Search Results (134)

Gene therapy has emerged as a promising treatment for several eye diseases since it may restore vision and stop blindness. Many eye diseases, including retinitis pigmentosa and macular degeneration, have historically been rather difficult to treat and usually cause permanent vision loss. However, thanks to advances in gene therapy, many disorders can now be effectively targeted and genetically changed, providing a safer, more direct, maybe even curative approach. By introducing, altering, or repairing specific genes inside the eye, gene therapy seeks to fix the defective genes causing these disorders, thereby improving general eye health and visual ability. Voretigene neparvovec is one FDA- and EMA-approved treatment for RPE65 mutations. Retinitis pigmentosa, age-related macular degeneration, X-linked retinoschisis, choroideremia, and Stargardt disease are among the several eye disorders still under clinical trials, and experimental treatment is in progress. As research on gene therapy develops, it opens the path for groundbreaking treatments that could fundamentally change the ophthalmic care scene. Full article

Ocular flutter is an uncommon ophthalmic finding that may indicate paraneoplastic phenomena, and it is clinically characterized by intermittent bursts of conjugate, horizontal saccades without an intersaccadic interval. Ocular flutter must be differentiated from opsoclonus, which, although also characteristic of certain paraneoplastic syndromes, is instead defined by multidirectional saccades on both the horizontal and vertical planes. This report describes a very rare presentation of anti-Ri syndrome in a patient with an undiagnosed breast cancer, presenting with ocular flutter, dizziness, blurred vision, photophobia, and vomiting. Comprehensive evaluations, including contrast-enhanced brain Magnetic Resonance Imaging (MRI), brain Computed Tomography (CT) scan, ophthalmological assessment, viral serology, complete blood count and thyroid, renal coagulation, hepatic function assessments, vitamin D and B12 levels, were all normal. Upon excluding other potential etiologies for the neurological symptoms, a paraneoplastic origin was considered. Serological tests confirmed the presence of anti-Ri onconeural antibodies, and a whole-body CT scan identified nodules in the right breast. Despite surgical excision of the primary tumor and subsequent medical therapy, there was no improvement in the neurological symptoms. Follow-up evaluations at 2 months, 6 months, 1 year and 2 years revealed persistent vestibular and neurological symptoms, with serum tests remaining positive for anti-Ri antibodies and no clinical or radiological evidence of neoplastic recurrence. Full article

Diabetic retinopathy (DR) is a leading cause of vision loss in patients with diabetes. While medical treatments like retinal laser photocoagulation, anti-VEGF therapy, and vitrectomy are primary, complementary therapies are gaining increasing attention. Based on the existing literature, a healthy lifestyle, including a balanced diet, stress management techniques, and regular physical activity targeting DR, can help regulate blood sugar levels and improve overall physical and mental health to reduce complications. This article explores physical activities and visual training methods related to DR, emphasizing complementary therapies, even though some of these practices are currently not fully integrated into evidence-based ophthalmology. Low vision exercises and aids help patients make the most of their remaining vision, improving their ability to perform everyday tasks, reducing the impact of vision loss, and promoting independence. There is some evidence that eye-related physiotherapy can improve the quality of life for patients with DR, although selection bias cannot be excluded in the presented studies. Consistent physical activity promotes holistic health, and therapies should be regularly monitored by ophthalmologists. This review further helps integrative healthcare professionals in offering appropriate therapies for rehabilitation purposes in the treatment of ophthalmic diseases, particularly DR. Full article

