Core Insights - The research team from Kunming University of Science and Technology has developed an implantable microcrystalline hydrogel sensor that can be constructed in situ and non-invasively using near-infrared 3D printing technology, marking a significant breakthrough in the field of non-invasive implantable sensors [1][2] Group 1: Technology and Innovation - The innovative technology allows for the "in-body one-step formation" of the sensor, addressing the core limitations of traditional implant methods, which often involve surgical procedures that can cause tissue damage and lack sufficient biocompatibility [1] - The sensor utilizes a multifunctional microcrystalline hydrogel material that combines flexibility and biocompatibility, providing a non-invasive solution for the customized manufacturing of implantable flexible sensors [2] Group 2: Applications and Future Prospects - This technology has the potential to significantly enhance personalized health monitoring and early disease diagnosis, offering important technical support for the innovation of related medical devices [2] - The sensor is expected to find widespread application in clinical scenarios such as neuromuscular monitoring and chronic disease management, promoting the development of medical monitoring devices towards non-invasiveness, precision, and personalization [2]