Answer: The major function of the tissue engineering is to maintain as well as improve the functioning of damaged organ or tissues. Creating new tissues and implanting it for the enhanced work is one of the most common example where tissue engineering to solve a biomedical problem. Skin grafting is generally performed where patient suffers from any kind of burn on skin etc. The musculoskeletal tissue engineering also a good example.
Signature 1. Describe one example of using tissue engineering to solve a biomedical problem.
Identify one example of a polarisable electrode, and its application in biomedical. Also describe its working principle for the chosen application.
Describe an example of integrating biomedical and non biomedical healers and healing practices in the U.S. or elsewhere in the world
Describe the types of cells that can be used in tissue engineering approaches. What are the pros/cons to specific cell types?
One page summary of cardiac tissue engineering.
1.Describe one example of (a) how artificial intelligence has been used in healthcare to solve a specific problem. (b) What were some of the challenges the project faced? 2. (a) What was the problem the artificial intelligence was aiming to solve (b) What did the artificial intelligence do, and (c) how was it successful?
Assignment5 One page summary of cardiac tissue engineering
Describe (3) clinical treatments, clinical problems and ongoing research in the field of Tissue engineering blood vessels With LITERATURE CITATIONS
Question 4. Please describe four different categories of tissue engineering strategies for repairing cartilage injuries, and compare the advantages and disadvantages of these strategies. [20points]
Q1 Describe one example of (a) how artificial intelligence has been used in healthcare to solve a specific problem. (b) What were some of the challenges the project faced? Q2 Post your Al example and address the following points (a) What was the problem the Al was aiming to solve (b) What did the Al do, and (c) how was it successful?
1. You are developing bioreactors for cardiac tissue engineering. a) One design is to apply mechanical stimulation. What kind of mechanical loading would you apply? b) Your colleague suggests using electrical stimulation instead of mechanical stimulation. Do you agree? Why? c) In both designs, what would be the advantages of a providing perfusion function to the bioreactor? a) Multivaniable optimization b) I agoll coase using mechanical stimulation will be hard on Cardiac lichile, but electrical is easier as you are...