Nociceptors respond to noxious stimuli and transmit pain signals to the central nervous system. In the cornea, the nociceptors located in the most external layer provide a myriad of sensation modalities. Damage to these corneal nerve fibers can induce neuropathic pain. In response, corneal nerves become sensitized to previously non-noxious stimuli. Assessing corneal pain origin is a complex ophthalmic challenge due to variations in its causes and manifestations. Current FDA-approved therapies for corneal nociceptive pain, such as acetaminophen and NSAIDs, provide only broad-acting relief with unwanted side effects, highlighting the need for precision medicine for corneal nociceptive pain. A few targeted treatments, including perfluorohexyloctane (F6H8) eye drops and Optive Plus (TRPV1 antagonist), are FDA-approved, while others are in preclinical development. Treatments that target signaling pathways related to neurotrophic factors, such as nerve growth factors and ion channels, such as the transient receptor potential (TRP) family or tropomyosin receptor kinase A, may provide a potential combinatory therapeutic approach. This review describes the roles of nociceptors in corneal pain. In addition, it evaluates molecules within nociceptor signaling pathways for their potential to serve as targets for efficient therapeutic strategies for corneal nociceptive pain aimed at modulating neurotrophic factors and nociceptive channel sensitivity. Full article

Optical coherence tomography angiography (OCTA) is a noninvasive imaging technique used to visualize retinal blood flow and identify changes in vascular density and enlargement or distortion of the foveal avascular zone (FAZ), which are indicators of various eye diseases. Although several automated FAZ detection and segmentation algorithms have been developed for use with OCTA, their performance can vary significantly due to differences in data accessibility of OCTA in different retinal pathologies, and differences in image quality in different subjects and/or different OCTA devices. For example, data from subjects with direct macular damage, such as in age-related macular degeneration (AMD), are more readily available in eye clinics, while data on macular damage due to systemic diseases like Alzheimer’s disease are often less accessible; data from healthy subjects may have better OCTA quality than subjects with ophthalmic pathologies. Typically, segmentation algorithms make use of convolutional neural networks and, more recently, vision transformers, which make use of both long-range context and fine-grained detail. However, transformers are known to be data-hungry, and may overfit small datasets, such as those common for FAZ segmentation in OCTA, to which there is limited access in clinical practice. To improve model generalization in low-data or imbalanced settings, we propose a multi-condition transformer-based architecture that uses four teacher encoders to distill knowledge into a shared base model, enabling the transfer of learned features across multiple datasets. These include intra-modality distillation using OCTA datasets from four ocular conditions: healthy aging eyes, Alzheimer’s disease, AMD, and diabetic retinopathy; and inter-modality distillation incorporating color fundus photographs of subjects undergoing laser photocoagulation therapy. Our multi-condition model achieved a mean Dice Index of 83.8% with pretraining, outperforming single-condition models (mean of 83.1%) across all conditions. Pretraining on color fundus photocoagulation images improved the average Dice Index by a small margin on all conditions except AMD (1.1% on single-condition models, and 0.1% on multi-condition models). Our architecture demonstrates potential for broader applications in detecting and analyzing ophthalmic and systemic diseases across diverse imaging datasets and settings. Full article

Biallelic pathogenic variants in the CRB1 gene are associated with severe retinal dystrophies, including early onset severe retinal dystrophy/Leber congenital amaurosis (EOSRD/LCA), retinitis pigmentosa (RP), cone–rod dystrophy (CORD), and macular dystrophy (MD). Despite growing research, scant genotype–phenotype correlations have been established. Here, we present two cases involving individuals that presented with cystoid macular oedema and high intraocular pressure, which were later diagnosed as CRB1-MD, demonstrating a mild and stable phenotype. Two unrelated patients of African heritage were included, a 7-year-old female (case 1) and a 25-year-old female (case 2), both presenting with ocular hypertension and cystoid macular oedema. Case 2 had a history of bilateral plateau iris, treated with laser iridotomy. Baseline visual acuity for case 1 was 0.66 logMAR in the right eye and 0.54 logMAR in the left eye. For case 2, visual acuity was recorded as 0.30 logMAR in both eyes. Genetic testing confirmed a homozygous c.2506C>A p.(Pro836Thr) variant in the CRB1 gene in both cases. Longitudinal follow-up over seven years revealed stable visual acuity, improvement of cystoid macular oedema, and effective intraocular pressure control with topical ocular hypotensive therapy. This study establishes a novel genotype–phenotype correlation between the c.2506C>A p.(Pro836Thr) variant and MD, suggesting a mild, stable disease course in homozygous cases. The findings also highlight a potential association of this variant with elevated IOP, expanding the clinical spectrum of CRB1-related ocular conditions. Early genetic diagnosis and regular ophthalmic monitoring are essential to optimise management and identify therapeutic opportunities in patients with mild CRB1-related phenotypes. Full article

