| Literature DB >> 32129011 |
Seungmin Lee1, Jin-Young Kim1, Junyoung Kim1, Ali Kafash Hoshiar2, Jongeon Park1, Sunkey Lee1, Jonghyun Kim3, Salvador Pané4, Bradley J Nelson4, Hongsoo Choi1.
Abstract
A needle-type microrobot (MR) for targeted drug delivery is developed to stably deliver drugs to a target microtissue (MT) for a given period time without the need for an external force after affixing. The MRs are fabricatedby 3D laser lithography and nickel (Ni)/titanium oxide (TiO2 ) layers are coated by physical vapor deposition. The translational velocity of the MR is 714 µm s-1 at 20 mT and affixed to the target MT under the control of a rotating magnetic field. The manipulability of the MR is shown by using both manual and automatic controls. Finally, drug release from the paclitaxel-loaded MR is characterized to determine the efficiency of targeted drug delivery. This study demonstrates the utility of the proposed needle-type MR for targeted drug delivery to MT with various flow rates in vitro physiological fluidic environments.Entities:
Keywords: drug delivery; fixation; magnetic manipulation; microrobots; targeted drug delivery
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Year: 2020 PMID: 32129011 DOI: 10.1002/adhm.201901697
Source DB: PubMed Journal: Adv Healthc Mater ISSN: 2192-2640 Impact factor: 9.933