Jun 3, 2017
3D-Bioprinter Creates Skin Made From Human Cells The skin will be used for skin grafts and testing cosmetic and pharmaceutical products Subscribe to Vocativ: ... source
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3D-Bioprinter Creates Skin Made From Human Cells The skin will be used for skin grafts and testing cosmetic and pharmaceutical products Subscribe to Vocativ: ... source
Smart Tattoos: Wearable Tech Ink That Monitors Your Health
Imagine a world where you don’t need a smartwatch, fitness band, or medical device to track your health. Your skin itself becomes the screen. Your tattoo becomes the sensor.Your body becomes a living interface.
Imagine a world where you don’t need a smartwatch, fitness band, or medical device to track your health. Your skin itself becomes the scree
Bio-Ink
Tattoos with tech-twist: dynamic, glowing designs that change with your mood.
Researchers at the Brigham used bioengineering advancements to improve 3D bioprinting of vascular tissues with functional and mechanical hallmarks. The researchers also showed the possibility of using these vessels for SARS-CoV-2 pseudoviral testing.
Where standard 3D printing uses a digital blueprint to manufacture an object out of materials like plastic or resin, 3D bioprinting manufactures biological parts and tissues out of living cells, or bioinks.
A fourth dimension — shape transformation over time — can be achieved by incorporating materials that enable printed constructs to morph multiple times in a preprogrammed or on-demand manner in response to external signals.
Bioprinting 4D constructs provide opportunities for scientists to better mimic the shape changes that occur during the development, healing, and normal function of real tissues and fabricate complex structures.
UIC Professor Eben Alsberg has developed a new cell-laden bioink, composed of tightly packed, flake-shaped microgels and living cells, for bioprinting 4D constructs. This new system enables the production of cell-rich bioconstructs that can change shape under physiological conditions. Read more.
X-Pure GelMA is the first GMP-ready gelatin methacryloyl bioink from Rousselot for regenerative medicine. GelDAT also available
X-Pure GelMA, the first GMP-ready gelatin methacryloyl bioink
Researchers used sunflower pollen to develop 3D bio-printable ink that is more durable and affordable.
Sunflower Pollen Used as 3D-Printable Bio-ink
The new technology forms a custom ‘cartilage’ scaffold where the patient’s own stem cells can grow on. This eliminates the need to take cart
Scientists Can 3D Print Face Parts To Help Burn Victims, People With Deformities