Cyclodextrins (CDs) have revolutionized the pharmaceutical industry with their ability to enhance the stability, solubility, and bioavailability of a wide range of active substances. These cyclic oligosaccharides, with a unique hydrophilic exterior and hydrophobic cavity, form inclusion complexes with poorly soluble drugs, improving their pharmacokinetic profiles and therapeutic efficacy. This review explores the multifaceted roles of cyclodextrins in pharmaceutical formulations, ranging from oral, ophthalmic, parenteral, and topical applications to their emerging use in targeted therapies, gene delivery, and treatment of neurodegenerative, cardiovascular, and infectious diseases. Cyclodextrins not only improve drug solubility and controlled release but also reduce toxicity and side effects, leading to safer and more effective treatments. Recent advancements, such as cyclodextrin-based nanoparticles, offer promising pathways for cancer therapy, chronic disease management, and personalized medicine. As research continues, cyclodextrins remain at the forefront of innovation in drug delivery systems, ensuring better patient outcomes and expanding the possibilities of modern therapeutics. Full article

Ophthalmic diseases such as glaucoma, age-related macular degeneration (ARMD), and optic neuritis involve complex molecular and cellular disruptions that challenge current diagnostic and therapeutic approaches. Advanced artificial intelligence (AI) and machine learning (ML) models offer a novel lens to analyze these diseases by integrating diverse datasets, identifying patterns, and enabling precision medicine strategies. Over the past decade, applications of AI in ophthalmology have expanded from imaging-based diagnostics to molecular-level modeling, bridging critical gaps in understanding disease mechanisms. This paper systematically reviews the application of AI-driven methods, including reinforcement learning (RL), graph neural networks (GNNs), Bayesian inference, and generative adversarial networks (GANs), in the context of these ophthalmic conditions. RL models simulate transcription factor dynamics in hypoxic or inflammatory environments, offering insights into disrupted molecular pathways. GNNs map intricate molecular networks within affected tissues, identifying key inflammatory or degenerative drivers. Bayesian inference provides probabilistic models for predicting disease progression and response to therapies, while GANs generate synthetic datasets to explore therapeutic interventions. By contextualizing these AI tools within the broader framework of ophthalmic disease management, this review highlights their potential to transform diagnostic precision and therapeutic outcomes. Ultimately, this work underscores the need for continued interdisciplinary collaboration to harness AI’s potential in advancing the field of ophthalmology and improving patient care. Full article

The topical administration of in situ hydrogels for ocular pathologies is a promising application strategy for providing high effectiveness and patient compliance. Curcumin, a natural polyphenol, possesses all the prerequisites for successful therapy of ophthalmic diseases, but unfortunately its physicochemical properties hurdle the practical use. Applying a composite in situ thermoresponsive hydrogel formulation embedded with polymer nanoparticles is a potent strategy to overcome all the identified drawbacks. In the present work we prepared uniform spherical nanoparticles (296.4 ± 3.1 nm) efficiently loaded with curcumin (EE% 82.5 ± 2.3%) based on the biocompatible and biodegradable poly-(lactic-co-glycolic acid). They were thoroughly physicochemically characterized in terms of FTIR, SEM, TGA, and DLS, in vitro release following Fickian diffusion (45.62 ± 2.37%), and stability over 6 months. Their lack of cytotoxicity was demonstrated in vitro on HaCaT cell lines, and the potential for antioxidant protection was also outlined, starting from concentrations as low as 0.1 µM and reaching 41% protection at 5 µM. An in situ thermoresponsive hydrogel (17% w/v poloxamer 407 and 0.1% Carbopol) with suitable properties for ophthalmic application was optimized with respect to gelation temperature (31.40 ± 0.36 °C), gelling time (8.99 ± 0.28 s) upon tears dilution, and gel erosion (90.75 ± 4.06%). Upon curcumin-loaded nanoparticle embedding, the in situ hydrogels demonstrated appropriate pseudoplastic behavior and viscosity at 35 °C (2129 ± 24 Pa∙s), 6-fold increase in the permeation, and prolonged release over 6 h. Full article

