In recent years, scientists have been exploring the use of renewable polymers derived from natural sources. Materials such as vegetable cellulose, bacterial cellulose, chitosan, and starch offer attractive properties for biomedical applications, especially in controlled drug release systems and regenerative medicine. However, despite their potential, many of these polymers still face significant challenges in reaching commercialization.
The study conducted by Lopes et al. points out that despite advances, only a few natural polymers have become available on the market. The research emphasizes the importance of chemical modification and preparation strategies to improve the properties of these materials for clinical applications consequently.
An interesting finding of the study is that, despite the promising properties of these renewable polymers, the path from the bench to the market remains challenging. This is due to factors such as the need to ensure the safety, efficacy, and economic viability of these materials before their widespread adoption.
As such, this study aims to provide a comprehensive overview of the properties and potential of renewable polymers for biomedical applications, highlighting the routes from the laboratory to the market and the prospects for future developments. Addressing these aspects is hoped to contribute to the advancement and applicability of these sustainable materials in biomedical practice.
