Virgobit
@virgobit.bsky.social
Focusing on remote patient monitoring using wearable devices and smartphones!
www.virgobit.com
www.virgobit.com
One study. Five wearable sensors. Hundreds of participants — how do you keep it all in sync? ⏱️📡
Fragmented apps, formats & timestamps break data and reduce compliance. #Spica unifies streams in one app, syncs data in real time & boosts engagement via EMA + feedback. 📊
#DigitalHealth #Wearables
Fragmented apps, formats & timestamps break data and reduce compliance. #Spica unifies streams in one app, syncs data in real time & boosts engagement via EMA + feedback. 📊
#DigitalHealth #Wearables
January 6, 2026 at 11:58 AM
One study. Five wearable sensors. Hundreds of participants — how do you keep it all in sync? ⏱️📡
Fragmented apps, formats & timestamps break data and reduce compliance. #Spica unifies streams in one app, syncs data in real time & boosts engagement via EMA + feedback. 📊
#DigitalHealth #Wearables
Fragmented apps, formats & timestamps break data and reduce compliance. #Spica unifies streams in one app, syncs data in real time & boosts engagement via EMA + feedback. 📊
#DigitalHealth #Wearables
🔬 #Wearable EMG is redefining silent speech.
ETH Zurich shows a dry, textile neckband decoding vocalized (87%) & silent speech (68%) — no gels, no face electrodes, ultra-low power (22 mW), robust to repositioning.
Big step for assistive, private & daily-use HMI.
#Wearables #EMG #SilentSpeech
ETH Zurich shows a dry, textile neckband decoding vocalized (87%) & silent speech (68%) — no gels, no face electrodes, ultra-low power (22 mW), robust to repositioning.
Big step for assistive, private & daily-use HMI.
#Wearables #EMG #SilentSpeech
January 5, 2026 at 9:02 AM
🔬 #Wearable EMG is redefining silent speech.
ETH Zurich shows a dry, textile neckband decoding vocalized (87%) & silent speech (68%) — no gels, no face electrodes, ultra-low power (22 mW), robust to repositioning.
Big step for assistive, private & daily-use HMI.
#Wearables #EMG #SilentSpeech
ETH Zurich shows a dry, textile neckband decoding vocalized (87%) & silent speech (68%) — no gels, no face electrodes, ultra-low power (22 mW), robust to repositioning.
Big step for assistive, private & daily-use HMI.
#Wearables #EMG #SilentSpeech
🚀 #2026 is here! At Virgobit, we’re thrilled to:
✅ Build smarter tools for clinicians 🩺
✅ Empower researchers with multimodal data 📊
✅ Transform insights into healthcare breakthroughs 🔬💻
💫 Here’s to a year of health, bold ideas & limitless possibilities! 🌟
#HappyNewYear #DigitalHealth #Virgobit
✅ Build smarter tools for clinicians 🩺
✅ Empower researchers with multimodal data 📊
✅ Transform insights into healthcare breakthroughs 🔬💻
💫 Here’s to a year of health, bold ideas & limitless possibilities! 🌟
#HappyNewYear #DigitalHealth #Virgobit
December 30, 2025 at 10:34 AM
🚀 #2026 is here! At Virgobit, we’re thrilled to:
✅ Build smarter tools for clinicians 🩺
✅ Empower researchers with multimodal data 📊
✅ Transform insights into healthcare breakthroughs 🔬💻
💫 Here’s to a year of health, bold ideas & limitless possibilities! 🌟
#HappyNewYear #DigitalHealth #Virgobit
✅ Build smarter tools for clinicians 🩺
✅ Empower researchers with multimodal data 📊
✅ Transform insights into healthcare breakthroughs 🔬💻
💫 Here’s to a year of health, bold ideas & limitless possibilities! 🌟
#HappyNewYear #DigitalHealth #Virgobit
🌍🚀 2025 was a landmark year for Virgobit! From innovative digital health solutions and Spica’s evolution to high-impact research projects and scientific collaborations worldwide — together with our tech & academic partners, we advanced health innovation. Onward to 2026! 🧠📄🧪
#DigitalHealth #Virgobit
#DigitalHealth #Virgobit
December 23, 2025 at 12:18 PM
🌍🚀 2025 was a landmark year for Virgobit! From innovative digital health solutions and Spica’s evolution to high-impact research projects and scientific collaborations worldwide — together with our tech & academic partners, we advanced health innovation. Onward to 2026! 🧠📄🧪
#DigitalHealth #Virgobit
#DigitalHealth #Virgobit
🧠📱 Ecological Momentary Assessment (#EMA) by Spica captures patient-reported symptoms, behaviors, and context in real time. Fully customizable questionnaires with flexible scheduling (specific times or number of prompts) help track daily fluctuations and improve data quality for any clinical study.
December 22, 2025 at 12:18 PM
🧠📱 Ecological Momentary Assessment (#EMA) by Spica captures patient-reported symptoms, behaviors, and context in real time. Fully customizable questionnaires with flexible scheduling (specific times or number of prompts) help track daily fluctuations and improve data quality for any clinical study.
