Introduction: Three-dimensional bio-printing is a device that can be used as a collection of material for the field as a bio-scaffold living cells in accordance with a predetermined pattern with precision Intended Print. Three-dimensional bio-printing is a prototype manufacturing technique used to construct high-precision complicated architectures through a layer-to-layer manufacturing process. It is possible to create cell templates in a limited space using three-dimensional printing technologies that function and Cell survival is preserved within the printed structure. 3D bio-printing is a transformational technology that develops the development of tissue engineering processes, restorative medicine and, consequently, the future of medicine.
Methods: The basis of the work of these printers is that the three-dimensional file is separated by separate layers and can be read by the printer, then the printer will design and construct the layers and ultimately produce the desired specimen. 3D printers They are similar to the 3D printer and have similar functionality, but researchers have replaced consumables on ordinary three-dimensional printers with bio-inks (those that are compatible with the human body). They combine these special materials with living cells. To develop on their own. Scientists place the biological ink in syringe in a cell culture container to see samples from the tissue. The printer is equipped with an ultraviolet ray tube to sterilize the cells, and the two lights mounted above electron microscopy look closer to Makes the cells possible.
Results: One of the problems of patients requiring organ transplantation is finding a donor and a transplant member. The biomedical 3D printing technology has solved this problem with the help of living organs with the help of stem cells and biological materials. With the help of 3D printing technology, one can use his own cells to build organs and transplant them, and the problem of the immune system and post Solving the third-party limb. By engineering this process as a practical solution, we can engineering textures that have a functional attribute. Bio-printing is used to produce heterogeneous tissues by placing a mixture of live and scaffolded cells has been used.
Conclusion: Applications are taking place and can help people who suffer from diseases such as severe burns or organ failure. One of the ultimate goals in medical engineering is to restore healthy tissues. The need for tissues produced in this field is essential for the ability to research and develop new therapies. Understanding the process of tissue maturity can also be used for new therapeutic regenerative, such as techniques for constructing tissue structures or finding new treatments for cancer. One of the first applications for biotechnology research is cancer research. In the long run, 3D printing can create structured tissue structures to repair or replace acquired tissues or disease.