Revolutionizing Healthcare: Unleashing the Potential of Stem Cell Therapy

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  Stem Cell Therapy In recent years, the field of healthcare has been witnessing a revolutionary approach with the advent of stem cell therapy. Stem cell therapy holds immense promise in treating a wide range of medical conditions and has the potential to revolutionize the way we approach healthcare. This cutting-edge therapy utilizes the remarkable abilities of stem cells to repair and regenerate damaged tissues, offering new hope for patients suffering from debilitating diseases and injuries. Stem cells are undifferentiated cells that have the unique ability to develop into specialized cell types in the body. They can be derived from various sources, including embryos, umbilical cord blood, and adult tissues such as bone marrow and adipose tissue. This versatility of stem cells makes them a valuable tool in regenerative medicine. One of the most promising applications of Stem Cell Therapy is in the treatment of degenerative diseases such as Parkinson's disease, Alzheimer'
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Chitosan is a chitin derivative derived from the shells of aquatic organisms

                                                                         
Chitosan is a sugar derived from the shells of shellfish such as crab, lobster, and shrimp. It's used in medicine and drug production.

                 Chitosan Market



Chitosan is a sugar derived from the shells of shellfish such as crab, lobster, and shrimp. It's used in medicine and drug production. Chitosan is a fibrous substance that may reduce the amount of fat and cholesterol absorbed by the body from foods. When applied to wounds, it also aids in blood clotting. People use chitosan to treat high blood pressure, high cholesterol, obesity, wound healing, and a variety of other ailments, but there is little scientific evidence to back up many of these claims.

According to Coherent Market Insights " The global chitosan market is estimated to account for US$ 3,573.1 Mn in terms of value and 53,806.0 Tons in terms of volume by the end of 2019. "

Chitosan has a variety of commercial and potential biomedical applications. It can be used as a seed treatment and biopesticide in agriculture, assisting plants in fighting fungal infections. It can be used as a fining agent in winemaking, as well as to help prevent spoilage. It can be used in a self-healing polyurethane paint coating in industry. It is used in medicine to reduce bleeding and as an antibacterial agent in bandages; it can also be used to help deliver drugs through the skin.

Chitosan is commercially produced by deacetylation of chitin, which is a structural element in the exoskeletons of crustaceans (such as crabs and shrimp) and fungi cell walls. NMR spectroscopy can be used to determine the degree of deacetylation (percent DD), and the percent DD in commercial chitosans ranges from 60 to 100 percent. The molecular weight of commercially produced chitosan ranges between 3800 and 20,000 daltons. Deacetylation of chitin with excess sodium hydroxide as a reagent and water as a solvent is a common method for obtaining chitosan. Although the reaction occurs in two steps, it follows first-order kinetics; the activation energy barrier for the first stage is estimated to be 48.8 kJmol1 at 25–120 °C, which is higher than the barrier to the second stage.

Source Link: https://www.youtube.com/watch?v=9DD-THsw5E4

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