Soft robotic patient-specific hydrodynamic model of aortic stenosis and ventricular remodeling | Science Robotics https://t.co/izkFdPWPOY
RT @SciRobotics: This soft robotic sleeve can depict aortic stenosis's influence on blood dynamics and customizable to reflect cardiovascul…
RT @SciRobotics: This soft robotic sleeve can depict aortic stenosis's influence on blood dynamics and customizable to reflect cardiovascul…
RT @SciRobotics: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features…
RT @SciRobotics: This soft robotic sleeve can depict aortic stenosis's influence on blood dynamics and customizable to reflect cardiovascul…
RT @SciRobotics: This soft robotic sleeve can depict aortic stenosis's influence on blood dynamics and customizable to reflect cardiovascul…
RT @SciRobotics: This soft robotic sleeve can depict aortic stenosis's influence on blood dynamics and customizable to reflect cardiovascul…
This soft robotic sleeve can depict aortic stenosis's influence on blood dynamics and customizable to reflect cardiovascular conditions in patient's anatomically unique hearts. Check out the device described in Science #Robotics for #WorldHeartDay ⤵️
Don't miss how a patient-specific #SoftRobot sleeve was usedto recreate and study hemodynamics related to cardiac congenital and degenerative diseases.
RT @SciRobotics: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features…
RT @SciRobotics: A new soft #robotics sleeve created by @Luca_Rosalia @ellentroche @ChrisNguyenPhD @mit_hst can depict how aortic stenosis…
RT @nih_nhlbi: Using #robotics, researchers @MIT developed customized, 3D-printed heart replicas that look and function like a patient’s ow…
RT @nih_nhlbi: Using #robotics, researchers @MIT developed customized, 3D-printed heart replicas that look and function like a patient’s ow…
RT @nih_nhlbi: Using #robotics, researchers @MIT developed customized, 3D-printed heart replicas that look and function like a patient’s ow…
RT @nih_nhlbi: Using #robotics, researchers @MIT developed customized, 3D-printed heart replicas that look and function like a patient’s ow…
Using #robotics, researchers @MIT developed customized, 3D-printed heart replicas that look and function like a patient’s own heart. The synthetic models could lead to better-fitting implants and help guide improved surgical outcomes. https://t.co/EQ53vO0k
Custom, 3D-printed heart replicas look and pump just like the real thing https://t.co/RfiQqJNvDr https://t.co/46j7r4q8Bl https://t.co/J2xxJXtlIp
RT @Luca_Rosalia: Amazing to see our work on @CNN - @ellentroche @ChrisNguyenPhD @cozturkphd @DebkalpaGoswami Sophie Wang and team! https:…
Go team!!! Thanks @CNN for the great coverage of our work
Amazing to see our work on @CNN - @ellentroche @ChrisNguyenPhD @cozturkphd @DebkalpaGoswami Sophie Wang and team! https://t.co/7SiS9xyREA
"@MIT engineers are hoping to help doctors tailor treatments to patients’ specific heart form and function, with a custom robotic heart." 📰: https://t.co/vqoc6eR7nK 📝⬇ by Jennifer Chu https://t.co/k9uU1Galjj
RT @UNESCO_AlFozan: Soft #robotic model of the heart can assist treatment of #heart_diseases. https://t.co/oLAqx9eKnE
RT @UNESCO_AlFozan: الأن #روبوتات مرنة شبيهة بالقلب تساعد على علاج #أمراض_القلب https://t.co/oLAqx9eKnE
RT @UNESCO_AlFozan: Soft #robotic model of the heart can assist treatment of #heart_diseases. https://t.co/oLAqx9eKnE
RT @UNESCO_AlFozan: Un modèle #robotique souple du cœur peut faciliter le traitement des #maladies_cardiaques https://t.co/oLAqx9eKnE
RT @UNESCO_AlFozan: الأن #روبوتات مرنة شبيهة بالقلب تساعد على علاج #أمراض_القلب https://t.co/oLAqx9eKnE
الأن #روبوتات مرنة شبيهة بالقلب تساعد على علاج #أمراض_القلب https://t.co/oLAqx9eKnE
Un modèle #robotique souple du cœur peut faciliter le traitement des #maladies_cardiaques https://t.co/oLAqx9eKnE
Soft #robotic model of the heart can assist treatment of #heart_diseases. https://t.co/oLAqx9eKnE
RT @ScienceMagazine: A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific heart…
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
RT @ScienceMagazine: A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific heart…
RT @VIncelius: ScienceMagazine: A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ spe…
ScienceMagazine: A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific hearts. @SciRobotics https://t.co/HtDAK2cN3G https://t.co/ruJxJL1Ggm
A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific hearts. @SciRobotics https://t.co/2BbSZLjISS https://t.co/7Mf2WiflY3
#MQECON3018_HE @kompalsinha this could actually become a very vital product that is open to further develop for other organs through research and appropriate funding.
