Virgobit
@virgobit.bsky.social
Focusing on remote patient monitoring using wearable devices and smartphones!
www.virgobit.com
www.virgobit.com
📢Upcoming conferences 2026:
Virgobit will participate in the 3rd Expert Summit on the Future of Deep Brain Stimulation, DGKN 2026 , and Health Tech Global Summit .
Let’s connect to discuss remote monitoring, DBS research, and wearable-integrated studies. send a DM or email us at [email protected].
Virgobit will participate in the 3rd Expert Summit on the Future of Deep Brain Stimulation, DGKN 2026 , and Health Tech Global Summit .
Let’s connect to discuss remote monitoring, DBS research, and wearable-integrated studies. send a DM or email us at [email protected].
February 17, 2026 at 12:45 PM
📢Upcoming conferences 2026:
Virgobit will participate in the 3rd Expert Summit on the Future of Deep Brain Stimulation, DGKN 2026 , and Health Tech Global Summit .
Let’s connect to discuss remote monitoring, DBS research, and wearable-integrated studies. send a DM or email us at [email protected].
Virgobit will participate in the 3rd Expert Summit on the Future of Deep Brain Stimulation, DGKN 2026 , and Health Tech Global Summit .
Let’s connect to discuss remote monitoring, DBS research, and wearable-integrated studies. send a DM or email us at [email protected].
We launched the Spica Research Kit! 🚀
Includes #wearable, compatible smartphone, and Spica app with integrated experimental tasks—a turnkey platform for small-scale studies. Collect high-quality #multimodal health data efficiently, reliably, and without complex setups. 🎯
📩[email protected]
Includes #wearable, compatible smartphone, and Spica app with integrated experimental tasks—a turnkey platform for small-scale studies. Collect high-quality #multimodal health data efficiently, reliably, and without complex setups. 🎯
📩[email protected]
February 16, 2026 at 10:21 AM
We launched the Spica Research Kit! 🚀
Includes #wearable, compatible smartphone, and Spica app with integrated experimental tasks—a turnkey platform for small-scale studies. Collect high-quality #multimodal health data efficiently, reliably, and without complex setups. 🎯
📩[email protected]
Includes #wearable, compatible smartphone, and Spica app with integrated experimental tasks—a turnkey platform for small-scale studies. Collect high-quality #multimodal health data efficiently, reliably, and without complex setups. 🎯
📩[email protected]
Many promising small-scale clinical or research studies never get started.
Technical setup, multiple devices, and data management slow research down. What if you could start collecting high-quality, continuous data immediately? The best solution by Virgobit is coming soon. 👀
#DigitalHealth
Technical setup, multiple devices, and data management slow research down. What if you could start collecting high-quality, continuous data immediately? The best solution by Virgobit is coming soon. 👀
#DigitalHealth
February 13, 2026 at 11:39 AM
Many promising small-scale clinical or research studies never get started.
Technical setup, multiple devices, and data management slow research down. What if you could start collecting high-quality, continuous data immediately? The best solution by Virgobit is coming soon. 👀
#DigitalHealth
Technical setup, multiple devices, and data management slow research down. What if you could start collecting high-quality, continuous data immediately? The best solution by Virgobit is coming soon. 👀
#DigitalHealth
🚀 Enzymatic microbubble robots are advancing microrobotics from motion to medicine! Magnetically guided & chemotactic, fully biodegradable, and visible via ultrasound, they enable targeted therapy in vivo — integrating propulsion, imaging, navigation, and drug delivery for clinical translation.
February 12, 2026 at 9:01 AM
🚀 Enzymatic microbubble robots are advancing microrobotics from motion to medicine! Magnetically guided & chemotactic, fully biodegradable, and visible via ultrasound, they enable targeted therapy in vivo — integrating propulsion, imaging, navigation, and drug delivery for clinical translation.
How reliable is mobile #brain training with BrainGoMo compared to clinical systems?
In recent validation sessions, our mobile system closely matched clinical-grade devices — confirming that BrainGoMo delivers scientifically robust #neurofeedback, even outside the clinic. #Neurotechnology #Virgobit
In recent validation sessions, our mobile system closely matched clinical-grade devices — confirming that BrainGoMo delivers scientifically robust #neurofeedback, even outside the clinic. #Neurotechnology #Virgobit
February 11, 2026 at 11:54 AM
How reliable is mobile #brain training with BrainGoMo compared to clinical systems?
