Virgobit
@virgobit.bsky.social
Focusing on remote patient monitoring using wearable devices and smartphones!
www.virgobit.com
www.virgobit.com
🚀 A new ECG+PCG #wearable is pushing cardiac monitoring into a new era. With high SNR, dual-signal detection, and extraction of EMD, LVET, and PEP, this innovation brings earlier and smarter cardiovascular insights—advancing the future of digital cardiology.
#WearableTech #Cardiology
#WearableTech #Cardiology
November 25, 2025 at 8:57 AM
🚀 A new ECG+PCG #wearable is pushing cardiac monitoring into a new era. With high SNR, dual-signal detection, and extraction of EMD, LVET, and PEP, this innovation brings earlier and smarter cardiovascular insights—advancing the future of digital cardiology.
#WearableTech #Cardiology
#WearableTech #Cardiology
🚀 MIT researchers introduce Circulatronics: subcellular electronics carried by immune cells that self-implant in inflamed brain regions. No surgery, deep targets, high precision. A new era of minimally invasive neuromodulation is here! 🧠🔬
#Neurotech #Neuromodulation #Bioelectronics
#Neurotech #Neuromodulation #Bioelectronics
November 24, 2025 at 7:11 AM
🚀 MIT researchers introduce Circulatronics: subcellular electronics carried by immune cells that self-implant in inflamed brain regions. No surgery, deep targets, high precision. A new era of minimally invasive neuromodulation is here! 🧠🔬
#Neurotech #Neuromodulation #Bioelectronics
#Neurotech #Neuromodulation #Bioelectronics
Insights from WT | Wearable Technologies Show 2025 at MEDICA: Exciting progress in advanced sensors, flexible electronics, connectivity modules, and new materials. These innovations are enabling AI-powered diagnostics, continuous monitoring, and the next generation of digital health.
#WearableTech
#WearableTech
November 21, 2025 at 9:24 AM
Insights from WT | Wearable Technologies Show 2025 at MEDICA: Exciting progress in advanced sensors, flexible electronics, connectivity modules, and new materials. These innovations are enabling AI-powered diagnostics, continuous monitoring, and the next generation of digital health.
#WearableTech
#WearableTech
A new @natureportfolio.nature.com study introduces a mm-thin, electronics-free electrotherapy patch used like a band-aid. Apply it to the skin and a full stimulation dose activates automatically—no charging or controls. Validated for tDCS, iontophoresis, and wound healing.
#BioelectronicMedicine
#BioelectronicMedicine
November 19, 2025 at 8:41 AM
A new @natureportfolio.nature.com study introduces a mm-thin, electronics-free electrotherapy patch used like a band-aid. Apply it to the skin and a full stimulation dose activates automatically—no charging or controls. Validated for tDCS, iontophoresis, and wound healing.
#BioelectronicMedicine
#BioelectronicMedicine
🚀A mask that hears without listening?
Researchers at Wuhan University built a thermoelectric wearable that reads breath, heartbeat, coughs—even the airflow pattern of “help”—with 98% accuracy. No mic. No electrodes. Just physics, textiles, and smart algorithms.
#WearableTech #DigitalHealth
Researchers at Wuhan University built a thermoelectric wearable that reads breath, heartbeat, coughs—even the airflow pattern of “help”—with 98% accuracy. No mic. No electrodes. Just physics, textiles, and smart algorithms.
#WearableTech #DigitalHealth
November 18, 2025 at 8:43 AM
🚀A mask that hears without listening?
Researchers at Wuhan University built a thermoelectric wearable that reads breath, heartbeat, coughs—even the airflow pattern of “help”—with 98% accuracy. No mic. No electrodes. Just physics, textiles, and smart algorithms.
#WearableTech #DigitalHealth
Researchers at Wuhan University built a thermoelectric wearable that reads breath, heartbeat, coughs—even the airflow pattern of “help”—with 98% accuracy. No mic. No electrodes. Just physics, textiles, and smart algorithms.
#WearableTech #DigitalHealth
🦿Breaking the limits of human movement with soft #wearable robotics!
A new study shows a textile-based soft robot boosting vertical jump by up to 9.04 cm using tendon-inspired pneumatic actuation and a triarticular kinetic chain. Soft robotics is moving from support to true performance augmentation.
