AUTHOR=Zhu Jun , Inomata Takenori , Shih Kendrick Co , Okumura Yuichi , Fujio Kenta , Huang Tianxiang , Nagino Ken , Akasaki Yasutsugu , Fujimoto Keiichi , Yanagawa Ai , Miura Maria , Midorikawa-Inomata Akie , Hirosawa Kunihiko , Kuwahara Mizu , Shokirova Hurramhon , Eguchi Atsuko , Morooka Yuki , Chen Fang , Murakami Akira 

TITLE=Application of Animal Models in Interpreting Dry Eye Disease

JOURNAL=Frontiers in Medicine

VOLUME=9

YEAR=2022

URL=https://www.frontiersin.org/journals/medicine/articles/10.3389/fmed.2022.830592

DOI=10.3389/fmed.2022.830592

ISSN=2296-858X

ABSTRACT=<p>Different pathophysiologic mechanisms are involved in the initiation, development, and outcome of dry eye disease (DED). Animal models have proven valuable and efficient in establishing ocular surface microenvironments that mimic humans, thus enabling better understanding of the pathogenesis. Several dry eye animal models, including lacrimal secretion insufficiency, evaporation, neuronal dysfunction, and environmental stress models, are related to different etiological factors. Other models may be categorized as having a multifactorial DED. In addition, there are variations in the methodological classification, including surgical lacrimal gland removal, drug-induced models, irradiation impairment, autoimmune antibody-induced models, and transgenic animals. The aforementioned models may manifest varying degrees of severity or specific pathophysiological mechanisms that contribute to the complexity of DED. This review aimed to summarize various dry eye animal models and evaluate their respective characteristics to improve our understanding of the underlying mechanism and identify therapeutic prospects for clinical purposes.</p>