Category Health/Medical

New 3D Printer can create Complex Biological Tissues

The 3D bioprinter designed by Khademhosseini has two key components: a custom-built microfluidic chip (pictured) and a digital micromirror. Credit: Amir Miri

The 3D bioprinter designed by Khademhosseini has two key components: a custom-built microfluidic chip (pictured) and a digital micromirror. Credit: Amir Miri

Device could help advance regenerative medicine. A UCLA Samueli-led team has developed a specially adapted 3D printer to build therapeutic biomaterials from multiple materials. The advance could be a step toward on-demand printing of complex artificial tissues for use in transplants and other surgeries. “Tissues are wonderfully complex structures, so to engineer artificial versions of them that function properly, we have to recreate their complexity,” said Ali Khademhosseini, who led the study and is UCLA’s Levi James Knight, Jr., Professor of Engineering at the UCLA Samueli School of Engineering...

Read More

Deep Space Radiation Treatment Reboots Brain’s Immune System

These are reactive microglia (red+green) in irradiated mouse hippocampus. (Blue stain is cell nuclei for anatomical reference.) Credit: Rosi lab / UCSF

These are reactive microglia (red+green) in irradiated mouse hippocampus. (Blue stain is cell nuclei for anatomical reference.) Credit: Rosi lab / UCSF

Novel drug protects memory function in mice exposed to simulated cosmic radiation. Planning a trip to Mars? You’ll want to remember your anti-radiation pills. NASA and private space companies like SpaceX plan to send humans to the red planet within the next 15 years – but among the major challenges facing future crewed space missions is how to protect astronauts from the dangerous cosmic radiation of deep space.

Now the lab of UCSF neuroscientist Susanna Rosi, PhD, has identified the first potential treatment for the brain damage caused by exposure to cosmic rays – a drug that prevents memory impairment in mice exposed to simulated space ra...

Read More

Researchers Identify Gene that helps Prevent Brain Disease

Image reveals Purkinje cells (gray) and their dendrites, as well as an accumulation of protein deposits (red dots). Credit: Ackerman Lab/UC San Diego

Image reveals Purkinje cells (gray) and their dendrites, as well as an accumulation of protein deposits (red dots). Credit: Ackerman Lab/UC San Diego

Protein ‘proofreading’ errors lead to neurodegenerative disease. UCSD researchers found that the ‘Ankrd16’ gene acts like a failsafe in proofreading and correcting errors to avoid the abnormal production of improper proteins. Usually, the information transfer from gene to protein is carefully controlled – biologically “proofread” and corrected – to avoid the production of improper proteins...

Read More

3D-Printed Smart Gel that Walks Underwater, Moves Objects

A human-like 3D-printed smart gel walks underwater. Credit: Daehoon Han/Rutgers University-New Brunswick

A human-like 3D-printed smart gel walks underwater. Credit: Daehoon Han/Rutgers University-New Brunswick

New technology has biomedical, soft robot and other applications. Engineers have created a 3D-printed smart gel that walks underwater and grabs objects and moves them. The watery creation could lead to soft robots that mimic sea animals like the octopus, which can walk underwater and bump into things without damaging them. It may also lead to artificial heart, stomach and other muscles, along with devices for diagnosing diseases, detecting and delivering drugs and performing underwater inspections.

Soft materials like the smart gel are flexible, often cheaper to manufacture than hard materials and can be miniaturized...

Read More