In Focus Archive
Moral Reflections on the Merits of Universalized Health Care
In Focus Special: The Pro-Life Movement: Has Our Strategy Failed?
Jihadism, Reason & 9/11: Seven years later
Faith in America - Romney, Religion and the Public Life
Reprogramming - Tremendous Breakthrough in Stem Cell Research
Chimera - Merging Human Cells with Animal Eggs
Preimplantation genetic diagnosis
NaPro Technology - Advances in Women's Health
Stem Cells - News, Federal Funding, Research
American Eugenics - History, Culture and Resources
Gonzales v. Carhart Examining the Supreme Court Decision
The Death Penalty - Essays, Commentary, News, Statistics
Egg Donation - Fertility Tratment and Embryo Research
Unsound Therapy - The Ashley Experiment
Stem Cells - News, Federal Funding, Research
Pope Benedict XVI - Apostolic Journey to Turkey
Bioethics Organizations on the Web
2010 Archive
- A Legal Bombshell Hits Stem Cell Science
- Have Stem Cells Become Passé?
- Illegal Immigration and Catholic Social Teaching
- The Difference God Makes
- How are Christians to Engage the Culture?
- In Vitro Fertilization - Why Not?
- The Long Ascent to Calvary
- Healthcare, Human Life and America
- Why I Didn’t Give Up Facebook for Lent
- Our Sex-Crazed Culture
- The Unimportance of Sex
- Recovery in the Big Easy
- Catholic Teaching on Assisted Nutrition and Hydration
- Haiti
- What’s Wrong With Us?
- Challenging Totalitarianism in 2010
| Stem Cells |
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For the past two days new research has been grabbing media headlines. A study published in the journal Nature Biotechnology reports remarkable success in deriving stem cells from amniotic fluid. The cells have shown great promise in the lab for being potentially as versatile and useful as human embryonic stem cells for eventual therapies. Dr. A. Atala and his team took samples from amniocentesis specimens (from both human and rodent sources) and were able to grow lines of amniotic fluid-derived stem (AFS) cells. They describe the procedure as robust and fairly straight-forward. These AFS cell lines grew reasonably quickly (they divided every 36 hours) and for many generations without developing any propensity for chromosomal abnormalities or tumors. The research team also demonstrated that the cells have the ability to produce multiple, different cell types, at least in tissue culture. They produced liver, bone and nerve cells. For one of these cell types (nerve cells), they also performed transplantation experiments in mice and showed that the cells performed some of their expected functions. If this work is verified and replicated by other labs, it represents a significant step forward towards the identification of a non-embryonic pluripotent source of transplantable cells. In particular, the ability of AFS cells to be expanded extensively and the fact that they can be replicated as described in the paper, are very attractive properties. However, it is important to remember that the cells described here resemble another potential cell source described in research that is now several years old. So-called multipotent adult progenitor cells (MAPC) were described then as holding out very similar properties and potential. Unfortunately, many of the initial claims regarding the properties of MAPC have not been replicated. In particular, their therapeutic utility has not been validated. It is therefore best to be cautious at this point in time with regard to any hopes that might be raised by this new research. A single report of this kind does not yet represent definitive proof that AFS cells can do everything that embryonic stem cells could purportedly do. However, we should hope that with time AFS cells will fare better in terms of scientific replication than have other sources of non-embryonic pluripotent cells. Markus Grompe, M.D. is a Senior Fellow of the Westchester Institute and Director of the Oregon Stem Cell Center. He is also a member of the board of directors of the International Society for Stem Cell Research. |
