Novel Design of 3D Printed Tumbling Microrobots for in vivo Targeted Drug Delivery

TL;DR

This paper introduces innovative 3D-printed tumbling microrobots with magnetic actuation for targeted in vivo drug delivery, demonstrating their performance, biocompatibility, and potential for medical applications.

Contribution

The paper presents a novel design of 3D-printed tumbling microrobots with integrated micro-magnets for precise magnetic actuation and drug delivery in vivo, including comprehensive testing and biocompatibility assessments.

Findings

Robust microrobot performance under various conditions

Effective magnetic actuation demonstrated in vitro and in vivo

Potential for targeted drug delivery in the large intestine

Abstract

This paper presents innovative designs for 3D-printed tumbling microrobots, specifically engineered for targeted in vivo drug delivery applications. The microrobot designs, created using stereolithography 3D printing technologies, incorporate permanent micro-magnets to enable actuation via a rotating magnetic field actuator system. The experimental framework encompasses a series of locomotion characterization tests to evaluate microrobot performance under various conditions. Testing variables include variations in microrobot geometries, actuation frequencies, and environmental conditions, such as dry and wet environments, and temperature changes. The paper outlines designs for three drug loading methods, along with comprehensive assessments thermal drug release using a focused ultrasound system, as well as biocompatibility tests. Animal model testing involves tissue phantoms and in vivo rat models, ensuring a thorough evaluation of the microrobots' performance and compatibility. The results highlight the robustness and adaptability of the proposed microrobot designs, showcasing the potential for efficient and targeted in vivo drug delivery. This novel approach addresses current limitations in existing tumbling microrobot designs and paves the way for advancements in targeted drug delivery within the large intestine.