(Press-News.org) [TOKYO, Japan, January 2025]—Wearable health devices, such as smartwatches, have become commonplace, enabling the continuous monitoring of physiological signals at the skin’s surface. Recently, a research team in Japan has developed a biohybrid approach that works inside the body—transforming engineered skin to a visible indicator of internal biological states.
A joint research group, led by Tokyo City University and the University of Tokyo, in collaboration with RIKEN and Canon Medical Systems Co., has unveiled a living sensor display: an engineered skin graft that fluoresces in response to specific biomarkers, such as inflammation. Reported in Nature Communications, the system leverages the body’s natural skin regeneration to support long-term biomarker monitoring, providing a visual readout without blood sampling after implantation and enabling intuitive assessment by observation.
More Than Skin Deep
The monitoring of internal biomarkers—proteins that indicate inflammation, stress, or disease—typically relies on blood sampling or externally attached sensors that operate only for limited durations.
“Conventional approaches are often invasive or provide only snapshots in time,” Distinguished Professor Hiroyuki Fujita of Tokyo City University (Professor Emeritus, The University of Tokyo).“Our goal was to explore a biologically integrated system that enables continuous sensing and intuitive interpretation, even at home.”
To achieve this, the researchers used epidermal stem cells, which naturally maintain and renew the skin throughout life. By genetically engineering these cells to respond to inflammatory signaling—more specifically, the activation of the NF-κB pathway—the team generated skin tissue that expresses enhanced green fluorescent protein (EGFP) in response to inflammation-related signals.
When the Sensor Is a Part of the Body
When transplanted onto mice, the engineered skin engrafted and functionally integrated with the host tissue. Upon the induction of inflammation, the grafted area emitted green fluorescence, translating internal molecular signals to an external optical signal.
Because the sensor comprises living epidermal stem cells, it is maintained through the skin’s natural turnover.
“Unlike conventional devices that require power sources or periodic replacement, this system is biologically maintained by the body itself,” said Professor Shoji Takeuchi of the University of Tokyo. “In our experiments, the sensor functionality was preserved for over 200 days, as the engineered stem cells continuously regenerated the epidermis.”
Toward Visible, Long-Term Biomarker Monitoring
This study demonstrates a proof of concept for long-term, biologically integrated sensing without batteries, wiring, or active user operation. Although this work focused on inflammatory signaling, the underlying strategy is adaptable. By modifying the molecular targets, similar engineered skin constructs could be designed to respond to other physiological or metabolic cues.
The researchers note that such technology could have applications beyond human healthcare, including those in animal research and veterinary medicine, where visual indicators of health status may aid the early detection of disease in animals unable to communicate symptoms.
Although still at an early preclinical stage, this work offers a biologically grounded approach for interfacing living tissues with sensing functions, blurring the boundary between biological systems and engineered devices.
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The article, "Living sensor display implanted on skin for long-term biomarker monitoring" was published in Nature Communications at DOI:10.1038/s41467-025-67384-2.
Authors:
Jun Sawayama, Makoto Takeo, Yuki Takayama, Miki Takase, Hoshimi Aoyagi, Aki Takimoto, Saki Mizutani, Maiko Onuki, Satoshi Ikeo, Shogo Nagata, Miho Ogawa, Koji Yano, Takashi Tsuji, Shoji Takeuchi, and Hiroyuki Fujita*
About Institute of Industrial Science, The University of Tokyo
The Institute of Industrial Science, The University of Tokyo (UTokyo-IIS) is one of the largest university-attached research institutes in Japan. UTokyo-IIS is comprised of over 120 research laboratories—each headed by a faculty member—and has over 1,200 members (approximately 400 staff and 800 students) actively engaged in education and research. Its activities cover almost all areas of engineering. Since its foundation in 1949, UTokyo-IIS has worked to bridge the huge gaps that exist between academic disciplines and real-world applications.
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