Magnetically actuated intelligent hydrogel-based child-parent microrobots for targeted drug delivery.

Weinan Chen, Yongbing Wen, Xinjian Fan, Mengmeng Sun, Chenyao Tian, Mingxuan Yang, Hui Xie

Journal of materials chemistry. B 2021 Jan 28

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Small intestine-targeted drug delivery by oral administration has aroused the growing interest of researchers. In this work, the child-parent microrobot (CPM) as a vehicle protects the child microrobots (CMs) under a gastric acid environment and releases them in the small intestinal environment. The intelligent hydrogel-based CPMs with sphere, mushroom, red blood cell, and teardrop shapes are fabricated by an extrusion-dripping method. The CPMs package uniform CMs, which are fabricated by designed microfluidic (MF) devices. The fabrication mechanism and tunability of CMs and CPMs with different sizes and shapes are analyzed, modeled, and simulated. The shape of CPM can affect its drug release efficiency and kinetic characteristics. A vision-feedback magnetic driving system (VMDS) actuates and navigates CPM along the predefined path to the destination and continuously releases drug in the simulated intestinal fluid (SIF, a low Reynolds number (Re) regime) using a new motion control method with the tracking-learning-detection (TLD) algorithm. The newly designed CPM combines the advantages of powerful propulsion, good biocompatibility, and remarkable drug loading and release capacity at the intestinal level, which is expected to be competent for oral administration of small intestine-targeted therapy in the future.

Citation

Weinan Chen, Yongbing Wen, Xinjian Fan, Mengmeng Sun, Chenyao Tian, Mingxuan Yang, Hui Xie. Magnetically actuated intelligent hydrogel-based child-parent microrobots for targeted drug delivery. Journal of materials chemistry. B. 2021 Jan 28;9(4):1030-1039