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Tear biomarkers in dry eye disease: Progress in the last decade
Dry eye disease (DED) is a commonly occurring, multifactorial disease characterized by reduced tear film stability and hyperosmolarity at the ocular surface, leading to discomfort and visual compromise. DED is driven by chronic inflammation and its pathogenesis involves multiple ocular surface structures such as the cornea, conjunctiva, lacrimal glands, and meibomian glands. The tear film secretion and its composition are regulated by the ocular surface in orchestration with the environment and bodily cues. Thus, any dysregulation in ocular surface homeostasis causes an increase in tear break-up time (TBUT), osmolarity changes, and reduction in tear film volume, all of which are indicators of DED. Tear film abnormalities are perpetuated by underlying inflammatory signaling and secretion of inflammatory factors, leading to the recruitment of immune cells and clinical pathology. Tear-soluble factors such as cytokines and chemokines are the best surrogate markers of disease severity and can also drive the altered profile of ocular surface cells contributing to the disease. Soluble factors can thus help in disease classification and planning treatment strategies. Our analysis suggests increased levels of cytokines namely interleukin-1β (IL-1β), IL-2, IL-4, IL-6, IL-9, IL-12, IL-17A, interferon-gamma (IFN-γ), tumor necrosis factor-alpha (TNF-α); chemokines (CCL2, CCL3, CCL4, CXCL8); MMP-9, FGF, VEGF-A; soluble receptors (sICAM-1, sTNFR1), neurotrophic factors (NGF, substance P, serotonin) and IL1RA and reduced levels of IL-7, IL-17F, CXCL1, CXCL10, EGF and lactoferrin in DED. Due to the non-invasive sample collection and ease of quantitively measuring soluble factors, tears are one of the best-studied biological samples to molecularly stratify DED patients and monitor their response to therapy. In this review, we evaluate and summarize the soluble factors profiles in DED patients from the studies conducted over the past decade and across various patient groups and etiologies. The use of biomarker testing in clinical settings will aid in the advancement of personalized medicine and represents the next step in managing DED.
Journal Article
Hormones and dry eye disease
The endocrine system influences all tissues and cells in the human body. The ocular surface is constantly exposed to circulating hormones and expresses their specific receptors. Dry eye disease (DED) is a disorder with multifactorial etiology, and endocrine anomalies are one of the inciting factors. The endocrine anomalies that cause DED include physiological conditions such as menopause, menstrual cycle variations, pathologies such as polycystic ovarian syndrome, androgen resistance, iatrogenic conditions such as contraceptive use, and antiandrogen treatment. This review highlights the status of these hormones in DED along with the mechanism of action of different hormones on the ocular surface structures and the clinical implications of these effects. The influence of androgens, estrogens, and progesterone on the ocular surface tissues, and the implications of androgen-deficient states in DED are also discussed. The physiological and pathological effects of menopause and sex hormone replacement therapy are discussed. The effects of insulin and insulin resistance on the ocular surface and DED, and the growing potential of topical insulin therapeutics for DED are mentioned. Thyroid-associated ophthalmopathy, its impact on the ocular surface, and the tissue effects of thyroid hormone in the context of DED are reviewed. Finally, the potential role of hormonal therapeutics in the management of DED has also been discussed. The compelling evidence suggests that it would be clinically beneficial to consider the possibility of hormonal imbalances and their impact while treating patients with DED.
Journal Article
Benzalkonium chloride-induced dry eye disease animal models: Current understanding and potential for translational research
Dry eye disease (DED) is an emerging health issue affecting people worldwide. There have been rapid advances in the development of novel molecules and targeted therapies for the treatment of DED in the recent past. For testing and optimizing these therapies, it is necessary to have reliable experimental animal models of DED. One such approach is the use of benzalkonium chloride (BAC). Several BAC-induced DED models of rabbits and mice have been described in literature. BAC induces high levels of proinflammatory cytokines in the cornea and conjunctiva, along with epithelial cell apoptosis and reduction of mucins, which leads to tear film instability, thereby successfully simulating human DED. The stability of these models directs whether the treatment is to be applied while BAC is being instilled or after its cessation. In this review, we summarize the previously described BAC animal models of DED and present original data on rabbit DED models created using 0.1%, 0.15%, and 0.2% BAC administration twice daily for two consecutive weeks. The 0.2% BAC model sustained DED signs for 3 weeks, while 0.1% and 0.15% models sustained DED signs for 1-2 weeks after BAC discontinuation. Overall, these models look promising and continue to be used in various studies to investigate the efficacy of therapeutic drugs for DED treatment.
