We've updated our Privacy Policy to make it clearer how we use your personal data.

We use cookies to provide you with a better experience, read our Cookie Policy

Advertisement

Microfluidic Models Helps Understand the Beginnings of the Brain

News   May 26, 2020 | Original story from the University of Copenhagen

 
Microfluidic Models Helps Understand the Beginnings of the Brain

Image of a human embryo surrounded by placenta, around 7 weeks of age. Studying brain development of humans at early stages is nearly impossible, and researchers have therefore produced a model to mimic human brain developmet in the lab. Credit: Dr Steven O'Connor (Houston, Texas)

 
 
Advertisement
 

RELATED ARTICLES

Blood-based Biomarker Can Detect and Predict Severity of Traumatic Brain Injury

News

A study from the National Institutes of Health confirms that neurofilament light chain as a blood biomarker can detect brain injury and predict recovery in multiple groups, including professional hockey players with acute or chronic concussions and clinic-based patients with mild, moderate, or severe traumatic brain injury.

READ MORE

Success in Use of Nanoparticles To Deliver Gene Therapy for Eye Disease in Rodents

News

In experiments in rats and mice, scientists report the successful use of nanoparticles to deliver gene therapy for blinding eye disease.

READ MORE

RNA Key in Helping Stem Cells Know What To Become

News

New research concludes that RNA plays an indispensable role in cell differentiation, serving as a bridge between our genes and the epigenetic machinery that turns them on and off.

READ MORE

 

Like what you just read? You can find similar content on the communities below.

Cell Science Neuroscience

To personalize the content you see on Technology Networks homepage, Log In or Subscribe for Free

LOGIN SUBSCRIBE FOR FREE