In vitro fertilization is a procedure that childless couples may use when they are having trouble conceiving the natural way. It is the next step after artificial insemination has failed to yield the desired result. The IVF procedure involves fertilization of the woman's eggs in a petri dish and then implanting the resulting embryos. Unused embryos are a byproduct of this process. There are a number of different ways of dealing with these and it is the responsibility of the parents to determine what happens to them.
Once the eggs are fertilized, spare embryos that are not implanted may be frozen and stored. With modern vitrification freezing techniques, these living embryos may remain viable for years. Parents may decide to store them for future use, donate them for pioneering stem cell research, donate them to other couples who are unable to create their own embryos, continue to store them year after year or they may choose to have them destroyed.
Stem cells are very primitive cells that have the potential to differentiate into just about any other cell type in the human body. This property is referred to as pluripotency. These cells are becoming more and more useful in medicine. There is a significant potential for abuse of these cells. For this reason, their use is very closely regulated by governmental authorities.
Researchers at the University of Utah pioneered the procedure whereby a patient's own stem cells are injected into their left ventricle in an attempt to treat heart failure. At this point, they are called cardiac repair cells. They are derived from the patient's bone marrow and then cultured for just under fortnight, after which they are implanted into the heart. It turns out these cells are much hardier than the original cells that were harvested from the bone marrow.
The very first stem cells to be isolated came from mice in 1981. They were consequently harvested from humans in 1998. There are other sources of this material other than human embryos. For one thing, they may come from the bone marrow. They may also be isolated from peripheral blood or from neonatal umbilical cords.
Bone marrow is the spongy tissue located deep in the center of some of the larger bones in the body, mostly from the pelvic bone. Harvesting stem cells from this location is extremely painful so the donors are placed under a general anesthetic. A large needle is then placed into the marrow via the hip bone and the cells are harvested.
Typically, peripheral blood is not endowed with a plethora of stem cells. In this case, patients are prepared by giving them hormones called growth factors. This takes place a few days prior to harvesting. The actual collection process may take hours. Newborn blood is also rich in these cells. Some remain in the umbilical cord, which is set aside for future transplantation. To date, human umbilical cord cells have only been transplanted into small adults and children.
Once the couples who have been storing embryos are sure they no longer want any more children, their spare embryos may be donated to other couples, to scientific research or they may be ultimately destroyed.
Once the eggs are fertilized, spare embryos that are not implanted may be frozen and stored. With modern vitrification freezing techniques, these living embryos may remain viable for years. Parents may decide to store them for future use, donate them for pioneering stem cell research, donate them to other couples who are unable to create their own embryos, continue to store them year after year or they may choose to have them destroyed.
Stem cells are very primitive cells that have the potential to differentiate into just about any other cell type in the human body. This property is referred to as pluripotency. These cells are becoming more and more useful in medicine. There is a significant potential for abuse of these cells. For this reason, their use is very closely regulated by governmental authorities.
Researchers at the University of Utah pioneered the procedure whereby a patient's own stem cells are injected into their left ventricle in an attempt to treat heart failure. At this point, they are called cardiac repair cells. They are derived from the patient's bone marrow and then cultured for just under fortnight, after which they are implanted into the heart. It turns out these cells are much hardier than the original cells that were harvested from the bone marrow.
The very first stem cells to be isolated came from mice in 1981. They were consequently harvested from humans in 1998. There are other sources of this material other than human embryos. For one thing, they may come from the bone marrow. They may also be isolated from peripheral blood or from neonatal umbilical cords.
Bone marrow is the spongy tissue located deep in the center of some of the larger bones in the body, mostly from the pelvic bone. Harvesting stem cells from this location is extremely painful so the donors are placed under a general anesthetic. A large needle is then placed into the marrow via the hip bone and the cells are harvested.
Typically, peripheral blood is not endowed with a plethora of stem cells. In this case, patients are prepared by giving them hormones called growth factors. This takes place a few days prior to harvesting. The actual collection process may take hours. Newborn blood is also rich in these cells. Some remain in the umbilical cord, which is set aside for future transplantation. To date, human umbilical cord cells have only been transplanted into small adults and children.
Once the couples who have been storing embryos are sure they no longer want any more children, their spare embryos may be donated to other couples, to scientific research or they may be ultimately destroyed.
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