Stem Cell Research Cons
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WHAT ARE STEM CELLS?
Before I can explain the cons of stem cell research, I must explain what stem cells actually are. Stem cells are defined as essentially the beginning cells of a human being, which are capable of becoming all or many of the 210 different kinds of tissues in the human body. 1 These cells divide, generating two “daughter cells”, one of which will become something new and another which will replace the original cell. That is where the term “stem” comes from, meaning stem cells give rise to other more specialized cells.2
Stem cells come in three basic types: totipotent, pluripotent, and multipotent. Totipotent means the cells potential is “total.”3 These are referred to as embryonic stems cells because they are found in the human embryo up to about the 4-day beginning stage.4 Pluripotent means that the cells can give rise to many types of cells but not all types of cells. These are referred to as fetal stem cells. 5 Multipotent cells are more specialized.6 These are also often referred to as adult stem cells. Now you know the basics of what stem cells are. It is not what they are, however, but how they are obtained that is immoral.
WHAT HAPPENS TO EMBRYOS USED IN RESEARCH?
There is nothing wrong with experimenting on stem cells, even embryonic stem cells, that is, if the cells could be obtained without intrusion. If that were the case, there would be no debate, because there is no moral value attached to a cell. The problem is that for embryonic stem cell research to take place, stem cells are extracted from an embryo, or should I say from a human bodies, and the extraction results in death.
Many who support human embryonic stem cell research adhere to the ethical position that it is okay to destroy a few human beings for the benefit of many. Others believe that since they are sentenced to death anyway (the human remains are flushed down the toilet) there is nothing wrong with bringing some good out of their deaths. Still others do not accept the embryos humanity and justify themselves by pretending that humans are not persons until they are born.
The first argument is similar to a widely accepted principle, namely, that if we have to decide between losing two lives or saving one we should save one life. However, in the case of embryonic stem cell research, we have no such situation. Even if we assume that the sick or injured person will die without such research, the embryo will not. The choice here is whether to pursue cures which do not involve the death of innocent lives or to sacrifice innocent lives for research which may or may not produce a cure. Utilitarian arguments that we should put the benefit of many over the lives of a few are what led bin Laden to destroy the World Trade Centers.
The second argument is convincing at first, but fails under analysis. “if impending death were the criteria for being allowed to kill human beings, then we could also kill terminally ill patients, death-row inmates and military service personnel facing combat for their organs and stem cells too – for the greater good.” Furthermore, I would like to add that these children should not be slated for death in the first place. These embryos are created under immoral conditions as well. There should be no “spare” embryos at all.
The third argument is that of cloning. . “Therapeutic cloning” has also been proposed, but such cells would likely be abnormal. Not to mention the moral issues involved in cloning. How far do we go? Where will it end?
The last argument is common in the abortion debate, but it doesnt work here any more than it does there. We have no authority to bestow the rights of personhood on certain human beings and deny them to others arbitrarily. The word person is a synonym for human being, and embryos are scientifically recognized human beings.
WILL EXPERIMENTS WITH EMBRYONIC STEM CELLS YIELD BENEFICIAL RESULTS?
Perhaps some may be persuaded to oppose embryonic stem cell research simply because it isnt as promising as adult stem cell research. Maureen Condic, Assistant Professor of Neurobiology and Anatomy at the University of Utah, notes,
While the scientific advantages and potential medical application of embryonic stem cells have received considerable attention in the public media, the equally compelling scientific and medical disadvantages of transplanting embryonic stem cells or their derivatives into patients have been ignored.7
The Institute of Science in Society in London mentioned a specific example from Science Magazine:
An article published in Science earlier last year showed that mice cloned from embryonic stem cells by nuclear transfer suffered many genetic defects due to the genetic instability of the embryonic stem cells. The Washington Post reported that a key phrase referring to the genetic instability of the embryonic stem cells that might limit their use in clinical application, was removed days before the paper appeared in print.8
Condic lists three scientific arguments against the use of embryonic stem cells as a treatment for disease and injury.
There are profound immunological issues associated with putting cells derived from one human being into the body of another. Stem cell transplants, like organ transplants, would not buy a cure, only time.
Many of the factors required for the correct differentiation of embryonic cells are not chemicals readily reproduced in petri dishes. Instead, they are structural or mechanical elements uniquely associated with the complex environment of the embryo.
We simply do not have sufficient evidence from animal studies to warrant a move to human experimentation. To date there is no evidence that cells generated from embryonic stem cells can be safely transplanted into adult animals to restore the function of damaged or diseased adult tissues.9
Supporters of the research have proposed solutions to remedy these problems, but alas their proposals are also flawed. The proposed solutions to the first argument “are either scientifically dubious, socially unacceptable, or both.” To overcome the problem of immune systems, some have proposed large scale genetic engineering of embryonic stem cells to alter their immune characteristics. There is no current evidence, however, that such a task could ever be accomplished. ” Scientists may hope to replicate in petri dishes the nonmolecular components of the embryonic environment, but such technology is not currently available,