Researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences have developed a technique that allows them to 3D print a heart ventricle, that can then go on to beat rhythmically. The technology could allow researchers to create heart models to test new ...
Read moreResearchers at Northwestern University have developed a cardiac monitoring device that is intended for use in patients who have suffered a cardiac event. The soft and flexible patch can be affixed to the outside of the heart during a routine procedure, but does not require a s...
Read moreResearchers at Harvard University have developed a technique that lets them create biomaterial heart valves in a matter of minutes. The approach, called ‘Focused Rotary Jet Spinning’, has been described by the researchers as ‘a cotton-candy machine with a hair dryer behind it....
Read moreResearchers at MIT have developed a metal-free electrode using conductive polymers. The electrode is flexible and strong enough for long-term implantation in the body. The device is intended as an advanced replacement for rigid metal electrodes that can cause tissue damage and...
Read moreResearchers at the Ohio State University Wexner Medical Center have developed a medical device that is intended to improve patient safety during cardiac ablation procedures to treat atrial fibrillation (AFib). At present, the esophagus can lie very near to the target tissue du...
Read moreResearchers at the University of Birmingham in the United Kingdom have developed a microfluidic device that mimics a human vein, including anatomical features such as valves, and physiological features such as pulsatile flow. The device is intended to make it easier to study p...
Read moreResearchers at Northwestern University and the University of Texas at Austin have developed a thin and flexible graphene “tattoo” that can be affixed to the outside of the heart, and which can monitor heart rhythms and apply corrective electrical impulses to treat arrhythmias....
Read moreResearchers at Linköping University in Sweden have developed a method whereby the body can ‘grow its own’ electrodes. The minimally invasive technique involves injecting a hydrogel that is laden with enzymes into target tissues. The enzymes interact with molecules that are pre...
Read moreResearchers at MIT have developed soft robotic heart replicas that closely match the anatomy of real people. The researchers used medical images of patient hearts to construct computer models that are suitable for 3D printing. Once printed with a soft material, the patient-spe...
Read moreResearchers at the University of Sydney in Australia have developed an electrospun blood vessel replacement. The material contains tropoelastin, a natural precursor for elastin, a key component of blood vessel walls. Elastin is present in concentric circles in natural blood ve...
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