martínez

	Review of Scientific Instruments. 2022; 93(4): 043101

	[Pubmed] [Google Scholar] [DOI]

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	Bahareh Pourjabbar, Esmaeil Biazar, Saeed Heidari Keshel, Milad Ahani-Nahayati, Alireza Baradaran-Rafii, Reza Roozafzoon, Mohammad Hasan Alemzadeh-Ansari

	International Journal of Polymeric Materials and Polymeric Biomaterials. 2022; 71(11): 797

	[Pubmed] [Google Scholar] [DOI]

68	Teprotumumab for chronic thyroid eye disease

	Daniel J. Ozzello, Liane O. Dallalzadeh, Catherine Y. Liu

	Orbit. 2022; 41(5): 539

	[Pubmed] [Google Scholar] [DOI]

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	Mazyar Yazdani, Katja Benedikte Prestø Elgstøen, Tor Paaske Utheim

	Current Eye Research. 2022; 47(1): 1

	[Pubmed] [Google Scholar] [DOI]

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	Roxanne Jozaei, Mohammad-Ali Javadi, Iman Safari, Afrooz Moghaddasi, Sepehr Feizi, Mozhgan Rezaei Kanavi, Sajad Najafi, Bahareh Safdari, Iman Salahshourifar, Elahe Elahi, Fatemeh Suri

	Ophthalmic Genetics. 2022; : 1

	[Pubmed] [Google Scholar] [DOI]

71	Mucosal immunology of the ocular surface

	Cintia S. de Paiva, Anthony J. St. Leger, Rachel R. Caspi

	Mucosal Immunology. 2022;

	[Pubmed] [Google Scholar] [DOI]

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	Sina Sharifi, Hannah Sharifi

	ACS Applied Bio Materials. 2022;

	[Pubmed] [Google Scholar] [DOI]

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	Sweetu Susan Sunny, Jitka Lachova, Naoko Dupacova, Zbynek Kozmik

	Developmental Biology. 2022;

	[Pubmed] [Google Scholar] [DOI]

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	Alejandro Garanto, Carlos R. Ferreira, Camiel J.F. Boon, Clara D.M. van Karnebeek, Nenad Blau

	Molecular Genetics and Metabolism. 2022;

	[Pubmed] [Google Scholar] [DOI]

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	Toxicology. 2022; : 153140

	[Pubmed] [Google Scholar] [DOI]

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	Journal of Medical Mycology. 2022; 32(2): 101249

	[Pubmed] [Google Scholar] [DOI]

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	Progress in Retinal and Eye Research. 2022; 88: 101016

	[Pubmed] [Google Scholar] [DOI]

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	Progress in Retinal and Eye Research. 2022; : 101149

	[Pubmed] [Google Scholar] [DOI]

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	Journal of Controlled Release. 2022; 350: 401

	[Pubmed] [Google Scholar] [DOI]

80	Ocular delivery of cyclosporine A using dissolvable microneedle contact lens

	Deepanjan Datta, Girdhari Roy, Prashant Garg, Venkata Vamsi Krishna Venuganti

	Journal of Drug Delivery Science and Technology. 2022; 70: 103211

	[Pubmed] [Google Scholar] [DOI]

81	Lipid-based nanocarriers for ocular drug delivery: An updated review

	Biswarup Das, Amit Kumar Nayak, Subrata Mallick

	Journal of Drug Delivery Science and Technology. 2022; : 103780

	[Pubmed] [Google Scholar] [DOI]

82	Evaluation of corneal, ocular surface, and meibomian gland changes in obstructive sleep apnea syndrome

	H.G. Ulutas, A. Balikci Tufekci, A. Gunes

	Journal Français d'Ophtalmologie. 2022; 45(2): 191

	[Pubmed] [Google Scholar] [DOI]

83	Evaluating the clinical translational relevance of animal models for limbal stem cell deficiency: A systematic review

	Naomi C. Delic, Jessie R. Cai, Stephanie L. Watson, Laura E. Downie, Nick Di Girolamo

	The Ocular Surface. 2022; 23: 169

	[Pubmed] [Google Scholar] [DOI]