Background/Objectives: Aniridia is a rare congenital disorder characterized by structural and functional abnormalities in ocular development due to PAX6 haploinsufficiency, leading to complications such as aniridia-associated keratopathy (AAK). Meibomian gland dysfunction (MGD), a prevalent yet underexplored condition in aniridia, exacerbates tear film instability and chronic ocular surface inflammation, contributing to AAK progression. This study investigates the relationship between MGD severity and AAK in individuals with aniridia. Methods: This prospective randomized study included 113 participants (53 with aniridia and 60 controls). Comprehensive ophthalmic evaluations, including noninvasive meibography, were performed. The MGD severity was assessed using a standardized meiboscore scale, while the AAK severity was classified according to established clinical grading criteria. Statistical analyses, including Spearman’s correlation and chi-squared tests, were used to evaluate the relationships among MGD, AAK, and visual acuity. Results: MGD was significantly more prevalent and severe in the aniridia group compared to controls (p < 0.00001). A strong positive correlation was observed between MGD severity and AAK grade (r = 0.72, p < 0.00001), with both conditions associated with reduced best-corrected visual acuity (BCVA; r = −0.80 and −0.86, respectively, p < 0.0001). Age was positively correlated with MGD (r = 0.47, p = 0.0004) and AAK (r = 0.34, p = 0.0123), with gender-specific trends observed in females. Conclusions: MGD significantly contributes to AAK progression and visual impairment in aniridia. Meibography offers valuable insights into MGD severity, supporting early diagnosis and targeted interventions. Addressing MGD through tailored therapies could mitigate AAK progression and improve visual outcomes in this challenging condition. Full article

Ocular diseases affecting the anterior and posterior segments of the eye are major causes of global vision impairment. Curcumin, a natural polyphenol, exhibits anti-inflammatory, antioxidant, antibacterial, and neuroprotective properties, making it a promising candidate for ocular therapy. However, its clinical use is hindered by low aqueous solubility, poor bioavailability, and rapid systemic elimination. This review comprehensively highlights advances in curcumin delivery systems aimed at overcoming these challenges. Emerging platforms, including proniosomal gels, transferosomes, and cyclodextrin complexes, have improved solubility, permeability, and ocular retention. Nanoparticle-based carriers, such as hybrid hydrogels and biodegradable nanoparticles, enable sustained release and targeted delivery, supporting treatments for posterior segment diseases like diabetic retinopathy and age-related macular degeneration. For anterior segment conditions, including keratitis and dry eye syndrome, cyclodextrin-based complexes and mucoadhesive systems enhance corneal permeability and drug retention. Mechanistically, curcumin modulates key pathways, such as NF-κB and TLR4, reducing oxidative stress, angiogenesis, and apoptosis. Emerging strategies like photodynamic therapy and neuroprotective approaches broaden their application to eyelid conditions and neuroinflammatory ocular diseases. These advancements address curcumin’s pharmacokinetic limitations, supporting its clinical translation into ophthalmic therapies. This work underscores curcumin’s potential in ocular disease management and advocates clinical trials to validate its safety, efficacy, and therapeutic relevance. Full article

Corneal injury is prevalent in ophthalmology, with mild cases impacting vision and severe cases potentially resulting in permanent blindness. In clinical practice, standard treatments for corneal injury involve transplantation surgery combined with pharmacological therapy. However, surgical sutures exhibit several limitations, which can be overcome using tissue adhesives. With recent advances in biomedical materials, the use of ophthalmic tissue adhesives has expanded beyond wound closure, including tissue filling and drug delivery. Furthermore, the use of tissue adhesives has demonstrated promising outcomes in drug delivery, ophthalmic disease diagnosis, and biological scaffolds. This study briefly introduces common adhesion mechanisms and their applications in ophthalmology, aiming to increase interest in tissue adhesives and clinical ophthalmic treatment. Full article

