OARSI - Osteoarthritis Research Society International的动态

?? Discover the Future of Biosensors and Wearable Bioelectronic Devices in Paris We are excited to invite you to the International Conference on BioNano Materials 2024, set against the iconic backdrop of Paris from December 4 - 6, 2024. ?? Revolutionizing Healthcare and Technology with Biosensors and Wearable Bioelectronic Devices Step into the dynamic world of biosensors and wearable bioelectronic devices, where leading-edge science converges with revolutionary technological advancements. This field is transforming healthcare and technology, providing groundbreaking solutions for real-time health monitoring, diagnostics, and personalized medicine. Imagine wearable devices that continuously monitor vital signs, biosensors detecting diseases at early stages, and advanced bioelectronics enhancing human-machine interactions—biosensors and wearable bioelectronic devices are turning these innovations into reality. ?? Call for Research Papers We invite researchers and scientists engaged in biosensors and wearable bioelectronic devices to submit their abstracts. Share your pioneering research and insights with a global audience of experts. This is your opportunity to contribute to the rapid advancement of this pivotal field. ?? Event Schedule Mark your calendars for December 4th to 6th, 2024. Don’t miss the chance to attend this groundbreaking symposium in Paris. Participate in shaping the future landscape of biosensors and wearable bioelectronic devices and their wide-ranging applications. For more information and to register, please visit https://lnkd.in/dGP-tHdC Join us in Paris to explore the cutting-edge developments in biosensors and wearable bioelectronic devices. ?? #BioNanoInnovation #Biomaterials #Nanotechnology #Nanoscience #Nanomaterials #Nanocomposites #Biotechnology #BioNanotechnology #BiomolecularEngineering #TissueEngineering #RegenerativeMedicine #DrugDelivery #GeneTherapy #Biosensors #Wearable #Bioelectronic #BioelectronicDevices

In our latest blog, Daniel Olshvang, a second-year Ph.D. candidate in the biomedical engineering program, explores the immense impact of wearables on health research. From real-time data collection to personalizing treatments, these devices are redefining how we study health. https://bit.ly/3SChUua

【Technology/Materials】 Development of a Wearable Patch for Accurate and Continuous Measurement of Trace Perspiration Amounts Researchers at University of Tsukuba have pioneered a state-of-the-art wearable device capable of precisely and continuously measuring trace perspiration amounts. This innovative device is adept at monitoring perspiration levels during not only physical activity but also rest. Its potential applications extend beyond monitoring dehydration caused by exercise or heat exposure, encompassing broader domains such as daily health management and disease detection. Read more details here; https://lnkd.in/gKEkA5NQ Original Paper; https://lnkd.in/gmJwN_tg

Call for Book Chapter: Smart Textiles and Wearables for Health and Fitness Dear Authors We are currently seeking proposals for book chapters that explore the latest developments, trends, and applications in smart textiles and wearable technologies for promoting health and fitness. Whether you're an academic researcher, industry professional, or expert in the field, we invite you to submit your proposal abstract for consideration. Submission Guidelines: [1] Proposal abstracts should outline the scope, objectives, and key points of your proposed book chapter. [2] Submissions should be original and unpublished work. [3] The deadline for submitting proposal abstracts is 15 April 2024 [4] Submit the proposal by Email : [email protected] Join us in shaping the future of wearable healthcare technology! Submit your proposal abstract today and be a part of our exciting book project.

?? Innovation Insight: Our recent publication titled "Novel Wearable Device for Mindful Sensorimotor Training: Integrating Motor Decoding and Somatosensory Stimulation for Neurorehabilitation" introduces a groundbreaking device for mindful sensorimotor training (MiSMT). Our device addresses the challenge of manual delivery of sensory training and integrates myoelectric pattern recognition with tactile displays. This innovative approach allows for enhanced neurorehabilitation outcomes by providing advanced motor decoding and somatosensory stimulation. In our study, we conducted five training sessions using the MiSMT device on able-bodied participants, which resulted in improved sensory acuity. Additionally, successful decoding of myoelectric signals demonstrates the feasibility and effectiveness of this novel wearable device. This research holds promising prospects for individuals undergoing neurorehabilitation, offering a new avenue for improved sensorimotor training and recovery. Article: https://lnkd.in/dP7b4DQ9 Authors: Mirka Buist, Shahrzad Damercheli, Jan Zbinden, Minh Truong, Enzo Mastinu, and Max J. Ortiz Catalán Institutions: Bionics Institute, University of Melbourne, NeuroBioniX, Sahlgrenska University Hospital , Promobilia MoveAbility Lab, KTH , Scuola Superiore Sant'Anna , and Prometei Pain Rehabilitation Center . Founders: Promobilia Foundation. #Bionics #InnovationInsight #LLLDAM #PLP #NeuropathicPain