84	Functionalized hydrogels in ophthalmic applications: ocular inflammation, corneal injuries, vitreous substitutes and intravitreal injection

	Qiaoyun Gong, Yue Zhao, Tianwei Qian, Haiyan Wang, Zuhao Li

	Materials & Design. 2022; : 111277

	[Pubmed] [Google Scholar] [DOI]

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	iScience. 2022; 25(5): 104200

	[Pubmed] [Google Scholar] [DOI]

86	Epithelial cells removed in advanced surface ablation (ASA) surgery can be used as a source of corneal samples to perform in vitro studies

	Laura García-Posadas, Miguel J. Maldonado, Yolanda Diebold

	Experimental Eye Research. 2022; 214: 108878

	[Pubmed] [Google Scholar] [DOI]

87	Analysis of different conditioned media secreted by limbal progenitor cells in the modulation of corneal healing

	Renata Ruoco Loureiro, Priscila Cardoso Cristovam, Larissa Rigobeli da Rosa, Lucimeire Nova, Gustavo Gasparetto, Cristiane Damas Gil, José Álvaro Pereira Gomes

	Experimental Eye Research. 2022; 215: 108907

	[Pubmed] [Google Scholar] [DOI]

88	Direct oral mucosal epithelial transplantation supplies stem cells and promotes corneal wound healing to treat refractory persistent corneal epithelial defects

	Danni Gong, Chenxi Yan, Fei Yu, Dan Yan, Nianxuan Wu, Liangbo Chen, Siyi Zhang, Yao Fu

	Experimental Eye Research. 2022; 215: 108934

	[Pubmed] [Google Scholar] [DOI]

89	Biochemistry of human tear film: A review

	Simin Masoudi

	Experimental Eye Research. 2022; 220: 109101

	[Pubmed] [Google Scholar] [DOI]

90	Resveratrol increases tear production and ocular pain after corneal abrasion in male, but not female, rats using a photorefractive keratectomy model

	Deborah M. Hegarty, James R. Carroll, Dennis Nguyen, Victoria S. Halls, Dennis I. Robbins, Theodore J. Price, Gregory Dussor, Sue A. Aicher

	Experimental Eye Research. 2022; 225: 109281

	[Pubmed] [Google Scholar] [DOI]

91	Trio-based exome sequencing broaden the genetic spectrum in keratoconus

	Liyan Xu, Kaili Yang, Meng Zhu, Shanshan Yin, Yuwei Gu, Qi Fan, Yawen Wang, Chenjiu Pang, Shengwei Ren

	Experimental Eye Research. 2022; : 109342

	[Pubmed] [Google Scholar] [DOI]

92	Cytokine profile of human limbal myofibroblasts: Key players in corneal antiviral response

	Alfredo Domínguez-López, Yonathan Garfias

	Cytokine. 2022; 160: 156047

	[Pubmed] [Google Scholar] [DOI]

93	From ocular immune privilege to primary autoimmune diseases of the eye

	Ivana Nieto-Aristizábal, Juan José Mera, José David Giraldo, Hugo Lopez-Arevalo, Gabriel J. Tobón

	Autoimmunity Reviews. 2022; : 103122

	[Pubmed] [Google Scholar] [DOI]

94	p63 in corneal and epidermal differentiation

	Flavia Novelli, Carlo Ganini, Gerry Melino, Carlo Nucci, Yuyi Han, Yufang Shi, Ying Wang, Eleonora Candi

	Biochemical and Biophysical Research Communications. 2022; 610: 15

	[Pubmed] [Google Scholar] [DOI]

95	Print me a cornea - Are we there yet?

	Midhun Ben Thomas, Shivaram Selvam, Parinita Agrawal, Prayag Bellur, Neha Waghmare, Suvro K. Chowdhury, Kamalnath Selvakumar, Aastha Singh, Anil Tiwari, Abha Gour, Virender S. Sangwan, Tuhin Bhowmick, Arun Chandru

	Bioprinting. 2022; : e00227

	[Pubmed] [Google Scholar] [DOI]

96	Segmentation methods and morphometry of confocal microscopy imaged corneal epithelial cells

	Pradipta Bhattacharya, Katie Edwards, Katrina L. Schmid

	Contact Lens and Anterior Eye. 2022; : 101720

	[Pubmed] [Google Scholar] [DOI]

