The new era of 3D bio printing!

 3D bioprinting is the process of using bio-inks to print living cells, creating layer-by-layer textures that mimic the behavior of actual, natural tissue. One of the materials known as bio-ink is used in bioprinting. It consists of natural biomaterials mixed with living cells to create 3D bioprinting.

Bioprinting technology allows researchers to thoroughly study the function of the human body outside the body. It is more relevant than in vitro research, which uses 2D technology to conduct research, and more than 3D bioprinting, which uses 3D models to increase relevance.

 3D bioprinting begins with a model of the structure that is recreated layer by layer from seeds that are mixed with living cells or cells after the printing process is completed. These initial models can come from anywhere, including CT, MRI scans, and computer-generated designs. The 3D model file is fed to a "slicer", a specialized computer program that analyzes the model's geometry and creates thin slices. Reproduce the shape of the original model by stacking vertically. Once the layering or slick process is complete, the data is sent to a data path where the data is transformed into a specific format the computer understands. This format is called a G-code file and is sent to a 3D bioprinter for printing. The bioprinter follows the instructions in the G-code file to complete the print. After all G-code file commands are complete, the print is ready to be cultured or seeded with cells.