Li Jia-Xin, Fan Wen-Ting, Sun Meng-Yuan, Zhao Yi, Lu Yi-Fei, Yang Yan-Bing, Huang Wei-Hua, Liu Yan-Ling
College of Chemistry and Molecular Sciences, Wuhan University, Wuhan, 430072, China.
Core Facility of Wuhan University, Wuhan University, Wuhan, 430072, China.
Angew Chem Int Ed Engl. 2025 Mar 10;64(11):e202421684. doi: 10.1002/anie.202421684. Epub 2025 Jan 2.
Real-time monitoring of reactive oxygen and nitrogen species (RONS) in skeletal muscle provides crucial insights into the cause-and-effect relationships between physical activity and health benefits. However, the dynamic production of exercise-induced RONS remains poorly explored, due to the lack of sensing tools that can conform to soft skeletal muscle while monitor RONS release during exercise. Here we introduce dual flexible sensors via twisting carbon nanotubes into helical bundles of fibers and subsequent assembling electrochemical sensing components. These flexible sensors exhibit low bending stiffness, excellent HO and NO sensing abilities, outstanding biocompatibility and compliance with engineered skeletal muscle tissue. This allows real-time and simultaneous monitoring of HO and NO release from engineered skeletal muscle in response to different exercise-mimicking stretches, which reveals that warm-up activities before high-intensity exercise may enhance adaptive responses by down-regulating HO and up-regulating NO production. The proposed sensing strategy demonstrates great versatility in monitoring multiple biomarkers of soft tissue and organs.
对骨骼肌中活性氧和氮物种(RONS)进行实时监测,可为深入了解体育活动与健康益处之间的因果关系提供关键见解。然而,由于缺乏能够贴合柔软骨骼肌同时监测运动过程中RONS释放的传感工具,运动诱导的RONS的动态产生情况仍未得到充分探索。在此,我们通过将碳纳米管捻成螺旋纤维束并随后组装电化学传感组件,引入了双柔性传感器。这些柔性传感器具有低弯曲刚度、出色的HO和NO传感能力、卓越的生物相容性以及与工程化骨骼肌组织的顺应性。这使得能够实时同步监测工程化骨骼肌在不同模拟运动拉伸下释放HO和NO的情况,这表明高强度运动前的热身活动可能通过下调HO和上调NO生成来增强适应性反应。所提出的传感策略在监测软组织和器官的多种生物标志物方面展现出极大的通用性。
