The Benefits Of Stem Cell Research

A stem cell can actually be considered as a blank piece of paper which can be made or transformed into any kind of human cell. The cell possesses this capacity since it “listens” to instructions it obtains from the human body, as hormones and chemicals. For that reason, stem cell research is definitely an extremely exciting subject.

Researchers have been attempting to coax these cells into becoming any one of the 220 differing types of specific human cells inside the body. This isn’t possible with a bone cell, as it is only going to generate bone cells while reproducing. On the other hand, a stem cell possesses the capacity to produce muscle cells, bone cells, and virtually every other type of cell in the human body. As with most cutting edge technologies, stem cell research requires massive funding, and as a result, has racked up 100’s of millions of dollars in debt. Some researchers have even experienced personal debt issues with organizations, like Ic Services, and have resorted to using credit repair sites to shake free of financial issues. But given the high potential of this technology, it’s safe to assume that debt will continue to escalate.

The Possibilities In Stem Cell Research Are Limitless

Researchers feel that such an endless supply of original cells can end up being the perfect treatment for virtually any kind of medical issue. There are actually three types of these cells: The embryonic cells (from the human embryo), the adult stem cells (made from the peripheral blood of adults) and the induced pluri-potential cells (where fully grown cells have been regressed, or reversed, to make stem cells). Stem cells have previously been adapted into a variety of medical treatment methods used for leukemia!

Research is continuing to seek out stem cell-based treatment options for ailments such as Parkinson’s Disease, Alzheimer’s, cancer and multiple sclerosis. The most exciting benefit with these cells is the fact that they could be utilized to grow complete replacement human organs. Despite the fact that transplant surgeries are feasible, the need for organs is much higher, compared to the supply. Furthermore, the potential for organ matching and rejection (by the donor) are very serious concerns that ultimately cause issues for the host. On the other hand, a situation where organs can be developed to match the host (at anytime), can dramatically minimize all the difficulties associated with organ transplants.

The overall cost of the medication needed after a traditional transplant would also be dramatically reduced, since there’s a lower likelihood of bodily rejection – allowing patients to forgo the use of many expensive medications. Some patients have been know to quickly go in debt, because they maxed out their financial resources & credit cards, so they can continue to get the much-needed medication to (literally) stay alive; credit experts can show those in this circumstance how to alleviate some of their financial woes from debt collectors like Dynamic Recovery Collections .

Current Hold Ups For Stem Cell Research

One of the major sources for stem cells is from extra embryos, at in-vitro fertilization clinics. Researchers attempts to access the cells from human embryos (that did not make it through the in-vitro process), has been the main difficulty. Religious and pro-life activists have been vigorously opposed to the procedure of collecting cells, and this led to delays in research.

Researchers have been quick to explain that there are an excess of 100,000 to 188,000 surplus embryos, at fertilization clinics – which are simply disposed of, because they are not required. Nonetheless, the debate is still raging and a resolution isn’t anticipated anytime soon. To bypass these ethical and religious considerations, scientists currently prefer to use induced pluri-potential cells, derived from the skin (which works just as well for research and treatment methods).

The benefits of stem cell research are said to be taken for granted, because of its unethical procedures. The use of stem cells that came from adult humans, did not fetch any questioning. Of course, the use of stem cells that are taken from aborted fetuses (and early human embryos) is what is frowned upon; this major point of opposition was countered by justifying stem cell research through utilitarian ethical arguments. Pro-stem cell research people said that it is actually ethically acceptable, even morally required to cause the destruction of a few human beings, to possibly benefit millions of other humans. Also, these stem cells are said to be unlike the adult cells, in the sense that they don’t cause any problems with their compatibility with the immune systems of patients, after it is transplanted.

Moreover, these embryonic stem cells are reported to be very easily coaxed to become more varied types of tissues, and can be stored longer while awaiting use. Besides, pro-stem cell research people said that these test-tube produced embryos (and fetuses) are about to die anyway – why not make use of them?

Those who oppose stem cell technology, took issue with the source from which stem cells were harvested – the human embryo; they maintained that the needs of the many should never outweigh the needs of the few, if it involves the willful killing of innocent vulnerable human fetuses – as this is a complete disregard and direct violation of human rights.

Moreover, the nearness of death became a part of the basis for deciding whether the killing of a human being is permissible; it’s a lot like saying that terminally-ill patients, military service personnel facing combats and death-row inmates, could be killed for their organs & stem cells, too – to benefit the majority.

Due to this debate, the use of human embryos and fetuses in stem cell research, whether dead or alive, has been made illegal while the use of adult cells, is legal. And the debt surrounding stem cell research still escalates, so, as mentioned earlier, if one finds themselves in a financially precarious circumstance, can help resolve debt issues quickly.