💡🚨 High-fidelity touch, now finger-scale.
An 18-g haptic ring delivers three-axis force sensing + kinaesthetic feedback using origami-inspired design and soft robotics. A major step for XR, HCI, and rehabilitation research.
#WearableTechnology
An 18-g haptic ring delivers three-axis force sensing + kinaesthetic feedback using origami-inspired design and soft robotics. A major step for XR, HCI, and rehabilitation research.
#WearableTechnology
December 19, 2025 at 10:42 AM
💡🚨 High-fidelity touch, now finger-scale.
An 18-g haptic ring delivers three-axis force sensing + kinaesthetic feedback using origami-inspired design and soft robotics. A major step for XR, HCI, and rehabilitation research.
#WearableTechnology
An 18-g haptic ring delivers three-axis force sensing + kinaesthetic feedback using origami-inspired design and soft robotics. A major step for XR, HCI, and rehabilitation research.
#WearableTechnology
🚀 Gel-free, skin-conformal #wearable ultrasound powered by tunable acoustic materials!
54% bandwidth,
+9 dB SNR,
flexible design, and in vivo tracking of carotid dynamics.
Unlocks continuous cardiovascular monitoring & next-gen on-skin diagnostics.
#WearableUltrasound #MedTech
54% bandwidth,
+9 dB SNR,
flexible design, and in vivo tracking of carotid dynamics.
Unlocks continuous cardiovascular monitoring & next-gen on-skin diagnostics.
#WearableUltrasound #MedTech
December 17, 2025 at 9:10 AM
🚀 Gel-free, skin-conformal #wearable ultrasound powered by tunable acoustic materials!
54% bandwidth,
+9 dB SNR,
flexible design, and in vivo tracking of carotid dynamics.
Unlocks continuous cardiovascular monitoring & next-gen on-skin diagnostics.
#WearableUltrasound #MedTech
54% bandwidth,
+9 dB SNR,
flexible design, and in vivo tracking of carotid dynamics.
Unlocks continuous cardiovascular monitoring & next-gen on-skin diagnostics.
#WearableUltrasound #MedTech
#Wearables are transforming assisted mobility! 🦾
From exoskeletons to smart wheelchairs, AI + multimodal sensors + human-in-the-loop design are moving devices from lab to daily life.
Cognitive load, fatigue, adaptability, and long-term usability now define real-world success.
#WearableTechnology
From exoskeletons to smart wheelchairs, AI + multimodal sensors + human-in-the-loop design are moving devices from lab to daily life.
Cognitive load, fatigue, adaptability, and long-term usability now define real-world success.
#WearableTechnology
December 16, 2025 at 9:54 AM
#Wearables are transforming assisted mobility! 🦾
From exoskeletons to smart wheelchairs, AI + multimodal sensors + human-in-the-loop design are moving devices from lab to daily life.
Cognitive load, fatigue, adaptability, and long-term usability now define real-world success.
#WearableTechnology
From exoskeletons to smart wheelchairs, AI + multimodal sensors + human-in-the-loop design are moving devices from lab to daily life.
Cognitive load, fatigue, adaptability, and long-term usability now define real-world success.
#WearableTechnology
🏃➡️🚀 Next-gen #wearable tech for endurance sports! A @natureportfolio.nature.com study presents a MXene hydrogel sensor for real-time cardiorespiratory monitoring—stretchable, antibacterial, and reliable in heat, humidity, sweat, and motion.
🔗 Full article in comments!
#WearableTechnology
🔗 Full article in comments!
#WearableTechnology
December 15, 2025 at 9:27 AM
🏃➡️🚀 Next-gen #wearable tech for endurance sports! A @natureportfolio.nature.com study presents a MXene hydrogel sensor for real-time cardiorespiratory monitoring—stretchable, antibacterial, and reliable in heat, humidity, sweat, and motion.
🔗 Full article in comments!
#WearableTechnology
🔗 Full article in comments!
#WearableTechnology
🚀 #AI + #Wearables are transforming cardiovascular care! Continuous, AI-powered monitoring via ECG, PPG, HRV & more enables early detection of heart disease, arrhythmias & LV dysfunction. Real-world trials show promise in therapy monitoring & risk prediction. #DigitalHealth #Cardiology #MedTech
December 10, 2025 at 9:33 AM
🚀 #AI + #Wearables are transforming cardiovascular care! Continuous, AI-powered monitoring via ECG, PPG, HRV & more enables early detection of heart disease, arrhythmias & LV dysfunction. Real-world trials show promise in therapy monitoring & risk prediction. #DigitalHealth #Cardiology #MedTech
🚀 #AI + #wearable biosensors can predict inpatient deterioration up to 24 hours earlier than standard monitoring, per a new Nature Communications study across 888 patients—marking real progress toward continuous, physiology-driven precision care in hospitals.
#DigitalHealth #ClinicalAI
#DigitalHealth #ClinicalAI
December 9, 2025 at 9:25 AM
🚀 #AI + #wearable biosensors can predict inpatient deterioration up to 24 hours earlier than standard monitoring, per a new Nature Communications study across 888 patients—marking real progress toward continuous, physiology-driven precision care in hospitals.
