The research team developed a novel approach by selecting eight HIV-derived peptide microarrays to create microparticles equipped with motility proteins, enabling them to move across cell surfaces. These particles utilize the granulating properties of the peptides and the characteristics of phagocytic substances, allowing them to effectively enter the target cells. This breakthrough offers a new way to deliver therapeutic agents directly into cells without the need for high drug concentrations, which are typically required in current cancer treatments and often lead to harmful side effects.
This technology could significantly improve drug delivery efficiency by using nanoparticles to transport medicines directly to cancer cells. However, more studies are needed to optimize the process of delivering these microparticles precisely to their intended targets. The team is excited about the potential applications of this discovery, as it could pave the way for the development of various nano-particles, nano-microcapsules, and advanced high-molecular drugs. Their long-term goal is to advance cancer treatment and regenerative medicine by making targeted drug delivery more precise and effective. With further refinement, this method may revolutionize how we treat diseases at the cellular level.
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