In recent validation sessions, our mobile system closely matched clinical-grade devices — confirming that BrainGoMo delivers scientifically robust #neurofeedback, even outside the clinic. #Neurotechnology #Virgobit
In recent validation sessions, our mobile system closely matched clinical-grade devices — confirming that BrainGoMo delivers scientifically robust #neurofeedback, even outside the clinic. #Neurotechnology #Virgobit
📢Research Collaboration Call
We welcome collaboration with academic and clinical institutions on projects involving mobile health platforms, wearable sensors, and longitudinal studies. Open to joint proposals across EU & DACH funding schemes (Horizon Europe, EIT Health, BMBF, DFG). [email protected]
We welcome collaboration with academic and clinical institutions on projects involving mobile health platforms, wearable sensors, and longitudinal studies. Open to joint proposals across EU & DACH funding schemes (Horizon Europe, EIT Health, BMBF, DFG). [email protected]
February 10, 2026 at 1:24 PM
📢Research Collaboration Call
We welcome collaboration with academic and clinical institutions on projects involving mobile health platforms, wearable sensors, and longitudinal studies. Open to joint proposals across EU & DACH funding schemes (Horizon Europe, EIT Health, BMBF, DFG). [email protected]
We welcome collaboration with academic and clinical institutions on projects involving mobile health platforms, wearable sensors, and longitudinal studies. Open to joint proposals across EU & DACH funding schemes (Horizon Europe, EIT Health, BMBF, DFG). [email protected]
#Wearable continuous drug monitoring is moving closer to reality 🩺📊
A new @natureportfolio.nature.com study demonstrates a wearable electrochemical aptamer-based patch for real-time vancomycin measurement, highlighting progress toward precision dosing and continuous pharmacokinetic monitoring🔬
A new @natureportfolio.nature.com study demonstrates a wearable electrochemical aptamer-based patch for real-time vancomycin measurement, highlighting progress toward precision dosing and continuous pharmacokinetic monitoring🔬
February 9, 2026 at 11:58 AM
#Wearable continuous drug monitoring is moving closer to reality 🩺📊
A new @natureportfolio.nature.com study demonstrates a wearable electrochemical aptamer-based patch for real-time vancomycin measurement, highlighting progress toward precision dosing and continuous pharmacokinetic monitoring🔬
A new @natureportfolio.nature.com study demonstrates a wearable electrochemical aptamer-based patch for real-time vancomycin measurement, highlighting progress toward precision dosing and continuous pharmacokinetic monitoring🔬
🚀Spica lets researchers capture Parkinson’s task performance and wearable data at the same time.
From finger tapping & tremor to balance and reaction time—plus #HR, #HRV, #activity, #sleep & more—Spica enables continuous, real-world PD monitoring and personalized rehab.
#Parkinsons #Wearables
From finger tapping & tremor to balance and reaction time—plus #HR, #HRV, #activity, #sleep & more—Spica enables continuous, real-world PD monitoring and personalized rehab.
#Parkinsons #Wearables
February 5, 2026 at 12:26 PM
🚀Spica lets researchers capture Parkinson’s task performance and wearable data at the same time.
From finger tapping & tremor to balance and reaction time—plus #HR, #HRV, #activity, #sleep & more—Spica enables continuous, real-world PD monitoring and personalized rehab.
#Parkinsons #Wearables
From finger tapping & tremor to balance and reaction time—plus #HR, #HRV, #activity, #sleep & more—Spica enables continuous, real-world PD monitoring and personalized rehab.
#Parkinsons #Wearables
🚀 Pilot study validates a #wearable for #ParkinsonsDisease at the movement level.
Tremor & akinesia reach 100% sensitivity (≥93% specificity), sensors track Levodopa response, and rule-based algorithms ensure traceability. Dyskinesia detection is limited during gait. Measurement > classification.
Tremor & akinesia reach 100% sensitivity (≥93% specificity), sensors track Levodopa response, and rule-based algorithms ensure traceability. Dyskinesia detection is limited during gait. Measurement > classification.