97	PIPE-Net: A pyramidal-input-parallel-encoding network for the segmentation of corneal layer interfaces in OCT images

	Amr Elsawy, Mohamed Abdel-Mottaleb

	Computers in Biology and Medicine. 2022; : 105595

	[Pubmed] [Google Scholar] [DOI]

98	Role of autophagy in the eye: from physiology to disease

	Hideaki Morishita

	Current Opinion in Physiology. 2022; : 100592

	[Pubmed] [Google Scholar] [DOI]

99	Tissue Engineered Mini-Cornea Model for Eye Irritation Test

	Seon-Hwa Kim, Sung-Han Jo, Byeong Kook Kim, Sang-Hyug Park

	Tissue Engineering and Regenerative Medicine. 2022;

	[Pubmed] [Google Scholar] [DOI]

100	Anatomie et physiologie de l’œil

	Paul Robert, Pierre-Yves Robert, Maxime Rocher

	Actualités Pharmaceutiques. 2022; 61(620): 16

	[Pubmed] [Google Scholar] [DOI]

101	Investigation of the effect of solution pH value on rabbit corneal stroma biomechanics

	Yuexin Wang, Jiahui Ma, Shanshan Wei, Yushi Liu, Xuemin Li

	International Ophthalmology. 2022; 42(7): 2255

	[Pubmed] [Google Scholar] [DOI]

102	Low-intensity low-frequency ultrasound mediates riboflavin delivery during corneal crosslinking

	Zhe Sun, Zhiming Li, Jin Teng Chung, Laurence Chi Ming Lau, Vishal Jhanji, Ying Chau

	Bioengineering & Translational Medicine. 2022;

	[Pubmed] [Google Scholar] [DOI]

103	Longitudinal assessment of the effect of alkali burns on corneal biomechanical properties using optical coherence elastography

	Taye Mekonnen, Xiao Lin, Christian Zevallos-Delgado, Manmohan Singh, Salavat R. Aglyamov, Vivien J. Coulson-Thomas, Kirill V. Larin

	Journal of Biophotonics. 2022;

	[Pubmed] [Google Scholar] [DOI]

104	Scanning electron microscopy and morphometric analysis of superficial corneal epithelial cells in dromedary camel ( Camelus dromedarius )

	Sameh M. Farouk, Samy F. Mahmoud, Haitham Eldoumani, Khaled Shoghy, Nazema S. Abdel-Megeid, Mohamed Abdo

	Microscopy Research and Technique. 2021;

	[Pubmed] [Google Scholar] [DOI]

105	Gold-based blood serum treatment promotes wound closure of corneal epithelial cell defects in primary in vitro experiments

	Jessica Feldt, Jessica Welss, Ulrich Schneider, Friedrich Paulsen

	Annals of Anatomy - Anatomischer Anzeiger. 2021; 237: 151745

	[Pubmed] [Google Scholar] [DOI]

106	Non-infectious and non-hereditary diseases of the corneal epithelium

	Kristina Voss, Annie Nguyen, Martin Heur

	Experimental Eye Research. 2021; 202: 108316

	[Pubmed] [Google Scholar] [DOI]

107	The role of fungi in fungal keratitis

	Bethany Mills, Naveen Radhakrishnan, Siva Ganesa Karthikeyan Rajapandian, Gunasekaran Rameshkumar, Prajna Lalitha, N. Venkatesh Prajna

	Experimental Eye Research. 2021; 202: 108372

	[Pubmed] [Google Scholar] [DOI]

108	Corneal angiogenic privilege and its failure

	Antonio Di Zazzo, Daniele Gaudenzi, Jia Yin, Marco Coassin, Merle Fernandes, Reza Dana, Stefano Bonini

	Experimental Eye Research. 2021; 204: 108457

	[Pubmed] [Google Scholar] [DOI]

109	Super-resolution imaging of flat-mounted whole mouse cornea

	Zhen Cai, Yang Zhang, Zheyuan Zhang, Ki-Hee Song, Lisa Beckmann, Ali Djalilian, Cheng Sun, Hao F. Zhang