A new study shows a textile-based soft robot boosting vertical jump by up to 9.04 cm using tendon-inspired pneumatic actuation and a triarticular kinetic chain. Soft robotics is moving from support to true performance augmentation.
November 17, 2025 at 9:03 AM
🦿Breaking the limits of human movement with soft #wearable robotics!
A new study shows a textile-based soft robot boosting vertical jump by up to 9.04 cm using tendon-inspired pneumatic actuation and a triarticular kinetic chain. Soft robotics is moving from support to true performance augmentation.
A new study shows a textile-based soft robot boosting vertical jump by up to 9.04 cm using tendon-inspired pneumatic actuation and a triarticular kinetic chain. Soft robotics is moving from support to true performance augmentation.
From sweat to science — #wearables are evolving to decode our body fluids in real time. Sweat, tears, breath & interstitial fluid reveal molecular health data for proactive, AI-driven care. A new era of connected, personalized medicine is here.
#WearableTech #DigitalHealth #Bioengineering
#WearableTech #DigitalHealth #Bioengineering
November 13, 2025 at 9:07 AM
From sweat to science — #wearables are evolving to decode our body fluids in real time. Sweat, tears, breath & interstitial fluid reveal molecular health data for proactive, AI-driven care. A new era of connected, personalized medicine is here.
#WearableTech #DigitalHealth #Bioengineering
#WearableTech #DigitalHealth #Bioengineering
🚀 Breakthrough in 3D #WearableBioelectronics!
Oxford & Cambridge researchers unveil d-3DPLM, a laser tech that sculpts flexible devices — from electro-haptic patches to wireless contact lenses — directly onto 3D surfaces.
A new era of seamless human-tech integration begins.
#Bioelectronics
Oxford & Cambridge researchers unveil d-3DPLM, a laser tech that sculpts flexible devices — from electro-haptic patches to wireless contact lenses — directly onto 3D surfaces.
A new era of seamless human-tech integration begins.
#Bioelectronics
November 12, 2025 at 10:14 AM
🚀 Breakthrough in 3D #WearableBioelectronics!
Oxford & Cambridge researchers unveil d-3DPLM, a laser tech that sculpts flexible devices — from electro-haptic patches to wireless contact lenses — directly onto 3D surfaces.
A new era of seamless human-tech integration begins.
#Bioelectronics
Oxford & Cambridge researchers unveil d-3DPLM, a laser tech that sculpts flexible devices — from electro-haptic patches to wireless contact lenses — directly onto 3D surfaces.
A new era of seamless human-tech integration begins.
#Bioelectronics
🔬 Skin-like, wireless sensors are here! Battery-free & ultra-sensitive, they track glucose, electrolytes, pH & more — all in real-time. 10× more sensitive, 50% smaller, antimicrobial, and biocompatible. A true leap in #WearableTech & #SmartHealth! 👏 #BiomedicalEngineering #Virgobit
November 11, 2025 at 10:31 AM
🔬 Skin-like, wireless sensors are here! Battery-free & ultra-sensitive, they track glucose, electrolytes, pH & more — all in real-time. 10× more sensitive, 50% smaller, antimicrobial, and biocompatible. A true leap in #WearableTech & #SmartHealth! 👏 #BiomedicalEngineering #Virgobit
Discover the latest innovations in #neuroscience with Virgobit’s digital booth:
Spica for multimodal health data, BrainGoMo, #wearable partners, and real-world research case studies. Explore interactive demos, ask questions, and see how these tools advance research and clinical practice.
#Virgobit
Spica for multimodal health data, BrainGoMo, #wearable partners, and real-world research case studies. Explore interactive demos, ask questions, and see how these tools advance research and clinical practice.
#Virgobit
November 10, 2025 at 9:35 AM
Discover the latest innovations in #neuroscience with Virgobit’s digital booth:
Spica for multimodal health data, BrainGoMo, #wearable partners, and real-world research case studies. Explore interactive demos, ask questions, and see how these tools advance research and clinical practice.
