posted on 2023-05-22, 14:40authored byHyoryong Lee, Sukho Park
Cancer is one of the diseases with high mortality worldwide.
Various
methods for cancer treatment are being developed, and among them,
magnetically driven microrobots capable of minimally invasive surgery
and accurate targeting are in the spotlight. However, existing medical
magnetically manipulated microrobots contain magnetic nanoparticles
(MNPs), which can cause toxicity to normal cells after the delivery
of therapeutic drugs. In addition, there is a limitation in that cancer
cells become resistant to the drug by mainly delivering only one drug,
thereby reducing the treatment efficiency. In this paper, to overcome
these limitations, we propose a microrobot that can separate/retrieve
MNPs after precise targeting of the microrobot and can sequentially
deliver dual drugs (gemcitabine (GEM) and doxorubicin (DOX)). First,
after the proposed microrobot targeting, MNPs attached to the microrobot
surface can be separated from the microrobot using focused ultrasound
(FUS) and retrieved through an external magnetic field. Second, the
active release of the first conjugated drug GEM to the surface of
the microrobot is possible using near-infrared (NIR), and as the microrobot
slowly decomposes over time, the release of the second encapsulated
DOX is possible. Therefore, it is possible to increase the cancer
cell treatment efficiency with sequential dual drugs in the microrobot.
We performed basic experiments on the targeting of the proposed magnetically
manipulated microrobot, separation/retrieval of MNPs, and the sequential
dual-drug release and validated the performances of the microrobot
through in vitro experiments using the EMA/FUS/NIR
integrated system. As a result, the proposed microrobot is expected
to be used as one of the methods to improve cancer cell treatment
efficiency by improving the limitations of existing microrobots in
cancer cell treatment.