Electrochemically Active Materials for Tissue-Interfaced Soft Biochemical Sensing DOI
Xiaoyan Qian, Zehua Chen, Feng Zhang

и другие.

ACS Sensors, Год журнала: 2025, Номер unknown

Опубликована: Апрель 21, 2025

Tissue-interfaced soft biochemical sensing represents a crucial approach to personalized healthcare by employing electrochemically active materials monitor signals at the tissue interface in real time, either noninvasively or through implantation. These sensors can be integrated with various biological tissues, such as neural, gastrointestinal, ocular, cardiac, skin, muscle, and bone, adapting their unique mechanical environments. Sensors like conductive polymers, composites, metals, metal oxides, carbon-based nanomaterials have demonstrated capabilities applications, continuous glucose monitoring, neural activity mapping, real-time metabolite detection, enhancing diagnostics treatment monitoring across range of medical fields. Next-generation tissue-interfaced biosensors that enable multimodal multiplexed measurement markers physiological parameters could transformative for medicine, allowing high-resolution, time-resolved historical an individual's health status. In this review, we summarize current trends field provide insights into challenges future trajectory sensors, highlighting potential revolutionize medicine improve patient outcomes.

Язык: Английский

Electrochemically Active Materials for Tissue-Interfaced Soft Biochemical Sensing DOI
Xiaoyan Qian, Zehua Chen, Feng Zhang

и другие.

ACS Sensors, Год журнала: 2025, Номер unknown

Опубликована: Апрель 21, 2025

Tissue-interfaced soft biochemical sensing represents a crucial approach to personalized healthcare by employing electrochemically active materials monitor signals at the tissue interface in real time, either noninvasively or through implantation. These sensors can be integrated with various biological tissues, such as neural, gastrointestinal, ocular, cardiac, skin, muscle, and bone, adapting their unique mechanical environments. Sensors like conductive polymers, composites, metals, metal oxides, carbon-based nanomaterials have demonstrated capabilities applications, continuous glucose monitoring, neural activity mapping, real-time metabolite detection, enhancing diagnostics treatment monitoring across range of medical fields. Next-generation tissue-interfaced biosensors that enable multimodal multiplexed measurement markers physiological parameters could transformative for medicine, allowing high-resolution, time-resolved historical an individual's health status. In this review, we summarize current trends field provide insights into challenges future trajectory sensors, highlighting potential revolutionize medicine improve patient outcomes.

Язык: Английский

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