Affiliation:
1. Centre for Advanced Imaging The University of Queensland St Lucia QLD 4067 Australia
2. School of Chemistry and Molecular Biosciences The University of Queensland St Lucia QLD 4067 Australia
Abstract
AbstractResearch into mechanisms and potential applications of nanomaterials in medicine has expanded steadily in recent decades, with increasing translational focus. Development costs, including for clinical trials, are often cited as factors limiting the translational viability of novel nanomedicines, especially compared to small new molecular entities (NMEs) and therapeutic biologics. Yet, to date, there has been no systematic investigation into the clinical programs or costs of translating and commercializing nanomedicines, nor a comparison to NMEs and therapeutic biologics, to support these claims. Here, nanomedicines approved by the United States Food and Drug Administration's Center for Drug Evaluation and Research (CDER) from 2011 to 2023 are systematically identified and categorized. Nanomedicines were identified as formulations where submicron particle size contributes to product function. Like biologics and NMEs, nanomedicines are most frequently approved for oncological indications. Notably, all anti‐cancer nanomedicines are indicated to treat orphan diseases, which is representative of the potential for nanomedicines to occupy pharmaceutical niches in treating diseases affecting smaller patient cohorts. The median estimated cost of pivotal trials for nanomedicines is 47% that of biologics and NMEs approved in the same timeframe. The findings indicate higher manufacturing costs in nanomedicine development may be mitigated by savings elsewhere, increasing translational viability.
Funder
Australian Research Council