Application areas
We develop purist bioink raw materials to help you resolve the continuously increased innovative needs in your biological experiments.
Bioprinting tissues and organs
3D bioprinting combines bio-medical science and engineering technology to repair or regenerate impaired tissues or organs. It is often applied in tissue engineering like cartilage repairs, prosthetic blood vessels, artificial hearts, neural regeneration, and epidermal wound dressings. Owning to the recent emergence of stem cell research, full or multiple functional stem cells can be differentiated into different cell lines. Take mesenchymal stem cells as an example, it can be differentiated into cartilages, bones, muscles, or nerve cells. With appropriate tissue engineering scaffolds, we can apply mesenchymal stem cells to undergo in vivo tissue repairs and regenerations.
Tissue model for drug and toxic test
3D bioprinting in vitro tissue model provides a solution for pharmaceutical development and toxic testing: replacing animal and human clinical trials. Bio-printing is also a plausible method that constructs a small scale and simplified tissues of liver, kidney, and lung. These artificial tissues can mimic high quality testing via tissue engineering models to construct safer and efficient commodities.
Cell therapy
The efficiency of transplant treatment is usually limited because cells are free and not attachable. Many cell types are however attachable and dependent, and that could result in apoptosis post transplant. Therefore, to improve treatment results, it is crucial to successfully deliver functional cells and place them on the lesion until they regenerate. In relevant animal testing models, Bio-materials can be applied as carriers to deliver cells to the lesion area and maintain their metabolism to promote tissue regeneration and simultaneously accelerate bigger lesion heal.