Emerging drugs for the treatment of glaucoma: a review of phase II & III trials

Green-Light-Triggered and Self-Calibrated Cascade Release of Nitric Oxide and Carbon Monoxide for Synergistic Glaucoma Therapy

Glaucoma is an optic degenerative neuropathy that is driven by a vicious cycle of oxidative stress and mechanical stress. Current clinical treatments aim exclusively at alleviating mechanical stress by reducing the intraocular pressure (IOP). With the unattended oxidative stress, recurrence and deterioration of mechanical stress are inevitable. Nitric oxide (NO) and carbon monoxide (CO) are endogenous gaseous signaling molecules for vasodilation and anti-inflammation, respectively. Mounting evidence suggests an intricate interplay between NO and CO to mediate their biological roles, like how it takes two to dance a waltz. This leads to the concept of "gas waltz therapy" for glaucoma, in which NO is released to reduce IOP and stoichiometric CO is coreleased to suppress oxidative stress. CND570 is the first phototriggered cascade NO/CO donor, to the best of our knowledge. Notably, the release of NO/CO is accompanied by the concomitant release of a rhodamine dye whose bright fluorescence is harnessed as a convenient calibration mechanism of the gas release profile. CND570 exhibits excellent transcorneal permeability and reaches the target aqueous humor outflow pathway. Further, green-light irradiation triggers release of CO and NO in the eye tissue of glaucoma mice. NO and CO could promote the upregulation of soluble guanylate cyclase (sGC) in both in vitro and in vivo models. Notably, CND570 treatment significantly reduces the oxidative stress associated with glaucoma. NO/CO-based gas waltz therapy is a promising new avenue for glaucoma treatment.

Currently available prostanoids for the treatment of glaucoma and ocular hypertension: A review

Recent advancements in prostaglandin analogs (PGAs) have reinforced their role in managing intraocular pressure (IOP). Latanoprost excels in 24-h IOP control, while various PGAs offer similar effectiveness and side effects, generic PGAs perform as well as branded ones, and a notable IOP rise observed upon PGA discontinuation. Formulations with or without preservatives show comparable IOP reduction and adherence, often surpassing benzalkonium chloride (BAK)-preserved options. Emergent PGAs, such as latanoprostene bunod, fixed-dose netarsudil combined with latanoprost, and omidenepag Isopropyl, offer enhanced or non-inferior IOP reduction. The bimatoprost implant introduces a novel administration method with effective IOP reduction. These developments underscore ongoing progress in PGA-focused ophthalmological research. This article offers a comprehensive review of available prostanoid analogs and explores new developments.

Recently Approved Drugs for Lowering and Controlling Intraocular Pressure to Reduce Vision Loss in Ocular Hypertensive and Glaucoma Patients

Serious vision loss occurs in patients affected by chronically raised intraocular pressure (IOP), a characteristic of many forms of glaucoma where damage to the optic nerve components causes progressive degeneration of retinal and brain neurons involved in visual perception. While many risk factors abound and have been validated for this glaucomatous optic neuropathy (GON), the major one is ocular hypertension (OHT), which results from the accumulation of excess aqueous humor (AQH) fluid in the anterior chamber of the eye. Millions around the world suffer from this asymptomatic and progressive degenerative eye disease. Since clinical evidence has revealed a strong correlation between the reduction in elevated IOP/OHT and GON progression, many drugs, devices, and surgical techniques have been developed to lower and control IOP. The constant quest for new pharmaceuticals and other modalities with superior therapeutic indices has recently yielded health authority-approved novel drugs with unique pharmacological signatures and mechanism(s) of action and AQH drainage microdevices for effectively and durably treating OHT. A unique nitric oxide-donating conjugate of latanoprost, an FP-receptor prostaglandin (PG; latanoprostene bunod), new rho kinase inhibitors (ripasudil; netarsudil), a novel non-PG EP2-receptor-selective agonist (omidenepag isopropyl), and a form of FP-receptor PG in a slow-release intracameral implant (Durysta) represent the additions to the pharmaceutical toolchest to mitigate the ravages of OHT. Despite these advances, early diagnosis of OHT and glaucoma still lags behind and would benefit from further concerted effort and attention.