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the Role of Human mesenchymal stem cells in tissue engineering
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Tissue engineering is a promising methodology for the treatment of tissue absconds. Mesenchymal undifferentiated organisms are of potential use as a wellspring of fix cells or of significant development factors for tissue building. The motivation behind this examination was to inspect the job of mesenchymal undifferentiated organisms in meniscal tissue fix. Mesenchymal foundational microorganisms (MSCs) are of extraordinary enthusiasm to the two clinicians and specialists for their incredible potential to improve tissue engineering.... These multipotent cells have been found to separate into ligament, bone, fat, muscle, ligament, skin, hematopoietic-supporting stroma and neural tissue.
write about : the Role of Human mesenchymal stem cells in tissue engineering please, not handwriting.
please paraphrase this paragraph Mesenchymal stem cell (MSC) encapsulation technique has long emerged in tissue engineering as it plays an important role in the implantation of stem cells to regenerate damaged tissue. MSC encapsulation provides a mimic of a three-dimensional (3D) in vivo environment to maintain cell viability and to induce the stem cell differentiation which regulates MSC fate into multi-lineage. Moreover, the 3D matrix surrounding MSCs protects them from the human innate immune system and allows the diffusion of...
1. You are working on tissue engineering cartilage in a bioreactor by seeding mesenchymal stem cells (MSCs) on a scaffold. a) What growth factor would you use to promote the MSC differentiation into chondrocytes? Fibroblast b) What are the advantages and disadvantages of directly injecting growth factors into the cell-seeded scaffold? We were unable to transcribe this image
1. You are working on tissue engineering cartilage in a bioreactor by seeding mesenchymal stem cells (MSCs) on a scaffold. a) What growth factor would you use to promote the MSC differentiation into chondrocytes? Fibroblast b) What are the advantages and disadvantages of directly injecting growth factors into the cell-seeded scaffold? c) Can you propose another approach to provide growth factors to the tissue engineering construct? What are the advantages of your proposal? adatantages; grouth Factros can also scaffolds through...
1. You are working on tissue engineering cartilage in a bioreactor by seeding mesenchymal stem cells (MSCs) on a scaffold. a) What growth factor would you use to promote the MSC differentiation into chondrocytes? b) What are the advantages and disadvantages of directly injecting growth factors into the cell-seeded scaffold? c) Can you propose another approach to provide growth factors to the tissue engineering construct? What are the advantages of your proposal? d) Besides growth factors, what other regulators would...
Stem cells have been long chosen for different types of tissue engineering. Therefore, the stem cells should be number one choice of any type of tissue engineering, do you agree? Why or why not?
24. Which of the following mechanisms produces the most cells for tissue growth from stem cells? a. The division of the stem cells themselves. b. The division of fully differentiated cells. C. The division of transit amplifying cells. d. The division of stromal/mesenchymal cells. 25. Which of the following would most likely promote cancer if it had a hyperactive mutation? a. E-Cadherin b. Cyclin D c. p27 d. Weet kinase 26. Snakes and lizards each have vertebrae and ribs. Which...
Summarize the role of Hox genes, neural crest cells, and epidermal: mesenchymal signaling in the patterning of vertebrates. Give an example from each class of vertebrates. How do hox genes, neural crest cells, and epidermal: mesenchymal interactions of the integument give each type of vertebrate their unique and special traits?
how are stem cells removed from the umbilical cord tissue? please be a bit specific if you can on the details. I want to understand how the stems cells go from being in the tissue of an umbilical cord to become free and able to be cultured.
"Stem cells are undifferentiated, primitive cells with the ability both to multiply and to differentiate into specific kinds of cells. Stem cells hold the promise of allowing researchers to grow specialized cells or tissue, which could be used to treat injuries or disease (e.g., spinal cord injuries, Parkinson’s disease, Alzheimer’s disease, diabetes, strokes, burns)." (Slevin, 2010) Choose ONE of the following issues to write your initial discussion posting about and post to the thread with supporting evidence. Title your initial...
write about: how we can control the cells' Oxygen in Nanoparticle Sensor Technology please not handwriting