
Hydrogel electrodes flow to fit the body
Scientists have created flexible, metal-free electrode arrays that conform to the body - avoiding damage to organs.
Scientists have created flexible, metal-free electrode arrays that conform to the body - avoiding damage to organs.
Researchers have developed an injectable hydrogel that could help repair and prevent further damage to the heart muscle after a heart attack.
Using mathematical image processing, scientists have found a way to create digital twins from human hearts.
Engineers have developed a diagnostic tool, based on nuclear magnetic resonance, that could be used to detect fatty liver disease and liver fibrosis.
Researchers have used bacteria to produce intricately designed three-dimensional objects made of nanocellulose.
Researchers have developed a groundbreaking process for multi-material 3D printing of lifelike models of the heart's aortic valve and the surrounding structures.
Researchers used AI and genetic analyses to examine the structure of the inner surface of the heart using 25 000 MRI scans.
New muscle has successfully been created in mice using a minimally invasive technique dubbed ‘intravital 3D bioprinting’.
Biomedical engineers developed a handheld 3D bioprinter that could revolutionize the way musculoskeletal surgical procedures are performed.
A 3D printing technique allows fabrication of multilayer blood vessels that have the unique biomolecules needed to transform into functional blood vessels when they are implanted.
A new study highlights the feasible use of mhealth devices to help with the screening and detection of atrial fibrillation.