#Virgobit
Spica for multimodal health data, BrainGoMo, #wearable partners, and real-world research case studies. Explore interactive demos, ask questions, and see how these tools advance research and clinical practice.
#Virgobit
🚀 Breakthrough in non-contact bio-monitoring!
A @natureportfolio.nature.com e study unveils a non-contact #wearable that reads skin’s molecular flux — water vapor, CO₂ & VOCs — without touch.
A leap forward for wound care, diagnostics & environmental health.
#WearableTech #Bioengineering
A @natureportfolio.nature.com e study unveils a non-contact #wearable that reads skin’s molecular flux — water vapor, CO₂ & VOCs — without touch.
A leap forward for wound care, diagnostics & environmental health.
#WearableTech #Bioengineering
November 6, 2025 at 8:48 AM
🚀 Breakthrough in non-contact bio-monitoring!
A @natureportfolio.nature.com e study unveils a non-contact #wearable that reads skin’s molecular flux — water vapor, CO₂ & VOCs — without touch.
A leap forward for wound care, diagnostics & environmental health.
#WearableTech #Bioengineering
A @natureportfolio.nature.com e study unveils a non-contact #wearable that reads skin’s molecular flux — water vapor, CO₂ & VOCs — without touch.
A leap forward for wound care, diagnostics & environmental health.
#WearableTech #Bioengineering
🧠 Rethinking #Wearables: A diffusion-based wearable analyzes skin-emitted gases (sweat, CO₂, VOCs) continuously, noninvasively, in real time. Moves beyond biofluids, opening new frontiers in #DigitalPhysiology and #SensorInnovation for metabolic, stress, and chronic health monitoring.
November 5, 2025 at 7:41 AM
🧠 Rethinking #Wearables: A diffusion-based wearable analyzes skin-emitted gases (sweat, CO₂, VOCs) continuously, noninvasively, in real time. Moves beyond biofluids, opening new frontiers in #DigitalPhysiology and #SensorInnovation for metabolic, stress, and chronic health monitoring.
🔬 Sound meets skin!
#Wearable ultrasound is here: soft, AI-guided devices enable deep-tissue therapy, precise drug delivery, & nerve stimulation — anytime, anywhere. Bridging clinic & home, this tech redefines chronic care, neurorehab & regenerative medicine.
#WearableUltrasound #AIinMedicine
#Wearable ultrasound is here: soft, AI-guided devices enable deep-tissue therapy, precise drug delivery, & nerve stimulation — anytime, anywhere. Bridging clinic & home, this tech redefines chronic care, neurorehab & regenerative medicine.
#WearableUltrasound #AIinMedicine
November 4, 2025 at 9:07 AM
🔬 Sound meets skin!
#Wearable ultrasound is here: soft, AI-guided devices enable deep-tissue therapy, precise drug delivery, & nerve stimulation — anytime, anywhere. Bridging clinic & home, this tech redefines chronic care, neurorehab & regenerative medicine.
#WearableUltrasound #AIinMedicine
#Wearable ultrasound is here: soft, AI-guided devices enable deep-tissue therapy, precise drug delivery, & nerve stimulation — anytime, anywhere. Bridging clinic & home, this tech redefines chronic care, neurorehab & regenerative medicine.
#WearableUltrasound #AIinMedicine
🧠@natureportfolio.nature.com presents a deep learning framework achieving 99.26% accuracy in motion classification for ankle exoskeletons using #EMG + #IMU data. Textile-based electrodes, transfer learning, and sensor fusion advance safe, adaptive rehabilitation.
Link in comments. #AI #Neuroscience
Link in comments. #AI #Neuroscience
November 3, 2025 at 6:05 AM
🧠@natureportfolio.nature.com presents a deep learning framework achieving 99.26% accuracy in motion classification for ankle exoskeletons using #EMG + #IMU data. Textile-based electrodes, transfer learning, and sensor fusion advance safe, adaptive rehabilitation.
Link in comments. #AI #Neuroscience
Link in comments. #AI #Neuroscience
🩺 The wearable that lets your skin speak.
A new @natureportfolio.nature.com study unveils a breathable skin analyzer that continuously tracks skin hydration and barrier function — revealing how pollution and circadian rhythms shape skin health.
