A dose of artificial intelligence can speed the development of 3D-printed bioscaffolds that help injuries heal.
Search for: Bioengineering
Researchers have developed a highly elastic biodegradable hydrogel for bioprinting of materials that mimic natural human soft tissues.
Bioengineering students program smartphone to guide patients who ‘freeze’ while walking.
New hydrogel-based materials that can change shape in response to psychological stimuli, such as water, could be the next generation of materials used to bioengineer tissues and organs.
Researchers have used lasers and molecular tethers to create perfectly patterned platforms for tissue engineering.
Revealing details of the internal structure of 'mini-brains' could help accelerate drug studies and may offer alternatives to some animal testing.
An AI platform derives an optimal combination of available therapies against SARS-CoV-2 - the optimal drug therapy was a combination of the drugs remdesivir, ritonavir, and lopinavir at specific doses.
Radiator-like fluid systems adjust the genetic wiring inside human liver cells in preliminary work toward artificial organ-tissue engineering.
Researchers have designed a wearable device that monitors sweat for biomarkers that could signal flare-ups of inflammatory bowel disease (IBD).
Loss of strength and muscle wastage is currently an unavoidable part of getting older and has a significant impact on health and quality of life.
Researchers have developed a wearable solution that allows a patient to receive treatment of antibiotic-resistant infections and woundswithout leaving home.
The new 3D hydrogels provide high rates of cell proliferation, as they mimic lymph nodes, where T-cells reproduce in vivo.
Scientists have paired 3D-printed, living human brain vasculature with advanced computational flow simulations to better understand tumor cell attachment to blood vessels.
Researchers have developed a surgical robot that improves precision and control of teleoperated surgical procedures.
Bioengineers have designed a glove-like device that can translate American Sign Language into English speech in real time through a smartphone app.
Researchers at the Max Planck Institute for Intelligent Systems in Germany have developed powerful nanopropellers that can be steered into the interior of cells to deliver gene therapy.
Researchers are developing a new high-precision radiology system for coronavirus pulmonary involvement.
Researchers have developed a wireless monitoring system for newborn babies that can easily be implemented to provide clinical-grade care in nearly any setting.
Researchers demonstrated a methodology that combines the bioprinting and imaging of glioblastoma cells in a way that more closely models what happens inside the human body.
Scientists have improved upon the bioprinting technique they developed to engineer skeletal muscle as a potential therapy for replacing diseased or damaged muscle tissue.
By adding infrared capability to the ubiquitous, standard optical microscope, researchers hope to bring cancer diagnosis into the digital era.
Researchers used a microfluidic devices to fabricate tiny strands of collagen called fibrils to help further his team’s research on the eye’s repair process.
A new 3D printing platform is able to fabricate multi-component scaffolds that “steal from nature” to engineer tissues organized like native tissues.
Researchers have successfully implanted sensors in three male patients following nerve transfers, to transmit biosignals for wireless control of robotic arms.
Researchers have announced a collaboration to 3D bioprint stem-cell tissue that could one day be used to treat end-stage kidney disease.
Children with autism improved measurably on a test of socialization and learning when their therapy included an at-home intervention with Google Glass.
A state-of-the-art brain-machine interface created by UC San Francisco neuroscientists can generate natural-sounding synthetic speech by using brain activity to control a virtual vocal tract – an anatomically detailed computer simulation including the lips, jaw, tongue and larynx.
Engineers have combined CRISPR with electronic transistors made from graphene to create a new hand-held device that can detect specific genetic mutations in a matter of minutes.
Researchers have developed a next-generation bionic hand that allows amputees to regain their proprioception.
Research from the BrainGate consortium shows that a brain-computer interface (BCI) can enable people with paralysis to directly operate an off-the-shelf tablet device just by thinking about making cursor movements and clicks.
Engineers and medical researchers have teamed up to create a groundbreaking 3D printed device that could someday help patients with long-term spinal cord injuries regain some function.
A wide range of fetal genetic abnormalities could soon be detected in early pregnancy thanks to researchers using lab-on-a-chip, non-invasive technology.
Scientists have used machine learning to improve the performance of prosthetic hands. The researchers said the findings, could spark a "new generation of prosthetic limbs.
Researchers have developed a wearable, non-invasive system to monitor electrical activity in the stomach — essentially an electrocardiogram but for the gastro-intestinal tract.