	Experimental Eye Research. 2021; 205: 108499

	[Pubmed] [Google Scholar] [DOI]

110	The role of peroxisome proliferator-activated receptors in healthy and diseased eyes

	Paulina Escandon, Brenda Vasini, Amy E. Whelchel, Sarah E. Nicholas, H. Greg Matlock, Jian-Xing Ma, Dimitrios Karamichos

	Experimental Eye Research. 2021; 208: 108617

	[Pubmed] [Google Scholar] [DOI]

111	Drug delivery to the anterior segment of the eye: A review of current and future treatment strategies

	Mohammad Mofidfar, Behnam Abdi, Samad Ahadian, Ebrahim Mostafavi, Tejal A. Desai, Farhang Abbasi, Yang Sun, Edward E. Manche, Christopher N. Ta, Charles W. Flowers

	International Journal of Pharmaceutics. 2021; 607: 120924

	[Pubmed] [Google Scholar] [DOI]

112	Electrospun GelMA fibers and p(HEMA) matrix composite for corneal tissue engineering

	Tugce A. Arica, Meltem Guzelgulgen, Ahu Arslan Yildiz, Mustafa M. Demir

	Materials Science and Engineering: C. 2021; 120: 111720

	[Pubmed] [Google Scholar] [DOI]

113	A single cell atlas of human cornea that defines its development, limbal progenitor cells and their interactions with the immune cells

	Joseph Collin, Rachel Queen, Darin Zerti, Sanja Bojic, Birthe Dorgau, Nicky Moyse, Marina Moya Molina, Chunbo Yang, Sunanda Dey, Gary Reynolds, Rafiqul Hussain, Jonathan M. Coxhead, Steven Lisgo, Deborah Henderson, Agatha Joseph, Paul Rooney, Saurabh Ghosh, Lucy Clarke, Che Connon, Muzlifah Haniffa, Francisco Figueiredo, Lyle Armstrong, Majlinda Lako

	The Ocular Surface. 2021; 21: 279

	[Pubmed] [Google Scholar] [DOI]

114	Descemetorhexis traumatique après exérèse chirurgicale de chalazion : à propos d’un cas

	C.-H. Koch, L. Fabre, R. Montard, T. Garcin, B. Delbosc, A.-S. Gauthier

	Journal Français d'Ophtalmologie. 2021; 44(4): e215

	[Pubmed] [Google Scholar] [DOI]

115	Corneal lymphangiogenesis as a potential target in dry eye disease - a systematic review

	Mohansrinivas Chennakesavalu, Sri Raghurama R. Somala, Sunil R. Dommaraju, Meghna Priyanka Peesapati, Kai Guo, Mark I. Rosenblatt, Jin-Hong Chang, Dimitri T. Azar

	Survey of Ophthalmology. 2021; 66(6): 960

	[Pubmed] [Google Scholar] [DOI]

116	Stem cell-based therapeutic strategies for corneal epithelium regeneration

	Hamed Nosrati, Zohreh Alizadeh, Ali Nosrati, Korosh Ashrafi-Dehkordi, Mehdi Banitalebi-Dehkordi, Samira Sanami, Mohammad Khodaei

	Tissue and Cell. 2021; 68: 101470

	[Pubmed] [Google Scholar] [DOI]

117	Use of polycaprolactone in corneal tissue engineering: A review

	Amin Orash Mahmoud Salehi, Saeed Heidari Keshel, Farshid Sefat, Lobat Tayebi

	Materials Today Communications. 2021; 27: 102402

	[Pubmed] [Google Scholar] [DOI]

118	Graphene-Lined Porous Gelatin Glycidyl Methacrylate Hydrogels: Implications for Tissue Engineering

	Sina Sharifi, Hannah Sharifi, Ali Akbari, Claes H. Dohlman, Eleftherios I. Paschalis, Miguel Gonzalez-Andrades, Jing Kong, James Chodosh

	ACS Applied Nano Materials. 2021; 4(11): 12650

	[Pubmed] [Google Scholar] [DOI]

