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3D printed style of fetus face helps determine life-threatening airway mass in unborn child Megan Thompson was about 30 weeks pregnant when an ultrasound showed a walnut-sized lump on her behalf tiny, unborn child's encounter that could prevent him from breathing after birth prescription medication . Thompson was described the University of Michigan's C.S. Mott Children's Hospital where doctors had to choose whether baby Conan could be delivered safely through a C-section or needed a rare and complex lifesaving method. The tool they utilized to help with making that difficult decision – 3D printing. Using a specialised MRI of the fetus in the womb, doctors could actually use a 3D printer to printing types of the fetus face, helping determine exactly where and how harmful the soft cells mass was.

Plus they can be transplanted into the physical body to regenerate tissue, such as for example pancreatic cells for diabetics. While there are various other methods out there to make microtissues, our 3-D technology is fast, inexpensive and easy. It can make thousands of microtissues in one step. Studies also show sometimes dramatic differences in the shape, development and function patterns of cells cultured in 2-D weighed against cells cultured in 3-D. For example, a recent Brown study found that nerve cells grown in 3-D environments grew quicker, had a more realistic form and deployed hundreds of different genes in comparison to cells grown in 2-D environments. That’s why many laboratories are pursuing 3-D cell culture strategies. Brown Technology Partnerships has filed a patent program based on the technology created in the Morgan lab and is actively seeking licensing partners..