Magnetic microrobots with folate targeting for drug delivery

M Ye, Y Zhou, H Zhao, X Wang - Cyborg and Bionic Systems, 2023 - spj.science.org
M Ye, Y Zhou, H Zhao, X Wang
Cyborg and Bionic Systems, 2023spj.science.org
Untethered microrobots can be used for cargo delivery (eg, drug molecules, stem cells, and
genes) targeting designated areas. However, it is not enough to just reach the lesion site, as
some drugs can only play the best therapeutic effect within the cells. To this end, folic acid
(FA) was introduced into microrobots in this work as a key to mediate endocytosis of drugs
into cells. The microrobots here were fabricated with biodegradable gelatin methacryloyl
(GelMA) and modified with magnetic metal–organic framework (MOF). The porous structure …
Untethered microrobots can be used for cargo delivery (e.g., drug molecules, stem cells, and genes) targeting designated areas. However, it is not enough to just reach the lesion site, as some drugs can only play the best therapeutic effect within the cells. To this end, folic acid (FA) was introduced into microrobots in this work as a key to mediate endocytosis of drugs into cells. The microrobots here were fabricated with biodegradable gelatin methacryloyl (GelMA) and modified with magnetic metal–organic framework (MOF). The porous structure of MOF and the hydrogel network of polymerized GelMA were used for the loading of enough FA and anticancer drug doxorubicin (DOX) respectively. Utilizing the magnetic property of magnetic MOF, these microrobots can gather around the lesion site with the navigation of magnetic fields. The combination effects of FA targeting and magnetic navigation substantially improve the anticancer efficiency of these microrobots. The result shows that the cancer cells inhibition rate of microrobots with FA can be up to 93%, while that of the ones without FA was only 78%. The introduction of FA is a useful method to improve the drug transportation ability of microrobots, providing a meaningful reference for further research.
AAAS
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