119	Diagnosis and management of limbal stem cell deficiency, challenges, and future prospects

	C. Maya Tong, Bonnie He, Alfonso Iovieno, Sonia N. Yeung

	Expert Review of Ophthalmology. 2021; 16(4): 305

	[Pubmed] [Google Scholar] [DOI]

120	Safety and efficacy of combination of suberoylamilide hydroxyamic acid and mitomycin C in reducing pro-fibrotic changes in human corneal epithelial cells

	Rohit Shetty, Nimisha Rajiv Kumar, Murali Subramani, Lekshmi Krishna, Ponnalagu Murugeswari, Himanshu Matalia, Pooja Khamar, Zelda V. Dadachanji, Rajiv R. Mohan, Arkasubhra Ghosh, Debashish Das

	Scientific Reports. 2021; 11(1)

	[Pubmed] [Google Scholar] [DOI]

121	Biofabrication of chitosan/chitosan nanoparticles/polycaprolactone transparent membrane for corneal endothelial tissue engineering

	Tahereh Tayebi, Alireza Baradaran-Rafii, Abbas Hajifathali, Azam Rahimpour, Hakimeh Zali, Alireza Shaabani, Hassan Niknejad

	Scientific Reports. 2021; 11(1)

	[Pubmed] [Google Scholar] [DOI]

122	Impact of Post–Refractive Surgeries on Corneal Biomechanics—A Review

	Hassan M. Ahmed, Nancy M. Salem, Walid Al-Atabany

	Journal of Clinical Engineering. 2021; 46(4): 177

	[Pubmed] [Google Scholar] [DOI]

123	Corneal Keratocyte Density and Corneal Nerves Are Reduced in Patients With Severe Obesity and Improve After Bariatric Surgery

	Zohaib Iqbal, Alise Kalteniece, Maryam Ferdousi, Safwaan Adam, Luca D'Onofrio, Jan H. Ho, Anoop Prasanna Rao, Shaishav Dhage, Shazli Azmi, Yifen Liu, Rachelle Donn, Rayaz A. Malik, Handrean Soran

	Investigative Opthalmology & Visual Science. 2021; 62(1): 20

	[Pubmed] [Google Scholar] [DOI]

124	A Mannequin-Based Training System With Integrated Sensors for Ophthalmic Sub-Tenon Anesthesia

	Nimal J. Kumar, Boby George, Mohanasankar Sivaprakasam, V. V. Jaichandran

	IEEE Sensors Journal. 2021; 21(3): 3839

	[Pubmed] [Google Scholar] [DOI]

125	A Novel Network With Parallel Resolution Encoders for the Diagnosis of Corneal Diseases

	Amr Elsawy, Mohamed Abdel-Mottaleb

	IEEE Transactions on Biomedical Engineering. 2021; 68(12): 3671

	[Pubmed] [Google Scholar] [DOI]

126	Distribution of polymeric nanoparticles in the eye: implications in ocular disease therapy

	Sean Swetledge, Jangwook P. Jung, Renee Carter, Cristina Sabliov

	Journal of Nanobiotechnology. 2021; 19(1)

	[Pubmed] [Google Scholar] [DOI]

127	Corneal Dystrophy in Dutch Belted Rabbits as a Possible Model of Thiel-Behnke Subtype of Epithelial-Stromal TGFß-Induced Corneal Dystrophy

	JoAnn C. L. Schuh, Dana L. Holve, Karen E. Mundwiler

	Toxicologic Pathology. 2021; 49(3): 555

	[Pubmed] [Google Scholar] [DOI]

128	Mucosa-Associated Lymphoid Tissue and Tertiary Lymphoid Structures of the Eye and Ear in Laboratory Animals

	JoAnn C.L. Schuh

	Toxicologic Pathology. 2021; 49(3): 472

	[Pubmed] [Google Scholar] [DOI]

129	Nd:YAG fourth harmonic (266-nm) generation for corneal reshaping procedure: An ex-vivo experimental study

	Ibrahim Abdelhalim, Omnia Hamdy, Aziza Ahmed Hassan, Salah Hassab Elnaby, Mahendra Singh Dhaka

	PLOS ONE. 2021; 16(11): e0260494

	[Pubmed] [Google Scholar] [DOI]