#WearableTech #Science #DigitalHealth
A new @natureportfolio.nature.com study unveils a breathable skin analyzer that continuously tracks skin hydration and barrier function — revealing how pollution and circadian rhythms shape skin health.
#WearableTech #Science #DigitalHealth
October 31, 2025 at 9:45 AM
🩺 The wearable that lets your skin speak.
A new @natureportfolio.nature.com study unveils a breathable skin analyzer that continuously tracks skin hydration and barrier function — revealing how pollution and circadian rhythms shape skin health.
#WearableTech #Science #DigitalHealth
A new @natureportfolio.nature.com study unveils a breathable skin analyzer that continuously tracks skin hydration and barrier function — revealing how pollution and circadian rhythms shape skin health.
#WearableTech #Science #DigitalHealth
🎥 At the @trr393.bsky.social Meeting in Dresden, Virgobit presented Spica for continuous remote monitoring in affective disorder research. Our CEO showcased our methodology, multimodal data visualization, and patient engagement interface — linking real-world behavior with clinical insight. #Virgobit
October 29, 2025 at 9:04 AM
🎥 At the @trr393.bsky.social Meeting in Dresden, Virgobit presented Spica for continuous remote monitoring in affective disorder research. Our CEO showcased our methodology, multimodal data visualization, and patient engagement interface — linking real-world behavior with clinical insight. #Virgobit
🚀 Nanofibers are transforming wearable heart health! A new @researcheracad.bsky.social study shows flexible, biocompatible sensors can track BP, ECG & cardiac biomarkers. Key breakthroughs: advanced electrospinning, polymer–nanocomposites, bridging wearables & regenerative medicine.
#WearableTech
#WearableTech
October 28, 2025 at 9:44 AM
🚀 Nanofibers are transforming wearable heart health! A new @researcheracad.bsky.social study shows flexible, biocompatible sensors can track BP, ECG & cardiac biomarkers. Key breakthroughs: advanced electrospinning, polymer–nanocomposites, bridging wearables & regenerative medicine.
#WearableTech
#WearableTech
🚀 Wearable nanotech is transforming chronic disease care! Next-gen sensors track molecular markers (heart, neuro, autoimmune, mental health) in real time. From episodic tests to continuous, personalized monitoring—bringing precision, proactive healthcare closer than ever.
#Nanotechnology
#Nanotechnology
October 27, 2025 at 9:08 AM
🚀 Wearable nanotech is transforming chronic disease care! Next-gen sensors track molecular markers (heart, neuro, autoimmune, mental health) in real time. From episodic tests to continuous, personalized monitoring—bringing precision, proactive healthcare closer than ever.
#Nanotechnology
#Nanotechnology
🧠 When brain implants start to understand — not just record.
A landmark study in Nature Biomedical Engineering combines invasive neurophysiology, connectomics & AI to decode brain states across Parkinson’s, depression & epilepsy — paving the way for adaptive, closed-loop neurotherapies.
A landmark study in Nature Biomedical Engineering combines invasive neurophysiology, connectomics & AI to decode brain states across Parkinson’s, depression & epilepsy — paving the way for adaptive, closed-loop neurotherapies.
October 24, 2025 at 9:05 AM
🧠 When brain implants start to understand — not just record.
A landmark study in Nature Biomedical Engineering combines invasive neurophysiology, connectomics & AI to decode brain states across Parkinson’s, depression & epilepsy — paving the way for adaptive, closed-loop neurotherapies.
A landmark study in Nature Biomedical Engineering combines invasive neurophysiology, connectomics & AI to decode brain states across Parkinson’s, depression & epilepsy — paving the way for adaptive, closed-loop neurotherapies.
🧠 @natureportfolio.nature.com uncovers the neuronal circuitry behind autonomic dysreflexia. The study shows how epidural electrical stimulation (EES) counteracts maladaptive networks post-SCI, restoring cardiovascular control and opening doors to precision neurorehabilitation.
#Neuroscience
#Neuroscience
October 23, 2025 at 9:53 AM
🧠 @natureportfolio.nature.com uncovers the neuronal circuitry behind autonomic dysreflexia. The study shows how epidural electrical stimulation (EES) counteracts maladaptive networks post-SCI, restoring cardiovascular control and opening doors to precision neurorehabilitation.
