Abstract
Modern retinal drug therapy is a result of the recent challenges and breakthroughs in chemistry, physics, genetics, cell biology and biotechnologies. Specific pharmaceutical and pharmacokinetic characteristics of a drug are of major importance and contribute to its ability to penetrate targeted ocular tissues in order to result in effective therapeutic concentrations. In addition, the drugs should maintain a prolonged time of activity and be safe with minimal local and systemic toxicity. The transporter vehicle or drug delivery system is crucial in order to enhance ocular tissue penetration and establish controlled drug release. Administration methods should be local, thereby reducing systemic side effects, and, ideally, treatment should be noninvasive. Within the group of so-called classic therapies, the use of pharmacologic treatments has become widespread for most severe retinal diseases. Thereby, ocular therapy of diseases like exudative age-related macular degeneration has improved markedly. Moreover, new metabolic pathways have been identified, new molecules have emerged, new synthesis technologies have been discovered, and new formulae conceived. These developments have opened new avenues for limiting disease progression.
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