Kimura disease (KD) is a rare chronic progressive inflammatory disease of unknown etiology that may be immunemediated. Herein, we analyze an 8-year-old male patient who was diagnosed with painless ptosis in the left eye, double tear glands on imaging, elevated levels of eosinophils and immunoglobulin E (IgE) on blood, and massive eosinophil infiltration on pathology. The final diagnosis was Kimura disease involving bilateral lacrimal glands. After resection of the left orbital tumor, no recurrence was observed in the six months postoperation follow-up

A 62-year-old female patient presented with right eye protrusion for 2 years and hypertension for 3 years. Physical examination showed that the upper eyelid retraction of the right eye was about 1.5 mm, and the ptosis of left eye was about 2.5 mm. The levator upper eyelid muscle strength was 13 mm in the right eye and 9 mm in the left eye. Orbital CT and cranial MRI were completed, and no abnormalities were found. A preliminary diagnosis of pseudo plus-minus lid syndrome was made by literature review. Pseudo plus-minus lid syndrome conforms to the Herring’s law. The upper eyelid retraction of the right eye was significantly improved by the left eye elevation test. During the left eye surgery, it was found that the left levator aponeurotic was avulsed about 7 mm. so the left levator aponeurosis was repositioned. After the operation, the upper eyelids of both eyes returned to the normal position and both sides were symmetrical. The most common cause of pseudo Plus—Minus Lid Syndrome is myasthenia gravis. Other causes include thyroid-associated ophthalmopathy, congenital ptosis, oculomotor nerve palsy, senile ptosis, and complications of blepharoplasty. In clinical work, we need to grasp the clues of the disease, truly achieve the diagnosis and treatment like chess, break the game and stand, so that patients can get accurate treatment.

Objective: To assess the training effects of “Zhongshan Eye and Nose Related Diseases and Endoscopy Forums” and its influencing factors, propose targeted suggestions for training focus and teaching methods, and improve the teaching quality. Methods: Statistics of live broadcast platform data and custom-designed questionnaires were used to inquire the participants enrolled in the 16 sessions of “Zhongshan Eye and Nose Related Diseases and Endoscopy Forums” from June 2020 to May 2022 for their feedbacks on training effects. The influence of their professions, titles, regions and other factors on the training effects was analyzed. Results: A total of 7 899 participants were enrolled in “Zhongshan Eye and Nose Related Diseases and Endoscopy Forums”, and the total live broadcast person-time was 27 634. Associate senior doctors (30.2%, 2 382) and attending doctors (32.9%, 2 597) accounted for the largest proportion. The number of participants gradually increased from 269 in the first session to 2 537 in the 16th. The topics with the largest number of participants and the greatest gains were applied anatomy and imaging, thyroid associated ophthalmopathy, and lacrimal duct diseases. Through the questionnaire study, 75.4% (95/126) of the participants thought that what they had learned in the forums was very important for their future clinical work; 84.1% (106/126) of the participants applied the knowledge to improve their daily clinical work; 96.0% (121/126) of the participants were willing to participate in the offline practice of eye and nose anatomy classes held by Zhongshan Ophthalmology Center. In terms of the role of the learned knowledge in the future clinical work, the proportion of associate senior doctors and attending doctors who thought "very useful" was significantly higher than that of senior doctors. In terms of whether to apply the knowledge learned to daily clinical work, the proportion of associate senior doctors and attending doctors thinking “yes” was significantly higher than that of senior doctors and residents. Participants who participated in 6–16 sessions had significantly better training results than those who participated in 1–5 sessions. Conclusion: Eye and nose related diseases are attracting increasing attention in ophthalmology and rhinology. “Zhongshan Eye and Nose Related Diseases and Endoscopy Forums” are conducive to the expansion and improvement of participants’ theoretical knowledge, and plays a good role in the daily clinical work of doctors with eye and nose related diseases. The training effect of attending doctors and associate senior doctors is better, and the training effect of participants who participate in the forum more times is better.