Journal Article
Heterogeneous university research and firm R&D location decisions: research orientation, academic quality, and investment type
Universities play an important role in regional development and innovation and engage with the industry through various channels. In this paper, we examine the role of heterogeneous characteristics of university research, in particular universities’ orientation towards basic or applied research and the quality of this research, in attracting firms’ R&D investment. We analyze the location decisions in the United States by foreign multinational firms at the level of metropolitan areas. We contrast research and development projects and explore whether they are driven by different factors. We find that the drivers of location choice differ importantly as a consequence of the type of the focal R&D investment of the firm. Universities with an orientation towards applied scientific research and exhibiting higher academic quality of applied research attract more R&D investment focusing on development activities. In contrast, firms’ investments in research activities are attracted by the academic quality of basic scientific research of local universities. Hence, increased university emphasis on academic engagement and applied research may have negative consequences for industrial research in the region.
Journal Article
Translational research and applied psychology in India
\"Translational research is the means by which the knowledge gained through basic scientific research can be implemented specifically for achieving a better quality of life. It seeks to provide a pathway for ideas to quickly reach the implementation stage. Translational Research has now been extended to social sciences, such as applied psychology, where focused translational research is underway in several areas, such as happiness, mental health and well-being, promoting positive cultural practices and intervention programmes. Translational Research and Applied Psychology in India focuses on research translated into real-world awareness programmes in various settings--corporate workplaces, educational, religious and social institutions, and rural areas--and even web-based interventions that are facilitating improvement in people's daily lives. This comprehensive overview of theoretical frameworks and programmes will help further functional knowledge and identify barriers between theory, practice and policy, besides bridging those barriers. This edited book is of critical importance due to the ever-increasing socio-economic differences and other related disparities that lead to ever-widening gaps in healthcare access and other such public concerns. Kamlesh Singh is Associate Professor at the Department of Humanities and Social Sciences, Indian Institute of Technology (IIT) Delhi. Suman Sigroha is Assistant Professor at the School of Humanities and Social Sciences, IIT Mandi, Himachal Pradesh\"-- Provided by publisher.
Book
Tear proteomics in dry eye disease
Dry eye disease (DED) is a multi-factorial ocular surface condition driven by compromised ocular lubrication and inflammation which leads to itching, dryness, and vision impairment. The available treatment modalities primarily target the acquired symptoms of DED including tear film supplements, anti-inflammatory drugs, mucin secretagogues, etc., However, the underlying etiology is still an area of active research, especially in regard to the diverse etiology and symptoms. Proteomics is a robust approach that has been playing major role in understanding the causative mechanism and biochemical changes in DED by identifying the changes in protein expression profile in tears. Tears are a complex fluid composed of several biomolecules such as proteins, peptides, lipids, mucins, and metabolites secreted from lacrimal gland, meibomian gland, cornea, and vascular sources. Over the past two decades, tears have emerged as a bona-fide source for biomarker identification in many ocular conditions because of the minimally invasive and simple sample collection procedure. However, the tear proteome can be altered by several factors, which increases the complexity of the approach. The recent advancements in untargeted mass spectrometry-based proteomics could overcome such shortcomings. Also, these technological advancements help to distinguish the DED profiles based on its association with other complications such as Sjogren's syndrome, rheumatoid arthritis, diabetes, and meibomian gland dysfunction. This review summarizes the important molecular profiles found in proteomics studies to be altered in DED which have added to the understanding of its pathogenesis.
Journal Article