Mar 02, · Human Embryonic Stem Cell Research (hESC) is ethically wrong because it destroys human persons at the embryonic stage of development. Adult Stem Cell Research is ethically justifiable because it does NOT end lives. Embryonic Stem Cell Research has found no treatments or cures, while Adult Stem Cell Research has found more than 77 treatments/cures. Researchers at Harvard Medical School say adult stem cells may eliminate the need for embryonic ones. The researchers experienced a permanent reversal of Type 1 diabetes in mice by killing the cells responsible for the diabetes.
Jun 08, · Adult cells altered to have properties of embryonic stem cells (induced pluripotent stem cells). Scientists have successfully transformed regular adult cells into stem cells using genetic reprogramming. By altering the genes in the adult cells, researchers can reprogram the cells to act similarly to embryonic stem cells. Clinical studies have validated the use of adult stem cells in a limited number of therapies, but have yet to confirm the utility of embryonic stem cells. Physicians who conduct research using stem cells obtained from any source (established tissue, umbilical cord blood, or embryos) must, at .
Compared with embryonic stem cells, adult stem cells are more limited in their ability to become different cells in the body. Until recently, researchers thought adult stem cells could create only similar types of cells. For instance, it was believed that stem cells residing in the bone marrow could give rise only to blood cells. Adult stem cells are the true gold standard in regenerative medicine. Adult stem cells are the only stem cell type that has shown evidence of success when it comes to patients, and treating patients is supposedly the ultimate goal for stem cell research, certainly the justification for the huge sums of money poured into the strippe.xyz by: 7.
Mar 06, · The principal argument for embryonic stem cell research is the potential benefit of using human embryonic cells to examine or treat Author: Lillian Nwigwe. Embryonic stem cells are derived from embryos at a developmental stage before the time that implantation would normally occur in the uterus. Fertilization normally occurs in the oviduct, and during the next few days, a series of cleavage divisions occur as the embryo travels down the oviduct and into the uterus.