Objective: To analyze the advantages and disadvantages of real-time face-to-face online teaching (taking “Tencent Conference” teaching as an example) in medical education and its correlation with ocular surface diseases during the COVID-19 pandemic, and to provide basis for improving online education programs and preventing dry eye. Methods: The undergraduate students of Xiangya School of Medicine of Central South University were selected as the research objects. The method of cross-sectional study was used to collect data using questionnaires to study the effect of real-time face-to-face online teaching and its impact on ocular surface diseases. Results: A total of 131 valid data were collected. Among them, the vast majority of students (84.73%) think real time face to face online teaching is effective, and 96.18% of the students believe that real-time face-to-face online teaching at least partly achieved the purpose of learning. However, the interaction between teachers and students and the classroom atmosphere of real-time face-to-face online teaching needs to be strengthened. In addition, network equipment is also a problem that real-time face-to-face online teaching needs to face. Meanwhile, the survey showed that the prevalence rate of dry eye among the students who participated in real-time face-to-face online teaching reached 66.41%, and there was no correlation between the incidence rate of dry eye and the location of family, the per capita monthly income of family, the equipment, and whether they paid full attention to the lectures. Conclusion: Real-time face-to-face online teaching is effective in medical education during COVID-19, but the main problems are insufficient teacher-student interaction, inactive classroom atmosphere and unstable Internet connection. In addition, real-time face-to face online teaching will increase the incidence of dry eye, so it is necessary to improve the awareness of eye protection and actively prevent it.

Orbital fracture is a common orbital complication of traumatic diseases, and some of them need to be treated by orbital fracture repair surgery. Implants of different materials are one of the important factors affecting the surgical outcome and prognosis. There is no uniform standard for the selection of implants at home and abroad. At present, most of the implant materials used in clinical practice are heterogeneous materials, including non-absorbable materials and absorbable materials. The most commonly used non-absorbable materials are titanium mesh and high-density polyethylene (Medpor). Absorbable materials are mainly all kinds of macromolecular polymers. These two types of materials have shown different advantages and disadvantages in clinical. By reviewing the relevant reports recent 5 years, and comparing the advantages and disadvantages of these two types of materials, we can provide some references for clinicians to choose from.

Abstract: Red eye is common in our daily practice. It ranges from non-inflammatory to inflammatory causes. An extended course of disease should prompt suspicion and the possibility of diagnosis revision. A prolonged conjunctivitis mimicking nodular episcleritis can be presented as a manifestation of granulomatosis with polyangiitis (GPA). A 57-year-old woman complained of eye redness and tearing for two weeks which partially resolved with antibiotics. She was subsequently commenced on topical and oral non-steroidal anti-inflammatory drugs (NSAIDs) and topical anti-allergic. However, in the following reviews she developed cornea thinning and her systemic examination revealed an injected uvula with absence of upper respiratory tract infection. She was investigated for connective tissue disease and found to have raised anti-inflammatory markers and her antinuclear antibody and C-ANCA tests were positive. She was diagnosed with GPA. Her conditions improved followed by the commencement of topical corticosteroid with high dose of systemic corticosteroid, which followed by a tapering regime with oral corticosteroid. Although red eye is common, it is associated with a variety of diseases. GPA manifestation can be as subtle as a red eye. Any prolonged partially treated red eye should prompt suspicion of a more sinister cause. Sensitive detection of other subtle systemic signs is very important.

Objective: In this review, non-transgenic models of age-related macular degeneration (AMD) are discussed, with focuses on murine retinal degeneration induced by sodium iodate and lipid peroxide (HpODE) as preclinical study platforms.

Background: AMD is the most common cause of vision loss in a world with an increasingly aging population. The major phenotypes of early and intermediate AMD are increased drusen and autofluorescence, Müller glia activation, infiltrated subretinal microglia and inward moving retinal pigment epithelium (RPE) cells. Intermediate AMD may progress to advanced AMD, characterized by geography atrophy and/or choroidal neovascularization (CNV). Various transgenic and non-transgenic animal models related to retinal degeneration have been generated to investigate AMD pathogenesis and pathobiology, and have been widely used as potential therapeutic evaluation platforms.

Methods: Two retinal degeneration murine models induced by sodium iodate and HpODE are described. Distinct pathological features and procedures of these two models are compared. In addition, practical protocol and material preparation and assessment methods are elaborated.

Conclusions: Retina degeneration induced by sodium iodate and HpODE in mouse eye resembles many clinical aspects of human AMD and complimentary to the existent other animal models. However, standardization of procedure and assessment protocols is needed for preclinical studies. Further studies of HpODE on different routes, doses and species will be valuable for the future extensive use. Despite many merits of murine studies, differences between murine and human should be always considered.

