Please read our newest article in Nature Biomedical Engineering! Fantastic tweet 🧵 by Luca Rosalia. Continual strong 💪 collaboration with Ellen Roche MIT at HST @TallRoundsTM ClevelandClinicNews Cleveland Clinic

Delighted to share our latest paper on a soft robotic aortic sleeve that mimics the biomechanics and hemodynamics of aortic stenosis and left ventricular pressure overload in NBME. Congratulations to all authors!! Excellent summary below 👇🏼

Read our behind-the-paper piece posted on the Nature Portfolio Bioengineering Community 👨‍🔬🧪 Recreating cardiovascular disease using soft robotics bioengineeringcommunity.nature.com/posts/recreati… Original article: rdcu.be/cWnZe @CaglarOzturkPhd Ellen Roche MIT Christopher Nguyen, PhD, FSCMR, FACC MIT MechE MIT IMES

"We realised that [...] soft robotics could help us simulate the biomechanical function of the aortic valve and mimic changes associated with disease more closely than current models." #BehindThePaper go.nature.com/3SHhtw5 rdcu.be/cWuGL [Paper]

Happy to share that our work in Nature Biomedical Engineering has been chosen for the cover of the October issue! Cleveland Clinic Heart, Vascular & Thoracic Cleveland Clinic #CCF_CIRC Special congrats to Luca Rosalia @CaglarOzturkPhd Amazing strong 💪 collab with Ellen Roche MIT from MIT IMES HST nature.com/articles/s4155…

Striking cover artwork for our recently published Nature Biomedical Engineering article - congrats to the Roboband team! Luca Rosalia @CaglarOzturkPhD MIT MechE MIT IMES

The October cover illustrates an implantable soft robotic sleeve that recapitulates the haemodynamics and biomechanics of aortic stenosis. go.nature.com/3SbWQqZ rdcu.be/cWuGL [Paper]

We are on the cover of Nature Biomedical Engineering! Check out the latest issue lnkd.in/eD7BRGQF for our work on an implantable soft robotic sleeve that recapitulates the haemodynamics and biomechanics of aortic stenosis. Luca Rosalia Ellen Roche MIT Christopher Nguyen, PhD, FSCMR, FACC

Beyond excited to share more detail and clinical implications of our recent work in Nature Biomedical Engineering with Luca Rosalia @CaglarOzturkPhd Debkalpa Goswami Jaume Coll-Font and co-led by Ellen Roche MIT consultqd.clevelandclinic.org/adjustable-sof… Cleveland Clinic Heart, Vascular & Thoracic Cleveland Clinic BME Cleveland Clinic

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. Luca Rosalia Christopher Nguyen, PhD, FSCMR, FACC Ellen Roche MIT HST 📄: scim.ag/1Ee

So excited to see our work on a patient-specific soft robotic simulator of aortic stenosis and ventricular remodeling published today in Science Robotics. Ellen Roche MIT Christopher Nguyen, PhD, FSCMR, FACC. Original article: science.org/doi/10.1126/sc… MIT news story: news.mit.edu/2023/custom-3d…

Super excited to see our newest work published in Science Robotics Many thanks to the dream team! Luca Rosalia Ellen Roche MIT Christopher Nguyen, PhD, FSCMR, FACC Debkalpa Goswami Original Article: science.org/doi/10.1126/sc…

Another wonderful collaboration with Ellen Roche MIT MIT IMES HST. Awesome to work closely with Luca Rosalia @CaglarOzturkPhd Debkalpa Goswami Samir Kapadia Rishi Puri Cleveland Clinic Heart, Vascular & Thoracic Cleveland Clinic

A new soft #robotics sleeve created by Luca Rosalia Ellen Roche MIT Christopher Nguyen, PhD, FSCMR, FACC HST can depict how aortic stenosis affects fluid dynamics of blood in patients’ specific hearts. scim.ag/1Hf

Custom, 3D-printed heart replicas look and pump just like the real thing: The soft robotic models are patient-specific and could help clinicians zero in on the best implant for an individual. mitsha.re/ZKs650N67qo Video: Melanie Gonick/MIT

POSTDOC POSITION (please RT 🙂) My new lab Cleveland Clinic has an immediate postdoc opening in cardiovascular biomechanics. The ideal candidate would have a background in MechE, BME, or a related field. Prior experience in one of the following is especially welcome: 1/3

Thrilled to see this! Thanks CNN for covering our work. Luca Rosalia Debkalpa Goswami Christopher Nguyen, PhD, FSCMR, FACC Ellen Roche MIT Sophie Wang Jean Bonnemain and team!

Controllable, progressive, and reversible aortic banding - an application of soft robotics in small animal disease modeling! Sophie Wang Caglar Ozturk Wei Huang, Jean Bonnemain Rachel Beatty Garry P. Duffy Christopher Nguyen, PhD, FSCMR, FACC Ellen Roche MIT. Now out as a preprint⬇️ researchsquare.com/article/rs-310…

Our paper on a robotic right ventricle is out today in Nature Cardiovascular Engineering @naturecvr open access paper available at nature.com/articles/s4416… and super MIT news story here news.mit.edu/2023/mit-engin…

Early diagnosis & personalized treatment are key for people with aortic stenosis. 🫀 AI-powered models can now create patient-specific simulations from CT scans 100x faster, capturing geometry & blood flow for tailored care. Ellen Roche MIT Caglar Ozturk 👉 ow.ly/vn8r50Uq9rI