A MEMS-Based Wearable, Flexible Embedded High-Density Sensor With Self-Adhesive PEDOT:PSS Gel for HD-sEMG Monitoring

Zhao, Nan; Yang, Han-Jia; Shen, Gencai; Wang, Zhuang-Zhuang; Jiang, Chunpeng; Liu, Jingquan

doi:10.1109/jsen.2023.3263877

Cited by 3 publications

(1 citation statement)

References 27 publications

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“…Another notable advancement is in overcoming impedance and motion artifacts, particularly for skin areas with significant curvature like the neck. N. Zhao et al [91] have innovated by designing an embedded high-density sEMG sensor with low modulus, low contact impedance, and minimal motion artifacts, achieving a high signal-to-noise ratio (SNR). This sensor's biocompatible materials and ergonomic design ensure user comfort and durability, even during extensive usage or in dynamic conditions.…”

Section: Electromyography (Emg)mentioning

confidence: 99%

Advancements and Challenges in Non-Invasive Sensor Technologies for Swallowing Assessment: A Review

Wu,

Guo,

Chu

et al. 2024

Bioengineering

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Dysphagia is a pervasive health issue that impacts diverse demographic groups worldwide, particularly the elderly, stroke survivors, and those suffering from neurological disorders. This condition poses substantial health risks, including malnutrition, respiratory complications, and increased mortality. Additionally, it exacerbates economic burdens by extending hospital stays and escalating healthcare costs. Given that this disorder is frequently underestimated in vulnerable populations, there is an urgent need for enhanced diagnostic and therapeutic strategies. Traditional diagnostic tools such as the videofluoroscopic swallowing study (VFSS) and flexible endoscopic evaluation of swallowing (FEES) require interpretation by clinical experts and may lead to complications. In contrast, non-invasive sensors offer a more comfortable and convenient approach for assessing swallowing function. This review systematically examines recent advancements in non-invasive swallowing function detection devices, focusing on the validation of the device designs and their implementation in clinical practice. Moreover, this review discusses the swallowing process and the associated biomechanics, providing a theoretical foundation for the technologies discussed. It is hoped that this comprehensive overview will facilitate a paradigm shift in swallowing assessments, steering the development of technologies towards more accessible and accurate diagnostic tools, thereby improving patient care and treatment outcomes.

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Section: Electromyography (Emg)mentioning

confidence: 99%

Advancements and Challenges in Non-Invasive Sensor Technologies for Swallowing Assessment: A Review

Wu,

Guo,

Chu

et al. 2024

Bioengineering

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Advancements in Textile-Based sEMG Sensors for Muscle Fatigue Detection: A Journey from Material Evolution to Technological Integration

Medagedara,

Ranasinghe,

Lalitharatne

et al. 2024

ACS Sens.

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Textile-based surface electromyography (sEMG) electrodes have emerged as a prominent tool in muscle fatigue assessment, marking a significant shift toward innovative, noninvasive methods. This review examines the transition from metallic fibers to novel conductive polymers, elastomers, and advanced material-based electrodes, reflecting on the rapid evolution of materials in sEMG sensor technology. It highlights the pivotal role of materials science in enhancing sensor adaptability, signal accuracy, and longevity, crucial for practical applications in health monitoring, while examining the balance of clinical precision with user comfort. Additionally, it maps the global sEMG research landscape of diverse regional contributors and their impact on technological progress, focusing on the integration of Eastern manufacturing prowess with Western technological innovations and exploring both the opportunities and challenges in this global synergy. The integration of such textile-based sEMG innovations with artificial intelligence, nanotechnology, energy harvesting, and IoT connectivity is also anticipated as future prospects. Such advancements are poised to revolutionize personalized preventive healthcare. As the exploration of textilebased sEMG electrodes continues, the transformative potential not only promises to revolutionize integrated wellness and preventive healthcare but also signifies a seamless transition from laboratory innovations to real-world applications in sports medicine, envisioning the future of truly wearable material technologies.

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A Super-Adhesive and Electromagnetically Shielded Flexible Chip-Selectable and Selectable Wearable HD-sEMG Sensor

Zhao,

Shen,

Jiang

et al. 2024

IEEE Sensors J.

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A MEMS-Based Wearable, Flexible Embedded High-Density Sensor With Self-Adhesive PEDOT:PSS Gel for HD-sEMG Monitoring

Cited by 3 publications

References 27 publications

Advancements and Challenges in Non-Invasive Sensor Technologies for Swallowing Assessment: A Review

Advancements and Challenges in Non-Invasive Sensor Technologies for Swallowing Assessment: A Review

Advancements in Textile-Based sEMG Sensors for Muscle Fatigue Detection: A Journey from Material Evolution to Technological Integration

A Super-Adhesive and Electromagnetically Shielded Flexible Chip-Selectable and Selectable Wearable HD-sEMG Sensor

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