Myocardial Tissue Development Service

Myocardial infarction is a serious cardiovascular complication that can lead to serious health crises and is the leading cause of death worldwide. Myocardial tissue engineering aims to replace and maintain the function of infarcted myocardial tissue and thereby heal the disease. CD BioSciences is introducing a tissue engineering myocardial development service to add vitality to the development of myocardial.

Overview of Myocardial Tissue Engineering

Myocardial tissue itself lacks the ability to regenerate, and after a large number of myocardial cells are damaged, the function of the heart is permanently weakened, which can trigger myocardial infarction. Heart transplantation is the ultimate solution to deal with advanced heart failure. However, due to the lack of heart donors and limitations associated with immunosuppression, new strategies need to be found to treat the damaged heart. The advent of myocardial tissue engineering offers new ideas for clinical applications.

• Main Elements for Myocardial Tissue Engineering
  The main components of myocardial tissue engineering involve seed cells, scaffold materials, in vitro construction methods, and myocardial revascularization. Seed cells are one of the central issues in tissue engineering research. The ideal seed cells are easily propagated in vitro in culture, have little antigenicity, and are highly capable of tissue repair. The selection of materials for the stent as a site for seed cell adhesion, proliferation and differentiation is very important. The cell-scaffold complex gradually forms myocardial tissue in the bioreactor.

Challenges in Myocardial Tissue Engineering

Cardiac tissue engineering uses engineering concepts to modify the response of the injured heart in order to restore cardiac function. The repair methods typically employ biodegradable biomaterials and aim to improve the healing of infarct scars and the resulting cardiac tissue. Among these, vascularization and effective perfusion are long-term challenges for cardiac tissue engineering. Because cardiac myocytes are sensitive to ischemia, scaffold materials are required to enable rapid diffusion of essential nutrients and oxygen. Second, the non-stop contraction of the myocardium and the different arrangement of muscle bundles require scaffold materials that are highly elastic, malleable and complex three-dimensional structure.

Applications of Tissue-engineered Myocardium

• Heart Failure Disease Treatment
  Filling and repairing damaged myocardium with normal myocardial tissue is the ideal treatment for diseases such as congenital heart disease, myocardial infarction and chronic congestive heart failure.
• Drug Testing
  In new drug development, microscopic myocardial tissue can be used to test the efficacy of drugs for heart disease in order to accurately assess the drug's effect.

Our Services

CD BioSciences offers myocardial tissue development services, including but not limited to seed cell culture, expansion, and induction of differentiation. Depending on your research needs, we also offer 3D scaffold customization services. Based on our professional laboratory team, we can work with you to solve your artificial myocardial tissue development problems.

As a pioneer in biotechnology, CD BioSciences has grown into one of the largest independent biotechnology companies in the world. CD BioSciences is committed to providing professional and efficient service to our customers around the world. If you are interested in our service, please contact us.