There are several different kinds of stem cells and their uses. The most widely known and discussed are induced pluripotent stem cells and bone marrow transplants. They are both used to treat blood and immune system conditions. There are many misconceptions about these cells, but there are some that are true and some that are false. Read on to learn more. If you are considering stem cells from fat, visit our clinic.
Embryonic stem cells:
While the ethical issues surrounding the use of embryonic stem cells are not clear, scientists have been working on new ways to harness them for medical purposes. In one study, researchers developed new ways to use these cells to treat patients with various diseases caused by cell death. For example, they found that stem cells from human embryos could be used to treat type 1 diabetes, a condition caused by the death of beta cells in the pancreas. These cells produce insulin, a hormone that helps the body absorb blood sugar and provide energy. Type 1 diabetes patients eventually lose all of their beta cells and need constant insulin injections to stay alive.
Adult stem cells:
The basic facts about adult stem cells are a crucial part of understanding their potential to treat various conditions. The ability to dedifferentiate into stem-like cells and participate in regeneration is a key characteristic of adult stem cells. In addition, these cells have an increased number of uses in the clinic. These facts help explain why adult stem cells are the gold standard for stem cell research.
Induced pluripotent stem cells:
Induced pluripotent stem cells are laboratory-grown adult cells that can be programmed to become any type of cell. Until this research, only embryonic stem cells are naturally pluripotent. But thanks to discoveries, any dividing cell in your body can become a pluripotent stem cell. If you have an injury, illness, or simply want to replace cells that have been destroyed, induced pluripotent stem cells are the answer.
Tissue-specific stem cells:
There are several differences between adult stem cells and tissue-specific stem cells. The first is their type. While adult stem cells can generate red blood cells, white blood cells, platelets, and immune cells, these types of stem cells can’t generate brain, liver, or lung tissues. Tissue-specific stem cells, on the other hand, can replace cells lost during the normal living process or as a result of injury.