Background: Immunotherapy represents a revolutionary approach in cancer treatment, where it leverages the body’s immune system to target and destroy malignant cells. In ophthalmic oncology, immunotherapeutic agents offer potential for managing traditionally challenging ocular malignancies, such as melanoma and retinoblastoma. In this literature review, we aim to provide a comprehensive and up-to-date review of all current research and trends in this field. Methods: This literature reviews data from recent clinical trials, peer-reviewed articles, and meta-analyses focused on immunotherapeutic interventions for eye-related cancers. Emphasis is placed on the types of immunotherapies being tested, including checkpoint inhibitors, vaccine therapies, and adoptive cell transfer therapies. Results: Recent advancements indicate a growing and significant improvement in survival rates and tumor reduction with minimal adverse effects. Clinical trials focusing on melanoma show significant promise with targeted therapies, while early-stage investigations into retinoblastoma and conjunctival melanoma explore innovative approaches to harness the immune system without harming visual function. Conclusions: Immunotherapy in ophthalmic oncology is evolving rapidly and has demonstrated a remarkable potential as a primary treatment strategy. Although results from various clinical trials are promising, further research is needed to refine these therapies, minimize side effects, and improve overall patient outcomes. The future directions involve more comprehensive clinical trials that integrate immunotherapy with existing treatment modalities to establish more robust treatment protocols. Full article

Immune checkpoint inhibitors (ICIs) have revolutionized cancer treatment, offering significant improvements in patient survival across various malignancies. However, their use is associated with a broad spectrum of immune-related adverse events (irAEs), including those affecting the eye and its surrounding structures, collectively termed ocular irAEs (OirAEs). Although rare, OirAEs (e.g., keratitis, uveitis, retinal vasculitis, etc.) can significantly impact a patient’s quality of life, leading to ocular complications if left untreated. This review provides a comprehensive overview of OirAEs associated with ICIs, including their clinical manifestations, underlying mechanisms, and current management strategies. We delve into the anterior and posterior segment adverse events, highlighting conditions such as dry eye, uveitis, and retinal disorders, as well as neuro-ophthalmic and orbital complications. Furthermore, we discuss the challenges in diagnosing and treating these conditions, particularly given the overlap with other autoimmune and paraneoplastic syndromes. Finally, we identify key knowledge gaps and suggest future research directions aimed at optimizing the management of OirAEs while maintaining the efficacy of cancer therapy. This review underscores the need for increased awareness among clinicians to prevent irreversible ocular damage and enhance patient outcomes. Full article

Fungal keratitis (FK), a severe eye infection that leads to vision impairment and blindness, poses a high risk to contact lens users, and Candida albicans remains the most common underpinning fungal pathogen in temperate climates. Patients are initially treated empirically (econazole 1% drops hourly for 24–48 h), and if there is no response, amphotericin B (AmB) 0.15% eye drops (extemporaneously manufactured to be stable for a week) are the gold-standard treatment. Here, we aim to develop a sustained-release AmB ocular film to treat FK with an enhanced corneal retention time. As there is a paucity of reliable in vitro models to evaluate ocular drug release and antifungal efficacy under flow, we developed a 3D-printed microfluidic device based on four chambers stacked in parallel, in which lenses previously inoculated with a C. albicans suspension were placed. Under the flow of a physiological fluid over 24 h, the release from the AmB-loaded film that was placed dry onto the surface of the wetted contact lenses was quantified, and their antifungal activity was assessed. AmB sodium deoxycholate micelle (dimeric form) was mixed with sodium alginate and hyaluronic acid (3:1 w/w) and cast into films (0.48 or 2.4%), which showed sustained release over 24 h and resulted in a 1.23-fold reduction and a 5.7-fold reduction in CFU/mL of C. albicans, respectively. This study demonstrates that the sustained delivery of dimeric AmB can be used for the treatment of FK and provides a facile in vitro microfluidic model for the development and testing of ophthalmic antimicrobial therapies. Full article