This article provides a comprehensive overview of clinical trial design and regulatory pathways essential for drug development, specifically in the context of retinal diseases. Key concepts include trial structure, efficacy and safety endpoints, and regulatory expectations from agencies like the FDA. It delves into recent regulatory advancements, such as the inclusion of low-luminance vision as a secondary endpoint and analyses case studies from age-related macular degeneration (AMD) trials. Approvals for key retinal drugs, such as ranibizumab and aflibercept, treatments for AMD and diabetic macular oedema, are discussed highlighting criteria like the 15-letter gain/loss in visual acuity as approvable/clinical meaningful efficacy endpoints. Insights into geographic atrophy (GA) and diabetic retinopathy trials showcase the evolving landscape, where anatomical endpoints and new drugs bring fresh challenges and opportunities. It also emphasizes the importance of academic-industry collaboration, citing instances of gene therapy development and innovative endpoint measures like the Multi-Luminance Mobility Test for retinal dystrophies. The overarching aim of this lecture was to demystify the process that spans the design of clinical trials to regulatory approval of drugs so that clinicians understand these complexities. In particular, it is important to understand the reasons behind selection of trial design, inclusion and exclusion criteria, primary and secondary efficacy endpoints and safety endpoints. Since this lecture, there have been important changes in this field including new guidance from the Food and Drug Administration (FDA) as well as lessons learnt from recent drug approvals that are included in this manuscript.
© 2024. The Author(s).