130	Probing biomechanical properties of the cornea with air-puff-based techniques – an overview

	Patryk Mlyniuk, Ewa Maczynska-Walkowiak, Jagoda Rzeszewska-Zamiara, Ireneusz Grulkowski, Bartlomiej J. Kaluzny

	Advanced Optical Technologies. 2021; 10(6): 375

	[Pubmed] [Google Scholar] [DOI]

131	Recurrent corneal erosion

	Sergey V. Trufanov, Akhmed S. Seyfeddin, Vadim A. Turgel

	Ophthalmology Journal. 2021; 14(4): 55

	[Pubmed] [Google Scholar] [DOI]

132	Challenges in corneal endothelial cell culture

	Rintra Wongvisavavit, Mohit Parekh, Sajjad Ahmad, Julie T Daniels

	Regenerative Medicine. 2021; 16(9): 871

	[Pubmed] [Google Scholar] [DOI]

133	Wound healing of the corneal epithelium: a review

	Norzana Abd Ghafar, Nahdia Afiifah Abdul Jalil, Taty Anna Kamarudin

	Asian Biomedicine. 2021; 15(5): 199

	[Pubmed] [Google Scholar] [DOI]

134	Corneal Epithelial Stem Cells–Physiology, Pathophysiology and Therapeutic Options

	Yue Ruan, Subao Jiang, Aytan Musayeva, Norbert Pfeiffer, Adrian Gericke

	Cells. 2021; 10(9): 2302

	[Pubmed] [Google Scholar] [DOI]

135	Post-Mortem RT-PCR Assay for SARS-CoV-2 RNA in COVID-19 Patients’ Corneal Epithelium, Conjunctival and Nasopharyngeal Swabs

	Francesco Aiello, Marco Ciotti, Gabriele Gallo Afflitto, Maria Cristina Rapanotti, Bartolo Caggiano, Michele Treglia, Sandro Grelli, Sergio Bernardini, Silvestro Mauriello, Carlo Nucci, Luigi Tonino Marsella, Raffaele Mancino

	Journal of Clinical Medicine. 2021; 10(18): 4256

	[Pubmed] [Google Scholar] [DOI]

136	The Protective Effect of Oral Application of Corni Fructus on the Disorders of the Cornea, Conjunctiva, Lacrimal Gland and Retina by Topical Particulate Matter 2.5

	Hyesook Lee, Min Yeong Kim, Seon Yeong Ji, Da Hye Kim, So Young Kim, Hyun Hwangbo, Cheol Park, Su Hyun Hong, Gi-Young Kim, Yung Hyun Choi

	Nutrients. 2021; 13(9): 2986

	[Pubmed] [Google Scholar] [DOI]

137	Preclinical Evaluations of Modified Rice Hydrogel for Topical Ophthalmic Drug Delivery of Praziquantel on Avian Philophalmiasis

	Treepecth Prompetch, Akawat Chailorm, Saruda Tiwananthagorn, Nithidol Buranapim, Siriporn Okonogi, Hirotomo Kato, Wasan Katip, Raktham Mektrirat

	Pharmaceutics. 2021; 13(7): 952

	[Pubmed] [Google Scholar] [DOI]

138	Advantages and Disadvantages of Using Magnetic Nanoparticles for the Treatment of Complicated Ocular Disorders

	Elena K. Schneider-Futschik, Felisa Reyes-Ortega

	Pharmaceutics. 2021; 13(8): 1157

	[Pubmed] [Google Scholar] [DOI]

139	The Protective Effect of Topical Spermidine on Dry Eye Disease with Retinal Damage Induced by Diesel Particulate Matter2.5

	Hyesook Lee, Da Hye Kim, Hyun Hwangbo, So Young Kim, Seon Yeong Ji, Min Yeong Kim, Jung-Hyun Shim, Sun-Hee Leem, Jin Won Hyun, Gi-Young Kim, Yung Hyun Choi

	Pharmaceutics. 2021; 13(9): 1439

	[Pubmed] [Google Scholar] [DOI]