Wearable bioelectronics: Transforming Healthcare and Advancing Biomedical Engineering ?? Here at the nexus of healthcare and technology as biomedical engineers, we're spearheading breakthroughs that have the potential to completely transform patient care. Wearable bioelectronics research is one of the most intriguing developments in our industry. These state-of-the-art tools have the power to completely change how we track and manage health. Here's why wearable bioelectronics are revolutionizing the field: 1-Continuous Monitoring: Unlike traditional medical devices that require intermittent checks, wearables provide real-time, continuous monitoring of vital signs and biochemical markers. This means early detection of potential health issues, enabling timely interventions. 2-Personalized Healthcare: Wearables collect vast amounts of personal health data, allowing for highly personalized treatment plans. This leads to better patient outcomes and a more tailored approach to healthcare. 3-Non-Invasive Solutions: Many wearable devices are designed to be non-invasive, making them more comfortable and user-friendly. This encourages higher compliance and engagement from patients, particularly those with chronic conditions. 4-Remote Patient Management: In the era of telemedicine, wearable bioelectronics support remote monitoring, reducing the need for frequent hospital visits. This is particularly beneficial in managing chronic diseases and during pandemics. 5-Innovation in Materials and Design: Advances in materials science have led to flexible, lightweight, and durable wearables that can seamlessly integrate with daily life. From smart patches to bio-compatible sensors, the possibilities are endless. 6-Data-Driven Insights: The data collected by wearables can be analyzed to uncover trends and patterns, providing valuable insights for both patients and healthcare providers. This data-driven approach can enhance diagnostic accuracy and improve treatment strategies. 7-Cross-Disciplinary Collaboration: The development of wearable bioelectronics is a collaborative effort, involving experts in biomedical engineering, materials science, computer science, and healthcare. This interdisciplinary approach accelerates innovation and implementation. As we continue to push the boundaries of what's possible, the role of biomedical engineers in advancing wearable technology will be crucial. We're not just creating devices; we're shaping the future of health monitoring and management. Let’s connect and discuss how we can further innovate and collaborate in this exciting field! ?? #BiomedicalEngineering #WearableTech #HealthcareInnovation #biomedical_engineeer_in_Egypt #biomedical_engineer_in_Qatar #MedicalDevices #Telemedicine #PersonalizedMedicine #Bioelectronics

?? Innovative Wearable Technology for In Vivo Monitoring ?? Researchers at Waterloo University have been working on the development of a Wearable Aptalyzer. This innovative device integrates microneedles with electrochemical sensing for real-time monitoring of glucose and lactate in live animals. This advancement could revolutionize how we monitor critical biomarkers continuously and non-invasively. The Wearable Aptalyzer combines biocompatible hydrogel microneedle arrays for interstitial fluid extraction with aptamer-based biosensors. This technology offers high sensitivity, specificity, and stability, potentially transforming continuous monitoring applications in healthcare. Key features include: Real-time, continuous monitoring of glucose and lactate. Biocompatible and flexible design for enhanced user comfort. Multiplexed monitoring capabilities, extending beyond traditional enzymatic sensors. This innovation represents a significant step forward in wearable biosensing technologies, paving the way for improved patient outcomes through better disease management and personalized healthcare. Read more about this exciting development here: https://lnkd.in/gEYax5jg #Innovation #Healthcare #WearableTech #Biosensors #DIALabs

This article discusses the advancements and challenges in wearable mechanical and electrochemical sensors for real-time health monitoring. These sensors can track physical and biochemical signals for various applications, including monitoring cardiovascular, respiratory, and metabolic health. Recent progress has focused on enhancing their flexibility, integration, and self-powered capabilities for continuous, non-invasive health monitoring. However, challenges in materials, manufacturing, and energy supply remain, necessitating interdisciplinary collaboration for future improvements. The article also explores potential applications and solutions to current limitations in wearable health technology. More details can be found here: https://lnkd.in/eqaCa6Jf #materials #materialsscience #materialsengineering #computationalchemistry #modelling #chemistry #researchanddevelopment #research #MaterialsSquare #ComputationalChemistry #Tutorial #DFT #simulationsoftware #simulation

This article discusses the advancements and challenges in wearable mechanical and electrochemical sensors for real-time health monitoring. These sensors can track physical and biochemical signals for various applications, including monitoring cardiovascular, respiratory, and metabolic health. Recent progress has focused on enhancing their flexibility, integration, and self-powered capabilities for continuous, non-invasive health monitoring. However, challenges in materials, manufacturing, and energy supply remain, necessitating interdisciplinary collaboration for future improvements. The article also explores potential applications and solutions to current limitations in wearable health technology. More details can be found here: https://lnkd.in/e8f32TSc #materials #materialsscience #materialsengineering #computationalchemistry #modelling #chemistry #researchanddevelopment #research #MaterialsSquare #ComputationalChemistry #Tutorial #DFT #simulationsoftware #simulation

? My first LinkedIn post ? Hey LinkedIn, I’m Kenny, and I’m excited to announce the launch of my new Substack, Wearable Frontiers! A while back, my journey into healthcare started with stem cell research, which sparked my passion for using tech to improve lives. That led me to focus on wearable devices—and eventually to NM Thera. An experience living with hyperhidrosis (sweaty hands) was the turning point. Now, at NM Thera, we’re building SOKY, a wearable designed to change the way people manage their health. On Wearable Frontiers, I’ll be talking about: ?? What we’re doing at NM Thera ?? The latest in wearable health tech ?? Sci-fi-inspired innovations making waves in the industry Let’s connect if you’re into healthcare, tech, or innovation—I’d love to hear your thoughts and share this journey with you! Let me know in the comment section what you'd like me to cover, whether it’s wearable tech inspired by the Gundam series or wild innovations like neuro-prosthetics. This is a space to geek out, so don’t hold back! https://bit.ly/3TCPtMW #WearableTech #HealthcareInnovation #DigitalHealth #Hyperhidrosis #HealthTech #MedicalDevices #Startups #SustainabilityInHealth #SOKY #NMthera