RT @VIncelius: ScienceMagazine: A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ spe…
ScienceMagazine: A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific hearts. @SciRobotics https://t.co/8iM0hk5m8f https://t.co/EjzHHrsZUZ
RT @ScienceMagazine: A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific heart…
RT @ScienceMagazine: A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific heart…
A new soft #robotics sleeve can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific hearts. @SciRobotics https://t.co/hS1ZxKzren https://t.co/Zd3Y8J8d2p
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
RT @VIncelius: ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific an…
RT @VIncelius: ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific an…
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features in the context of cardiac diseases, such as aortic stenosis. Read more in @SciRobotics: https://t.co/hwezYpgApY htt
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features in the context of cardiac diseases, such as aortic stenosis. Read more in @SciRobotics: https://t.co/RYMBbAh3lG https://t.co/KcjGtGu
This soft robotic sleeve is customizable to reflect detailed insights about the blood dynamics within any anatomically unique heart. The platform can be use to evaluate the efficacy of clinical interventions, such as those used to treat aortic stenosis.
RT @SciRobotics: A new soft #robotics sleeve created by @Luca_Rosalia @ellentroche @ChrisNguyenPhD @mit_hst can depict how aortic stenosis…
RT @medical_xpress: Custom, 3D-printed #heart replicas look and pump just like the real thing @MIT @SciRobotics https://t.co/e0bqzm5HMk htt…
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features in the context of cardiac diseases, such as aortic stenosis. Read more in @SciRobotics: https://t.co/r0fccTkRru htt
RT @ScienceMagazine: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic feat…
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A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features in the context of cardiac diseases, such as aortic stenosis. Read more in @SciRobotics: https://t.co/OjujcKWv51 https://t.co/5uWG2w7
RT @SciRobotics: A new soft #robotics sleeve created by @Luca_Rosalia @ellentroche @ChrisNguyenPhD @mit_hst can depict how aortic stenosis…
Soft robotic patient-specific hydrodynamic model of aortic stenosis and ventricular remodeling https://t.co/i1Uqx0jVzW
Interessant: "Custom, 3D-Printed Heart Replicas Look and Pump Just Like the Real Thing 18" https://t.co/9AQeYQhZx7
RT @CaglarOzturkPhd: Super excited to see our newest work published in @SciRobotics Many thanks to the dream team! @Luca_Rosalia @ellentroc…
RT @SciRobotics: A new soft #robotics sleeve created by @Luca_Rosalia @ellentroche @ChrisNguyenPhD @mit_hst can depict how aortic stenosis…
Soft robotic patient-specific hydrodynamic model of aortic stenosis and ventricular remodeling https://t.co/PfZfNr10Yk #cardiology #cardiacsurgery #heartdisease #heartdiseaseawareness #heartcare #cardiovasculardisease #cardiologist #pediatric
RT @SciRobotics: A new soft #robotics sleeve created by @Luca_Rosalia @ellentroche @ChrisNguyenPhD @mit_hst can depict how aortic stenosis…
RT @SciRobotics: A new soft #robotics sleeve created by @Luca_Rosalia @ellentroche @ChrisNguyenPhD @mit_hst can depict how aortic stenosis…
RT @Luca_Rosalia: So excited to see our work on a patient-specific soft robotic simulator of aortic stenosis and ventricular remodeling pub…
RT @SciRobotics: A new soft #robotics sleeve created by @Luca_Rosalia @ellentroche @ChrisNguyenPhD @mit_hst can depict how aortic stenosis…
RT @SciRobotics: A new soft #robotics sleeve created by @Luca_Rosalia @ellentroche @ChrisNguyenPhD @mit_hst can depict how aortic stenosis…
