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Dartmouth professor makes case for ethically universal stem cell lines
June 08, 2007HANOVER, NH -- Human embryonic stem cells (hESC), those very young cells that are a biological blank slate, have the potential to become more specialized, contributing to the workings of a wide variety of organs and tissues. Their potential to treat diseases such as Parkinson's is slow to be realized because of the ongoing ethical debate over harvesting hESCs, a process called deriving hESC lines. Additionally, it's a politically charged issue in the U.S. because it involves federal funding for research.
A recently published paper by Dartmouth Professor Ronald M. Green examines the moral questions and the scientific feasibility of deriving hESC lines in ways that avoid destroying living human embryos. The paper, published in the June 2007 issue of Nature Reviews Genetics, considers six current approaches: altered nuclear transfer, parthenogenesis, single-blastomere biopsy, somatic-cell dedifferentiation, the use of "dead" embryos, and the use of abnormal embryos. Green's goal, as stated in the paper, is "to greatly accelerate hESC research that is closer to being universally acceptable."
"I think we can pursue hESC research and also respect the sensitivities of our fellow citizens. It's not impossible to do both," says Green, the Eunice and Julian Cohen Professor for the Study of Ethics and Human Values, and the faculty director of the Dartmouth Ethics Institute. In addition to resolving current debates, he argues, these alternatives can make possible hESC lines that are ethically universal. "These would be analogous to the universal O-type blood group: lines that could be used by anyone regardless of their ethical views on the moral status of the embryo."
Green, who is also an adjunct professor of community and family medicine at the Dartmouth Medical School, says, "The six approaches differ in technique, most directly in how the blastocyst is created." The blastocyst, where hESCs are found, is the three- to five-day-old embryo that has not yet been implanted in the uterus. "Since many people regard the normal human blastocyst as morally deserving of protection, the challenge is to find methods of deriving hESCs that either leave the blastocyst intact and unharmed or avoid the use of normal blastocysts in the first place."
The paper explains the science behind the six approaches and describes the hurdles that must be overcome in making them useful in future stem cell research. Even though none of these options is free from scientific challenges or ethical and political problems, Green feels that we should support research now to develop them as a supplement to-but not a replacement for- existing methods of hESC derivation.
Dartmouth College
Green, who is also an adjunct professor of community and family medicine at the Dartmouth Medical School, says, "The six approaches differ in technique, most directly in how the blastocyst is created." The blastocyst, where hESCs are found, is the three- to five-day-old embryo that has not yet been implanted in the uterus. "Since many people regard the normal human blastocyst as morally deserving of protection, the challenge is to find methods of deriving hESCs that either leave the blastocyst intact and unharmed or avoid the use of normal blastocysts in the first place."
The paper explains the science behind the six approaches and describes the hurdles that must be overcome in making them useful in future stem cell research. Even though none of these options is free from scientific challenges or ethical and political problems, Green feels that we should support research now to develop them as a supplement to-but not a replacement for- existing methods of hESC derivation.
Dartmouth College
Blastocyst Current Events and Blastocyst News RSSReprogrammed mouse fibroblasts can make a whole mouse
In a paper publishing online July 23 in Cell Stem Cell, a Cell Press journal, Dr. Shaorong Gao and colleagues from the National Institute of Biological Sciences in Beijing, China, report an important advance in the characterization of reprogrammed induced pluripotent stem cells, or iPSCs.
Female human embryos adjust the balance of X chromosomes before implantation
Dutch researchers have found the first evidence that a process of inactivating the X chromosome during embryo development and implantation, which was known to occur in mice but unknown in humans, does, in fact, take place in human female embryos prior to implantation in the womb.
New test can detect both genetic and chromosomal abnormalities in embryos
One-step screening for both genetic and chromosomal abnormalities has come a stage closer as scientists announced that an embryo test they have been developing has successfully screened cells taken from spare embryos that were known to have cystic fibrosis.
Single thawed embryo transfer after PGD does not affect pregnancy rates
Transferring just one embryo at a time to a woman's womb after embryos have undergone preimplantation genetic diagnosis (PGD) and freezing at the blastocyst stage has become a real option after researchers achieved pregnancy rates that were as good as those for blastocysts that had not had a cell removed for PGD before freezing.
Human embryonic stem cells developed from 4-cell embryo; world first may lessen ethical concerns
For the first time in the world scientists have succeeded in developing human embryonic stem cells (hESCs) from a single cell, or blastomere, of a 4-cell stage embryo.
Therapeutic cloning treats Parkinson's disease in mice
Research led by investigators at Memorial Sloan-Kettering Cancer Center (MSKCC) has shown that therapeutic cloning, also known as somatic-cell nuclear transfer (SCNT), can be used to treat Parkinson's disease in mice. The study's results are published in the March 23 online edition of the journal Nature Medicine.
Adult stem cells may be beneficial for certain cardiovascular disorders and autoimmune diseases
A review of previously published research suggests that stem cells harvested from an adult's blood or marrow may provide treatment benefit to select patients for some autoimmune diseases and cardiovascular disorders.
Oosight microscope enables embryonic stem cell breakthrough
A noninvasive, polarized light microscope invented at the Marine Biological Laboratory (MBL) played a crucial role in a recent breakthrough in embryonic stem-cell research aimed at developing medical therapies.
IVF technique enables pregnancy without multiple births, Stanford researchers find
An in vitro fertilization technique that can avoid multiple births appears to be effective for women older than 35, according to researchers at the Stanford University School of Medicine.
Mouse stem cell line advance suggests potential for IVF-incompetent eggs
Researchers have found that mouse oocytes that fail to become fertilized during in vitro fertilization are nevertheless often capable of succeeding as "cytoplasmic donors" during a subsequent cloning step using so-called nuclear transfer.
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An Atlas of Human Blastocysts by Lucinda L. Veeck (Author), Nikica Zaninovic (Author) If you had a dependable method for determining the healthiest and most viable conceptus from a cohort of growing preembryos, replacing more than a single one in order to achieve good pregnancy rates would be moot. Sometime in the not-so-distant future, this may be a reality. Taking a step towards that future, An Atlas of Human Blastocysts vividly illustrates the typical and atypical morphology of mammalian blastocysts. The atlas demonstrates that extended culture of blastocysts is now achieveable in the laboratory and points us toward the day when it will be possible to choose between a number of healthy hatched blastocysts. |
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Human Enough to Protect? Zygotes & Blastocysts.(Brief Article): An article from: National Right to Life News by Sidney Callahan (Author) This digital document is an article from National Right to Life News, published by National Right to Life Committee, Inc. on September 1, 2002. The length of the article is 690 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Human Enough to Protect? Zygotes & Blastocysts.(Brief Article) Author: Sidney Callahan Publication: National Right to Life News (Magazine/Journal) Date: September 1, 2002 Publisher: National Right to Life Committee, Inc. Volume: 29 Issue: 9 Page: 13 Article Type: Brief Article Distributed by Thomson... | |
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