Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct
The magnetic microrobots promise benefits in minimally invasive cell-based therapy. However, they generally suffer from an inevitable compromise between their magnetic responsiveness and biomedical functions. Herein, we report a modularized microrobot consisting of magnetic actuation (MA) and cell s...
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sg-ntu-dr.10356-1736802024-02-25T15:37:52Z Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct Su, Lin Jin, Dongdong Wang, Yuqiong Wang, Qinglong Pan, Chengfeng Jiang, Shuai Yang, Haojin Yang, Zhengxin Wang, Xin Xia, Neng Chan, Kai Fung Chiu, Philip Wai Yan Sung, Joseph Jao Yiu Zhang, Li Lee Kong Chian School of Medicine (LKCMedicine) Medicine, Health and Life Sciences Cell-based therapy Microrobots The magnetic microrobots promise benefits in minimally invasive cell-based therapy. However, they generally suffer from an inevitable compromise between their magnetic responsiveness and biomedical functions. Herein, we report a modularized microrobot consisting of magnetic actuation (MA) and cell scaffold (CS) modules. The MA module with strong magnetism and pH-responsive deformability and the CS module with cell loading-release capabilities were fabricated by three-dimensional printing technique. Subsequently, assembly of modules was performed by designing a shaft-hole structure and customizing their relative dimensions, which enabled magnetic navigation in complex environments, while not deteriorating the cellular functionalities. On-demand disassembly at targeted lesion was then realized to facilitate CS module delivery and retrieval of the MA module. Furthermore, the feasibility of proposed system was validated in an in vivo rabbit bile duct. Therefore, this work presents a modular design-based strategy that enables uncompromised fabrication of multifunctional microrobots and stimulates their development for future cell-based therapy. Published version This work was supported by the Hong Kong Research Grants Council (RGC) with project nos. RFS2122-4S03, R4015-21, JLFS/E-402/18, C1134-20GF, and E-CUHK401/20; the ITF project with project no. MRP/036/18X funded by the HKSAR Innovation and Technology Commission (ITC), the Croucher Foundation Grant with ref. no. CAS20403, and the CUHK internal grants. D.J. thanks the support from the National Natural Science Foundation of China (52202348), the Guangdong Basic and Applied Basic Research Foundation (2023A1515011491), and the Shenzhen Science and Technology Program (GXWD20220818224716001). 2024-02-21T08:32:51Z 2024-02-21T08:32:51Z 2023 Journal Article Su, L., Jin, D., Wang, Y., Wang, Q., Pan, C., Jiang, S., Yang, H., Yang, Z., Wang, X., Xia, N., Chan, K. F., Chiu, P. W. Y., Sung, J. J. Y. & Zhang, L. (2023). Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct. Science Advances, 9(50), eadj0883-. https://dx.doi.org/10.1126/sciadv.adj0883 2375-2548 https://hdl.handle.net/10356/173680 10.1126/sciadv.adj0883 38100592 2-s2.0-85179902705 50 9 eadj0883 en Science Advances © 2023 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). application/pdf |
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Medicine, Health and Life Sciences Cell-based therapy Microrobots |
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Medicine, Health and Life Sciences Cell-based therapy Microrobots Su, Lin Jin, Dongdong Wang, Yuqiong Wang, Qinglong Pan, Chengfeng Jiang, Shuai Yang, Haojin Yang, Zhengxin Wang, Xin Xia, Neng Chan, Kai Fung Chiu, Philip Wai Yan Sung, Joseph Jao Yiu Zhang, Li Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct |
| description |
The magnetic microrobots promise benefits in minimally invasive cell-based therapy. However, they generally suffer from an inevitable compromise between their magnetic responsiveness and biomedical functions. Herein, we report a modularized microrobot consisting of magnetic actuation (MA) and cell scaffold (CS) modules. The MA module with strong magnetism and pH-responsive deformability and the CS module with cell loading-release capabilities were fabricated by three-dimensional printing technique. Subsequently, assembly of modules was performed by designing a shaft-hole structure and customizing their relative dimensions, which enabled magnetic navigation in complex environments, while not deteriorating the cellular functionalities. On-demand disassembly at targeted lesion was then realized to facilitate CS module delivery and retrieval of the MA module. Furthermore, the feasibility of proposed system was validated in an in vivo rabbit bile duct. Therefore, this work presents a modular design-based strategy that enables uncompromised fabrication of multifunctional microrobots and stimulates their development for future cell-based therapy. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Su, Lin Jin, Dongdong Wang, Yuqiong Wang, Qinglong Pan, Chengfeng Jiang, Shuai Yang, Haojin Yang, Zhengxin Wang, Xin Xia, Neng Chan, Kai Fung Chiu, Philip Wai Yan Sung, Joseph Jao Yiu Zhang, Li |
| format |
Article |
| author |
Su, Lin Jin, Dongdong Wang, Yuqiong Wang, Qinglong Pan, Chengfeng Jiang, Shuai Yang, Haojin Yang, Zhengxin Wang, Xin Xia, Neng Chan, Kai Fung Chiu, Philip Wai Yan Sung, Joseph Jao Yiu Zhang, Li |
| author_sort |
Su, Lin |
| title |
Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct |
| title_short |
Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct |
| title_full |
Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct |
| title_fullStr |
Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct |
| title_full_unstemmed |
Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct |
| title_sort |
modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173680 |
| _version_ |
1794549288625242112 |