Microrobotic copper-rich electrochemical interfacing for targeted cancer theranostics in the gut
Junghwan Byun, Siyeon Jang, Yingdan Wu, Jiwoong Choi, Ugur Bozuyuk, Junghyeon Ko, Alp Can Karacakol, Eun Hye Kim, Sungwoo Chun, Amirreza Aghakhani, Seungjun Chung, Jiachen Zhang, Yoosoo Yang, Metin Sitti

TL;DR
A soft microrobot delivers copper ions to gut tumors, triggering cell death and offering a new approach for targeted cancer treatment.
Contribution
A functionally integrated microrobot that induces cuproptosis through localized electrochemical interfacing in gastrointestinal tumors.
Findings
The microrobot generates electric fields and releases Cu2+ ions, increasing local copper concentration by ~104-fold.
The device enables effective tumor penetration and cuproptotic cancer treatment beyond passive diffusion.
In vivo demonstrations show tumor eradication in mice and long-range targeting in porcine organs.
Abstract
The exquisite spatiotemporal regulation of drug biodistribution is paramount for optimal targeted cancer theranostics. Robotic ingestible devices promise to reinvent the way drugs interact with gastrointestinal (GI) tissues and malignant tumors. However, no study has yet demonstrated theranostic functions beyond merely conveying synthetic drugs. Here, we present an orally administrable, functionally integrated soft microrobot capable of localized therapeutic regulation of copper (Cu)–dependent cell death mechanism, termed “cuproptosis” within GI tumors. By leveraging the interplay of mechanical, electrical, and biochemical functions, the robot actively targets and grasps the tumor and generates anticancer Cu-rich electrochemical interfacing with the targeted tumor microenvironment. This tumor-robot interface, characterized by in situ generated electric multipole fields and on-demand…
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Taxonomy
TopicsMicro and Nano Robotics · Soft Robotics and Applications · Advanced biosensing and bioanalysis techniques