#DigitalHealth #ClinicalAI
#DigitalHealth #ClinicalAI
🚀A major breakthrough in noise-tolerant #wearables:
deep-learning sensors that decode gestures even during running, vibration, and ocean-wave motion. A powerful step toward reliable, real-world human–machine interfaces across clinical, robotics, and aquatic environments.
#WearableTechnology
deep-learning sensors that decode gestures even during running, vibration, and ocean-wave motion. A powerful step toward reliable, real-world human–machine interfaces across clinical, robotics, and aquatic environments.
#WearableTechnology
December 8, 2025 at 9:07 AM
🚀A major breakthrough in noise-tolerant #wearables:
deep-learning sensors that decode gestures even during running, vibration, and ocean-wave motion. A powerful step toward reliable, real-world human–machine interfaces across clinical, robotics, and aquatic environments.
#WearableTechnology
deep-learning sensors that decode gestures even during running, vibration, and ocean-wave motion. A powerful step toward reliable, real-world human–machine interfaces across clinical, robotics, and aquatic environments.
#WearableTechnology
🚀Spica goes beyond wearables — delivering lab-grade cognitive, affective, and motor tasks remotely while syncing high-resolution physiological data.
Used in @trr393.bsky.social & Charité’s RETUNE project for affective and Parkinson’s research.
We’re adding more tasks!
get in touch! info@virgobit.com
Used in @trr393.bsky.social & Charité’s RETUNE project for affective and Parkinson’s research.
We’re adding more tasks!
get in touch! info@virgobit.com
December 4, 2025 at 10:49 AM
🚀Spica goes beyond wearables — delivering lab-grade cognitive, affective, and motor tasks remotely while syncing high-resolution physiological data.
Used in @trr393.bsky.social & Charité’s RETUNE project for affective and Parkinson’s research.
We’re adding more tasks!
get in touch! info@virgobit.com
Used in @trr393.bsky.social & Charité’s RETUNE project for affective and Parkinson’s research.
We’re adding more tasks!
get in touch! info@virgobit.com
🚀A major breakthrough in wearable #EMG:
Stanford researchers show that a compact 6-channel device can achieve 32-channel-level performance using a generative EMG model. A significant step forward for gait analysis, gesture decoding, and real-world neuromuscular monitoring. #WearableTechnology
Stanford researchers show that a compact 6-channel device can achieve 32-channel-level performance using a generative EMG model. A significant step forward for gait analysis, gesture decoding, and real-world neuromuscular monitoring. #WearableTechnology
December 3, 2025 at 9:42 AM
🚀A major breakthrough in wearable #EMG:
Stanford researchers show that a compact 6-channel device can achieve 32-channel-level performance using a generative EMG model. A significant step forward for gait analysis, gesture decoding, and real-world neuromuscular monitoring. #WearableTechnology
Stanford researchers show that a compact 6-channel device can achieve 32-channel-level performance using a generative EMG model. A significant step forward for gait analysis, gesture decoding, and real-world neuromuscular monitoring. #WearableTechnology
🚀 Tiny neck sensor + interpretable AI = next-gen sleep monitoring!
LMA captures cardio + respiratory signals, outperforming HRV for sleep-stage detection, matching human REM scoring, detecting OSA/snoring, & enabling personalized, at-home sleep phenotyping.
#SleepScience #WearableTech
LMA captures cardio + respiratory signals, outperforming HRV for sleep-stage detection, matching human REM scoring, detecting OSA/snoring, & enabling personalized, at-home sleep phenotyping.
#SleepScience #WearableTech
December 2, 2025 at 10:46 AM
🚀 Tiny neck sensor + interpretable AI = next-gen sleep monitoring!
LMA captures cardio + respiratory signals, outperforming HRV for sleep-stage detection, matching human REM scoring, detecting OSA/snoring, & enabling personalized, at-home sleep phenotyping.
#SleepScience #WearableTech
LMA captures cardio + respiratory signals, outperforming HRV for sleep-stage detection, matching human REM scoring, detecting OSA/snoring, & enabling personalized, at-home sleep phenotyping.
#SleepScience #WearableTech
🚀A major @natureportfolio.nature.com breakthrough: a multimodal wristband combining microneedle chemistry with ultrasound vitals to track glucose, lactate, BP, stiffness & HR in real time.
A powerful step toward integrated cardiometabolic monitoring and the future of intelligent digital health.
A powerful step toward integrated cardiometabolic monitoring and the future of intelligent digital health.
December 1, 2025 at 10:28 AM
🚀A major @natureportfolio.nature.com breakthrough: a multimodal wristband combining microneedle chemistry with ultrasound vitals to track glucose, lactate, BP, stiffness & HR in real time.
A powerful step toward integrated cardiometabolic monitoring and the future of intelligent digital health.
A powerful step toward integrated cardiometabolic monitoring and the future of intelligent digital health.
🚀 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