Project Introduction:
To address the differences between experimental scenarios and real-world applications of tumor detection and drug delivery systems, which use magnetic micro-nano robots as drug carriers and rely on biological information gradients to guide the robots' movement, and real-time monitoring through imaging systems, we propose an experimental environment designed to simulate localized microvascular flow conditions in the human body. This environment will assist in concept validation experiments for the system. The experimental setup will feature adaptability to various flow channel structures and ease of operation with PC-based software control. It offers innovative features that can serve as a reference for research on other human body movement-related topics.
Technical Advantages:
The small-scale flow environment is an unavoidable issue in the application of medical devices and biomedical products within the human body. Thus, this experimental environment has a wide range of potential applications.
The environment is highly adaptable, with blood vessel-like channels that can be replaced with other types of passages.
The environment is compatible with software control platforms, allowing for seamless integration.