140	Stimuli-Responsive Polymers for Transdermal, Transmucosal and Ocular Drug Delivery

	Dmitriy Berillo, Zharylkasyn Zharkinbekov, Yevgeniy Kim, Kamila Raziyeva, Kamila Temirkhanova, Arman Saparov

	Pharmaceutics. 2021; 13(12): 2050

	[Pubmed] [Google Scholar] [DOI]

141	Corneal endothelial cell density and microvascular changes of retina and optic disc in autosomal dominant polycystic kidney disease

	BengiEce Kurtul, Ahmet Elbeyli, Ahmet Kakac, Faruk Turgut

	Indian Journal of Ophthalmology. 2021; 69(7): 1735

	[Pubmed] [Google Scholar] [DOI]

142	Obstetrical forceps-induced Descemet membrane tears

	Rinky Agarwal, NidhiKalra Singh, Rajesh Sinha, Namrata Sharma

	Indian Journal of Ophthalmology. 2021; 69(12): 3432

	[Pubmed] [Google Scholar] [DOI]

143	Comparison of Femtosecond Laser-Assisted and Ultrasound-Assisted Cataract Surgery with Focus on Endothelial Analysis

	Anna Schroeter, Martina Kropp, Zeljka Cvejic, Gabriele Thumann, Bojan Pajic

	Sensors. 2021; 21(3): 996

	[Pubmed] [Google Scholar] [DOI]

144	CannabinEYEds: The Endocannabinoid System as a Regulator of the Ocular Surface Nociception, Inflammatory Response, Neovascularization and Wound Healing

	Francesco Aiello, Gabriele Gallo Afflitto, Ji-Peng Olivia Li, Alessio Martucci, Massimo Cesareo, Carlo Nucci

	Journal of Clinical Medicine. 2020; 9(12): 4036

	[Pubmed] [Google Scholar] [DOI]

145	Corneal epithelium tissue engineering: recent advances in regeneration and replacement of corneal surface

	Hamed Nosrati, Zahra Abpeikar, Zahra Gholami Mahmoudian, Mahdi Zafari, Jafar Majidi, Akram Alizadeh, Lida Moradi, Shiva Asadpour

	Regenerative Medicine. 2020; 15(8): 2029

	[Pubmed] [Google Scholar] [DOI]

146	Pathological-Corneas Layer Segmentation and Thickness Measurement in OCT Images

	Amr Elsawy, Giovanni Gregori, Taher Eleiwa, Mohamed Abdel-Mottaleb, Mohamed Abou Shousha

	Translational Vision Science & Technology. 2020; 9(11): 24

	[Pubmed] [Google Scholar] [DOI]

147	Tear Organic Acid Analysis After Corneal Collagen Crosslinking in Keratoconus

	Ayhan Saglik, Ismail Koyuncu, Adem Soydan, Ferdag Saglik, Ataman Gönel

	Eye & Contact Lens: Science & Clinical Practice. 2020; 46(2): S122

	[Pubmed] [Google Scholar] [DOI]

148	Measurement of In Vivo Biomechanical Changes Attributable to Epithelial Removal in Keratoconus Using a Noncontact Tonometer

	Mohammed Ziaei, Akilesh Gokul, Hans Vellara, Lucy M. Lu, Dipika V. Patel, Charles N. J. McGhee

	Cornea. 2020; 39(8): 946

	[Pubmed] [Google Scholar] [DOI]

149	Emerging Trends in Nanomedicine for Improving Ocular Drug Delivery: Light-Responsive Nanoparticles, Mesoporous Silica Nanoparticles, and Contact Lenses

	Flávia S. C. Rodrigues, António Campos, João Martins, António Francisco Ambrósio, Elisa J. Campos

	ACS Biomaterials Science & Engineering. 2020; 6(12): 6587

	[Pubmed] [Google Scholar] [DOI]

150	Expression of Langerin/CD 207 and a-smooth muscle actin in ex vivo rabbit corneal keratitis model

	Simona Pergolizzi, Andreana Marino, Gioele Capillo, Marialuisa Aragona, Peggy Marconi, Eugenia Rita Lauriano

	Tissue and Cell. 2020; 66: 101384

	[Pubmed] [Google Scholar] [DOI]