February 4, 2026 at 9:18 AM
🚀 Pilot study validates a #wearable for #ParkinsonsDisease at the movement level.
Tremor & akinesia reach 100% sensitivity (≥93% specificity), sensors track Levodopa response, and rule-based algorithms ensure traceability. Dyskinesia detection is limited during gait. Measurement > classification.
Tremor & akinesia reach 100% sensitivity (≥93% specificity), sensors track Levodopa response, and rule-based algorithms ensure traceability. Dyskinesia detection is limited during gait. Measurement > classification.
🚀A new study unveils a wearable bioelectronic system that objectively tracks stress. It combines #ECG, #GSR, #pulse, #temp & #sweat cortisol, runs battery-free, and uses AI to distinguish stress states—enabling continuous, multimodal, biologically grounded stress monitoring.
February 3, 2026 at 9:23 AM
How can we objectively record #Parkinsonian symptoms outside the clinic? 🧠📱
We added a comprehensive task library for Parkinsonian patients, enabling objective assessment of motor control, dexterity, balance, tremor, and fine motor function using smartphones to generate digital biomarkers.
#Virgobit
We added a comprehensive task library for Parkinsonian patients, enabling objective assessment of motor control, dexterity, balance, tremor, and fine motor function using smartphones to generate digital biomarkers.
#Virgobit
February 2, 2026 at 1:39 PM
How can we objectively record #Parkinsonian symptoms outside the clinic? 🧠📱
We added a comprehensive task library for Parkinsonian patients, enabling objective assessment of motor control, dexterity, balance, tremor, and fine motor function using smartphones to generate digital biomarkers.
#Virgobit
We added a comprehensive task library for Parkinsonian patients, enabling objective assessment of motor control, dexterity, balance, tremor, and fine motor function using smartphones to generate digital biomarkers.
#Virgobit
Self‑recoverable porous #sensors that you can write into shape: new work in Advanced Science shows thermo‑responsive, shape‑editable porous electrodes enabling multimodal motion sensing in smart insoles, joint bands, and gloves. 🧠🦵
#WearableSensors #SmartMaterials
#WearableSensors #SmartMaterials
January 28, 2026 at 11:45 AM
Self‑recoverable porous #sensors that you can write into shape: new work in Advanced Science shows thermo‑responsive, shape‑editable porous electrodes enabling multimodal motion sensing in smart insoles, joint bands, and gloves. 🧠🦵
#WearableSensors #SmartMaterials
#WearableSensors #SmartMaterials
🧬 #Wearable platforms are enabling time-resolved cortisol monitoring from #sweat.
A new Nature Sensors study reports a skin-interfaced, paper-based microfluidic system capturing circadian rhythms, acute stress responses, and jet-lag effects—without invasive sampling or continuous electronics.
A new Nature Sensors study reports a skin-interfaced, paper-based microfluidic system capturing circadian rhythms, acute stress responses, and jet-lag effects—without invasive sampling or continuous electronics.
January 27, 2026 at 12:24 PM
🧠🔬 From signals to sentences: a soft #wearable reads subtle throat & heart activity, using AI to turn intent into fluent speech for stroke survivors with dysarthria. Continuous, natural communication that amplifies intent—designed for real life, not just metrics.
#StrokeRehabilitation #Dysarthria
#StrokeRehabilitation #Dysarthria
January 26, 2026 at 10:14 AM
🧠🔬 From signals to sentences: a soft #wearable reads subtle throat & heart activity, using AI to turn intent into fluent speech for stroke survivors with dysarthria. Continuous, natural communication that amplifies intent—designed for real life, not just metrics.
#StrokeRehabilitation #Dysarthria
#StrokeRehabilitation #Dysarthria
🤖🧬 Micro-robots + AI + IVF may be the next frontier of reproductive medicine. A new @natureportfolio.nature.com article shows how micro-robotics, nanobiosensors, wearables & AI could enable more objective, less invasive and more automated ART — while raising key ethical & regulatory questions.
January 7, 2026 at 10:02 AM
🤖🧬 Micro-robots + AI + IVF may be the next frontier of reproductive medicine. A new @natureportfolio.nature.com article shows how micro-robotics, nanobiosensors, wearables & AI could enable more objective, less invasive and more automated ART — while raising key ethical & regulatory questions.
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