A new soft #robotics sleeve created by @Luca_Rosalia @ellentroche @ChrisNguyenPhD @mit_hst can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific hearts. https://t.co/URPpn32QwP https://t.co/8b7XiSU7z6
RT @SciRobotics: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features…
Day 13: https://t.co/aXQIDuNzHa Use of soft robotic prosthetic for aortic stenosis in 15 patients. Patient-specific hydrodynamic 3D-printed sleeves, compared to current systems, modulate aortic root diametes thus allowing for real-time tuning to mimic pat
RT @yonmacklein: Corazón impreso en 3D que funciona como un real, creado en el MIT https://t.co/nA9UO7ex8z https://t.co/Fe4WJ5K7j0
Soft robotic patient-specific hydrodynamic model of aortic stenosis and ventricular remodeling https://t.co/7Frvkusk2n
Soft robotic patient-specific hydrodynamic model of aortic stenosis and ventricular remodeling @ScienceMagazine https://t.co/5TD5DUBC70
Corazón impreso en 3D que funciona como un real, creado en el MIT https://t.co/nA9UO7ex8z https://t.co/Fe4WJ5K7j0
RT @MedicalPenn: MIT researchers 3dprinted soft robotic heart replicas using clinical and radiographic data to recreate the patients hemody…
MIT researchers 3dprinted soft robotic heart replicas using clinical and radiographic data to recreate the patients hemodynamics. These models could play a role in device development, planning procedures, & predicting outcomes. #ScienceRobotics #3dprin
RT @SciRobotics: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features…
RT @ChrisNguyenPhD: Another wonderful collaboration with @ellentroche @MIT_IMES @mit_hst. Awesome to work closely with @Luca_Rosalia @Cag…
RT @Luca_Rosalia: So excited to see our work on a patient-specific soft robotic simulator of aortic stenosis and ventricular remodeling pub…
RT @ChrisNguyenPhD: Another wonderful collaboration with @ellentroche @MIT_IMES @mit_hst. Awesome to work closely with @Luca_Rosalia @Cag…
RT @Luca_Rosalia: So excited to see our work on a patient-specific soft robotic simulator of aortic stenosis and ventricular remodeling pub…
Można sfotografować serce człowieka i wydrukować jego replikę! Po co? Żeby na replice wypróbować działanie zastawek i innych urządzeń które trzeba włożyć do prawdziwego serca. To sztuczne serce nawet się porusza! Jest elastyczne. 🤔 https://t.co/28oBRv3qZ
RT @agingdoc1: Soft robotic patient-specific hydrodynamic model of aortic stenosis and ventricular remodeling https://t.co/eI9sTQLzvv @Sci…
Soft robotic patient-specific hydrodynamic model of aortic stenosis and ventricular remodeling https://t.co/eI9sTQLzvv @SciRobotics https://t.co/cLX9wZgQeR
RT @Luca_Rosalia: So excited to see our work on a patient-specific soft robotic simulator of aortic stenosis and ventricular remodeling pub…
RT @Luca_Rosalia: So excited to see our work on a patient-specific soft robotic simulator of aortic stenosis and ventricular remodeling pub…
RT @medical_xpress: Custom, 3D-printed #heart replicas look and pump just like the real thing @MIT @SciRobotics https://t.co/e0bqzm5HMk htt…
Amazing job, Luca, congrats!!!
RT @medical_xpress: Custom, 3D-printed #heart replicas look and pump just like the real thing @MIT @SciRobotics https://t.co/e0bqzm5HMk htt…
RT @Luca_Rosalia: So excited to see our work on a patient-specific soft robotic simulator of aortic stenosis and ventricular remodeling pub…
RT @ChrisNguyenPhD: Another wonderful collaboration with @ellentroche @MIT_IMES @mit_hst. Awesome to work closely with @Luca_Rosalia @Cag…
RT @SciRobotics: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features…
RT @SciRobotics: A new soft #robotics model of the heart offers a personalized way to study this organ’s patient-specific anatomic features…