Scientists are eager to learn more about totipotent stem cells because of their massive potential. Furthermore, their inherent ability to develop into any type of cell makes them great for research. Moreover, their potency may help us understand the mechanisms and behavior of many different conditions.
Totipotent Stem Cells | 11 Reasons To Support Totipotent Stem Cell Research
1. Massive Potential
We can’t put enough emphasis on the massive potential of totipotent stem cell research. This is because of the value of its ability to form into any type of cell found in the body. Doctors harvest these cells after the first few cycles of cell division following an egg cell fertilization. Moreover, these cells are the precursor to all cells that comprise the many different tissues in the body.
2. Even More Potent Than Pluripotent Cells
Totipotent stem cells trump the pluripotency of pluripotent stem cells. These pluripotent cells are also taken from human embryos or even fetal tissue. Given this, human pluripotent cells are also classified as embryonic stem cells. Additionally, they are also self-replicating. This means they are capable of making exact copies of themselves. However, unlike totipotent stem cells, pluripotent cells cannot form into extra-embryonic tissues.
3. Totipotent Cells May Develop Into a Fetus
Although pluripotent cells also have the potential to form into different types of cells, they cannot take on the characteristics of certain types. To be more specific, pluripotent cells do not have total potency because of how they are incapable of forming into extra-embryonic tissues.
Moreover, these pluripotent cells cannot form into some of the key factors of gestational development. The most important of the tissues that pluripotent cells cannot form is the placenta. This vascularized organ is important because of the key role it plays in bringing nourishment to the developing fetus.
4. Totipotent Stem Cells May Help With the Study of More Diseases
As mentioned, totipotent stem cells are the only ones capable of forming into key extra-embryonic tissues. Given this, these stem cells are important in studying conditions related to these tissues. Furthermore, an example of this condition is choriocarcinoma. This type of cancer is one that rapidly grows in the uterus during pregnancy. Moreover, the growth of the cancerous cells that cause this condition begins at the precursors of the placenta.
5. This Embryonic Stem Cell Has No Limits When It Comes to Division
Another thing that makes totipotent stem cells so valuable is the fact that cell division has no limit. Moreover, totipotent stem cells can divide to produce replicas of themselves without diminishing in potency. Given this, you may focus on this type of cell in research without worrying about not having an ideal copy of it.
6. Tissue Engineering
The limitless nature of totipotent stem cells is valuable in the field of tissue engineering. Moreover, tissue engineering is made possible by the ability of this cell to form all types of cells in the body. Given this, providing support to this type of genetic engineering is essential in making a variety of medical procedures more efficient.
7. May Revolutionize Transplants
Given the fact that totipotent stem cells may take on the function of any cell, scientists are hoping to find a way to take control of these cells to make functioning human organs. Moreover, seeing this happen in the future will definitely save many lives. Currently, undergoing any type of transplant can be both expensive and uncertain.
8. More Cost-Effective Transplant Procedures
Developing the technology to create components necessary in transplant procedures is key in being able to make transplants more accessible. Moreover, there are individuals who decide against undergoing a necessary transplant due to the hefty cost. Through revolutionizing transplants via totipotent stem cell research, we look forward to seeing more life-saving procedures being done.
9. No Need for the Waiting List
Totipotent stem cell research in transplant procedures is so exciting because it significantly reduces transplant waiting lists. The time between the arousal of the need for a transplant and getting the transplant itself can be quite lengthy. During this time, the patient’s quality of life is often diminished. And, because finding a perfect organ match can be quite complicated, the wait can be long. Often, the patient would not even have an idea of how long the wait will be. Given this, totipotent stem cell research may bring more certainty into transplant procedure time lines.
10. Learning About Cell Division
Cell division is also a great focus when handling totipotent stem cells in research. Understanding the process of cell division has been important in furthering our knowledge of certain illnesses. Most notable of the said illnesses is cancer. In researching the process of cell division, we may develop more effective ways of slowing or stopping the proliferation of cancer cells.
11. Incurable Conditions May Potentially Have Solutions
Conditions such as diabetes do not have a cure. Currently, the most that doctors can do is help their patients manage their condition. However, due to the nature of totipotent stem cells, we may find ways to manipulate the body on a cellular level in order to correct problems. An example of the said problems in the context of diabetes is the pancreatic cells responsible for producing insulin.
Watch this video by R3 Stem Cell to learn more about Stem Cell Therapy!
Given the information we have outlined, it is easy to say that research on totipotent stem cells is vital in the development of medical technology. Hopefully, through supporting this field of research, we will be able to see more solutions to different conditions in the future. Furthermore, we also look forward to seeing vast improvements in the treatment options for certain diseases.
What do you think about totipotent stem cell research? Feel free to share your insights with us in the comments below!