151	Alterations in corneal biomechanics underlie early stages of autoimmune-mediated dry eye disease

	Yael Efraim, Feeling Yu Ting Chen, Connor Stashko, Ka Neng Cheong, Eliza Gaylord, Nancy McNamara, Sarah M. Knox

	Journal of Autoimmunity. 2020; 114: 102500

	[Pubmed] [Google Scholar] [DOI]

152	Circular RNA-ZNF609 regulates corneal neovascularization by acting as a sponge of miR-184

	Pengcheng Wu, Dongyan Zhang, Yuanyuan Geng, Rui Li, Yanan Zhang

	Experimental Eye Research. 2020; 192: 107937

	[Pubmed] [Google Scholar] [DOI]

153	Keratocyte biology

	Gary H.F. Yam, Andri K. Riau, Martha L. Funderburgh, Jodhbir S. Mehta, Vishal Jhanji

	Experimental Eye Research. 2020; 196: 108062

	[Pubmed] [Google Scholar] [DOI]

154	In vivo effect of bevacizumab-loaded albumin nanoparticles in the treatment of corneal neovascularization

	Inés Luis de Redín, Carolina Boiero, Sergio Recalde, Maite Agüeros, Daniel Allemandi, Juan M. Llabot, Alfredo García-Layana, Juan M. Irache

	Experimental Eye Research. 2019; 185: 107697

	[Pubmed] [Google Scholar] [DOI]

155	Nanotechnology in regenerative ophthalmology

	Fitsum Feleke Sahle, Sangyoon Kim, Kumar Kulldeep Niloy, Faiza Tahia, Cameron V. Fili, Emily Cooper, David J. Hamilton, Tao L. Lowe

	Advanced Drug Delivery Reviews. 2019; 148: 290

	[Pubmed] [Google Scholar] [DOI]

156	Glycosaminoglycan Compositional Analysis of Relevant Tissues in Zika Virus Pathogenesis and in Vitro Evaluation of Heparin as an Antiviral against Zika Virus Infection

	So Young Kim, Cheri A. Koetzner, Anne F. Payne, Gregory J. Nierode, Yanlei Yu, Rufeng Wang, Evan Barr, Jonathan S. Dordick, Laura D. Kramer, Fuming Zhang, Robert J. Linhardt

	Biochemistry. 2019; 58(8): 1155

	[Pubmed] [Google Scholar] [DOI]

157	Serial block-face scanning electron microscopy reveals neuronal-epithelial cell fusion in the mouse cornea

	Justin A. Courson, Ian Smith, Thao Do, Paul T. Landry, Aubrey Hargrave, Ali R. Behzad, Sam D. Hanlon, Rolando E. Rumbaut, C. Wayne Smith, Alan R. Burns, Alfred S. Lewin

	PLOS ONE. 2019; 14(11): e0224434

	[Pubmed] [Google Scholar] [DOI]

158	Biocompatibility of Nanocellulose-Reinforced PVA Hydrogel with Human Corneal Epithelial Cells for Ophthalmic Applications

	Tummala, Lopes, Mihranyan, Ferraz

	Journal of Functional Biomaterials. 2019; 10(3): 35

	[Pubmed] [Google Scholar] [DOI]

159	Repair Process Impairment by Pseudomonas aeruginosa in Epithelial Tissues: Major Features and Potential Therapeutic Avenues

	Manon Ruffin, Emmanuelle Brochiero

	Frontiers in Cellular and Infection Microbiology. 2019; 9

	[Pubmed] [Google Scholar] [DOI]

160	Host Invasion by Pathogenic Amoebae: Epithelial Disruption by Parasite Proteins

	Betanzos, Bañuelos, Orozco

	Genes. 2019; 10(8): 618

	[Pubmed] [Google Scholar] [DOI]

161	Tear Metabolomics in Dry Eye Disease: A Review

	Mazyar Yazdani, Katja Benedikte Prestø Elgstøen, Helge Rootwelt, Aboulghassem Shahdadfar, Øygunn Aass Utheim, Tor Paaske Utheim

	International Journal of Molecular Sciences. 2019; 20(15): 3755

	[Pubmed] [Google Scholar] [DOI]