#Neuroscience
#Neuroscience
🧠 Imagine a bionic hand that feels.
New research in @natureportfolio.nature.com shows how cortical microstimulation can restore touch directly in the brain — merging robotics, AI, and neuroscience to bring sensory feedback to prosthetics.
Full article in comments.
#Neuroengineering #BCI
New research in @natureportfolio.nature.com shows how cortical microstimulation can restore touch directly in the brain — merging robotics, AI, and neuroscience to bring sensory feedback to prosthetics.
Full article in comments.
#Neuroengineering #BCI
October 22, 2025 at 8:45 AM
🧠 Imagine a bionic hand that feels.
New research in @natureportfolio.nature.com shows how cortical microstimulation can restore touch directly in the brain — merging robotics, AI, and neuroscience to bring sensory feedback to prosthetics.
Full article in comments.
#Neuroengineering #BCI
New research in @natureportfolio.nature.com shows how cortical microstimulation can restore touch directly in the brain — merging robotics, AI, and neuroscience to bring sensory feedback to prosthetics.
Full article in comments.
#Neuroengineering #BCI
🧠 Micropatterned Biphasic Printed Electrodes for High-Fidelity On-Skin Bioelectronics — a new Advanced Functional Materials (2025) study achieves 14× lower skin impedance (4.7 kΩ) with 3D-printed, liquid-metal electrodes, enabling gel-free, high-fidelity EEG, EMG & ECG.
#WearableTechnology
#WearableTechnology
October 21, 2025 at 9:07 AM
🧠 Micropatterned Biphasic Printed Electrodes for High-Fidelity On-Skin Bioelectronics — a new Advanced Functional Materials (2025) study achieves 14× lower skin impedance (4.7 kΩ) with 3D-printed, liquid-metal electrodes, enabling gel-free, high-fidelity EEG, EMG & ECG.
#WearableTechnology
#WearableTechnology
🎗 October is Breast Cancer Awareness Month. Global cases are projected to rise 40% by 2050 (@WHO). The role of wearable technology and remote monitoring can transform care, enabling earlier detection, continuous tracking, and improved support for women during treatment.
#BreastCancerAwarenessMonth
#BreastCancerAwarenessMonth
October 16, 2025 at 8:28 AM
🎗 October is Breast Cancer Awareness Month. Global cases are projected to rise 40% by 2050 (@WHO). The role of wearable technology and remote monitoring can transform care, enabling earlier detection, continuous tracking, and improved support for women during treatment.
#BreastCancerAwarenessMonth
#BreastCancerAwarenessMonth
🧠Where Biology Meets Technology!
New research in @natureportfolio.nature.com explores how wearable molecular sensors could transform endocrine and metabolic care — capturing hormones and metabolites from sweat, breath, and tears for real-time, personalized health insights. #WearableTech
New research in @natureportfolio.nature.com explores how wearable molecular sensors could transform endocrine and metabolic care — capturing hormones and metabolites from sweat, breath, and tears for real-time, personalized health insights. #WearableTech
October 15, 2025 at 9:58 AM
🧠Where Biology Meets Technology!
New research in @natureportfolio.nature.com explores how wearable molecular sensors could transform endocrine and metabolic care — capturing hormones and metabolites from sweat, breath, and tears for real-time, personalized health insights. #WearableTech
New research in @natureportfolio.nature.com explores how wearable molecular sensors could transform endocrine and metabolic care — capturing hormones and metabolites from sweat, breath, and tears for real-time, personalized health insights. #WearableTech
🧬 KAIST’s battery-free, skin-conformal sensor visualizes pressure, shear, & temperature via AR in real time. AI-calibrated & wearable, it enables posture monitoring, pressure injury prevention, & surgical insight — turning hidden biomechanical signals into intuitive, visual healthcare data.
October 14, 2025 at 8:47 AM
🧬 KAIST’s battery-free, skin-conformal sensor visualizes pressure, shear, & temperature via AR in real time. AI-calibrated & wearable, it enables posture monitoring, pressure injury prevention, & surgical insight — turning hidden biomechanical signals into intuitive, visual healthcare data.