Background: Continuous and primary in vitro cultures are largely used to study cellular mechanisms occurring in several pathologic-like or pathological conditions. Continuous cell lines allow to perform long-lasting experiments since they do not undergo senescence.

Methods: The immortalized Moorfields/Institute of Ophtalmology-Müller 1 (MIO-M1) cell type represents a valuable model to analyze the mechanistic pathways characterizing Müller glial cells, both in health and in disease. MIO-M1 can be used to dissect the response of these glial cells following treatments which mimic pathological condition. For instance, MIO-M1 are useful to study the response of this cell type to stress condition as the case of oxidative stress (OS) (cultured with hydrogen peroxide), pathological neovascularization (cultured with VEGF), hypoxic or hyperoxic condition (cultured in low or high oxygen chamber). On the other hand, primary cultures allow to specifically analyze cellular responses without the interference of the whole organ, although the experimental treatment is performed in vivo. Primary Müller cells can be used to perform electrophysiological analyses of different cell sites.

Discussion: We describe how to manage MIO-M1 cells and how to analyze their response to different stress conditions; moreover, we report how to isolate and identify primary Müller cells and how to perform patch clamp and single cell recordings on them.

Abstract: Animal models are crucial for the study of tumorigenesis and therapies in oncology research. Though rare, uveal melanoma (UM) is the most common intraocular tumor and remains one of the most lethal cancers. Given the limitations of studying human UM cells in vitro, animal models have emerged as excellent platforms to investigate disease onset, progression, and metastasis. Since Greene’s initial studies on hamster UM, researchers have dramatically improved the array of animal models. Animals with spontaneous tumors have largely been replaced by engrafted and genetically engineered models. Inoculation techniques continue to be refined and expanded. Newer methods for directed mutagenesis have formed transgenic models to reliably study primary tumorigenesis. Human UM cell lines have been used to generate rapidly growing xenografts. Most recently, patient-derived xenografts have emerged as models that closely mimic the behavior of human UM. Separate animal models to study metastatic UM have also been established. Despite the advancements, the prognosis has only recently improved for UM patients, especially in patients with metastases. There is a need to identify and evaluate new preclinical models. To accomplish this goal, it is important to understand the origin, methods, advantages, and disadvantages of current animal models. In this review, the authors present current and historic animal models for the experimental study of UM. The strengths and shortcomings of each model are discussed and potential future directions are explored.

Abstract: In the early days of deciphering the injured neuronal tissues led to the realization that contrast is necessary to discern the parts of the recovering tissues from the damaged ones. Early attempts relied on available (and often naturally occurring) staining substances. Incidentally, the active ingredients of most of them were small molecules. With the advent of time, the knowledge of chemistry helped identify compounds and conditions for staining. The staining reagents were even found to enhance the visibility of the organelles. Silver impregnation identification of Golgi bodies was discovered in owl optic nerve. Staining reagents since the late 1800s were widely used across all disciplines and for nerve tissue and became a key contributor to advancement in nerve-related research. The use of these reagents provided insight into the organization of the neuronal tissues and helped distinguish nerve degeneration from regeneration. The neuronal staining reagents have played a fundamental role in the clinical research facilitating the identification of biological mechanisms underlying eye and neuropsychiatric diseases. We found a lack of systematic description of all staining reagents, whether they had been used historically or currently used. There is a lack of readily available information for optimal staining of different neuronal tissues for a given purpose. We present here a grouping of the reagents based on their target location: (I) the central nervous system (CNS), (II) the peripheral nervous system (PNS), or (III) both. The biochemical reactions of most of the staining reagents is based on acidic or basic pH and specific reaction partners such as organelle or biomolecules that exists within the given tissue type. We present here a summary of the chemical composition, optimal staining condition, use for given neuronal tissue and, where possible, historic usage. Several biomolecules such as lipids and metabolites lack specific antibodies. Despite being non-specific the reagents enhance contrast and provide corroboration about the microenvironment. In future, these reagents in combination with emerging techniques such as imaging mass spectrometry and kinetic histochemistry will validate or expand our understanding of localization of molecules within tissues or cells that are important for ophthalmology and vision science.