Stretchable surface electromyography electrode array patch for tendon location and muscle injury prevention.
Shuaijian YangJinhao ChengJin ShangChen HangJie QiLeni ZhongQingyan RaoLei HeChenqi LiuLi DingMingming ZhangSamit ChakrabartyXingyu JiangPublished in: Nature communications (2023)
Surface electromyography (sEMG) can provide multiplexed information about muscle performance. If current sEMG electrodes are stretchable, arrayed, and able to be used multiple times, they would offer adequate high-quality data for continuous monitoring. The lack of these properties delays the widespread use of sEMG in clinics and in everyday life. Here, we address these constraints by design of an adhesive dry electrode using tannic acid, polyvinyl alcohol, and PEDOT:PSS (TPP). The TPP electrode offers superior stretchability (~200%) and adhesiveness (0.58 N/cm) compared to current electrodes, ensuring stable and long-term contact with the skin for recording (>20 dB; >5 days). In addition, we developed a metal-polymer electrode array patch (MEAP) comprising liquid metal (LM) circuits and TPP electrodes. The MEAP demonstrated better conformability than commercial arrays, resulting in higher signal-to-noise ratio and more stable recordings during muscle movements. Manufactured using scalable screen-printing, these MEAPs feature a completely stretchable material and array architecture, enabling real-time monitoring of muscle stress, fatigue, and tendon displacement. Their potential to reduce muscle and tendon injuries and enhance performance in daily exercise and professional sports holds great promise.
Keyphrases
- skeletal muscle
- carbon nanotubes
- solid state
- high throughput
- high resolution
- primary care
- physical activity
- machine learning
- high density
- reduced graphene oxide
- healthcare
- anterior cruciate ligament reconstruction
- air pollution
- depressive symptoms
- rotator cuff
- electronic health record
- climate change
- social media
- alcohol consumption
- body composition
- sleep quality