3D Bio-Printing and Organ Printing
Engineering, manufacturing, art, education, and medicine are just a few of the fields where three-dimensional (3D) printing is driving substantial changes. Biocompatible materials, cells, and supporting components can now be 3D printed into complex 3D functioning living tissues, thanks to recent advancements. To meet the demand for transplantable tissues and organs, 3D bio printing is being used in regenerative medicine. 3D bio printing has more complexities than non-biological printing, such as material selection, cell kinds, growth and differentiation variables, and technical obstacles associated to living cell sensitivities and tissue assembly. Engineering, biomaterials science, cell biology, physics, and medicine must all work together to solve these problems. Bio printing in 3D has already been used to create and test new drugs.
Related Conference of 3D Bio-Printing and Organ Printing
21th World Congress on Tissue Engineering Regenerative Medicine and Stem Cell Research
16th International Conference on Human Genetics and Genetic Diseases
19th International Conference on Genomics & Pharmacogenomics
3D Bio-Printing and Organ Printing Conference Speakers
Recommended Sessions
- 3D Bio-Printing and Organ Printing
- Artificial organ
- Bio-informatics in Stem Cell Research
- Biomaterials in bioengineering
- Cancer Stem Cells
- Cell and gene therapy
- Cell death and differentiation
- Cell, molecular and developmental biology
- Fetal and Neonatal Stem Cells
- Genetic stem cell biochemistry
- Immunotherapy
- Regenerative medicine
- Regenerative Medicine and Surgery
- Stem Cell
- Stem cell research and drug development
- Techniques in stem cell research
- Tissue Engineering:
- Tissue preservation and bio banking
- Types of stem cells
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