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Benefits of stem cells essay
What are the advantages and disadvantages of stem cell
Benefits of stem cells essay
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Crash! The screech of metal on metal. And then solid blackness envelops you. You wake up five days later in hospital to be told by the doctor that you can never walk again. Why? In the crash, your spinal cord was injured. With neurons unable to regenerate, you are paralyzed until you dying day. The discovery of stem cells approximately one decade ago has proven to be one of the most important breakthroughs of the 21st century. A stem cell is a somatic cell that has not been differentiated into a cell with a specific function. The use of human stem cells as a form of modern medical treatment is not only highly useful, it is also ethically acceptable. The use of human somatic and embryonic stem cells is a highly beneficial procedure which has the potential to cure diseases presently leaves those afflicted on medications, and therapies for possible the rest of their lives. Federal funding should be allocated for the development of stem cell treatment options based on the capacity that this breakthrough holds. The use of human stem cells as a form of medical treatment is ethically acceptable. The use of human somatic and embryonic stem cells is a highly beneficial procedure which has the potential to cure diseases presently leaves those afflicted on medications, and therapies for possible the rest of their lives. An example of this is shown in patients who have had heart attacks. Most heart attack patients are on pain killers, blood thinners, and cholesterol medication for very long times after the heart attack, or even for the rest of their lives. Stem cells have the capacity to become type of specialized somatic cell under the appropriate conditions, thus enabling them to heal injuries that the body normally could not. Damage t... ... middle of paper ... ...pName=Journals&prodId=OVIC&action=e&windowstate=normal &catId=&documentId=GALE|A187426915&mode=>. Soejitno, Wihandani, Kuswardhani, . "Stem cells from skin cells: the ethical questions." Clinical Applications of Stem Cell Therapy for Regenerating The Heart 42.4 (2010): 243 - 57. Web. 22 Dec 2010. . Wong, Nierras, . "Do stem cell-derived islets represent a commercially viable treatment for Type 1 and 2 diabetes?." Future Science Group, Regenerative Medicine 5.6 (2010): 839-42. Web. 22 Dec 2010. . McMahon, Singer, Daar, Thorsteinsdóttir, . "Regenerative medicine in Brazil: small but innovative." Future Science Group, Regenerative Medicine 5.6 (2010): 863-76. Web. 22 Dec 2010. .
The cells unique nature has scientists intrigued to do research with the focus of finding a way that these cells can be used to replace patients’ injured or diseased tissues. Advancement is made to all the three types of stem cells namely embryonic stem cells, adult stem cells in addition to induced pluripotent cells. Embryonic cells are the building blocks of an embryo that is developing, and can develop into almost all body cell types. Somatic cells are found in the body tissues. They renew and regenerate in healthy bodies. The third type which is induced pluripotent is genetically modified embryo cells from skin cells.2 Research on these cells are geared towards saving humanity; a noble course.
Stem Cells: What, How and Why? Stem cells are infinitely valuable when considering their potential applications in the medical profession. While current legislative restrictions have halted the development of new ?stem cell lines? to any agency or company that receives any form of governmental grants, there is no question that the medical profession is standing at the brink of a new era of technological advancements in healthcare and research.
Over the past decade scientist and the U.S government have been debating about funds for stem cell research (SCR), the amount spent depends on who is in office. The Democratic Party fully supports SCR, but the Republican Party somewhat opposes the concept of SCR, arfuing it violates the Christian principle of life. As a result, this topic is considered controversial, but also beneficial if allowed. Despite the controversy, SCR should be well funded for medicinal use, because blank stem cells (SC) can be used to regenerate bones and muscle tissue, they can be used to control or even reverse neurodegenerative disease, and because they can be used for therapeutic cloning.
Late one night a woman is driving home on the freeway, she’s hit head on by a drunk driver and killed. The man is charged with two accounts of murder; the woman, and her four-week-old embryo inside her. By law, everyone human being is guaranteed rights of life; born or unborn they are equal. The same law should be enforced concerning human embryonic stem cell research. Dr. James A. Thomson discovered stem cells in 1998 and they’ve intrigued scientist ever since. The stem cells themselves are derived from a three to four day old cluster of cells called a blastocyst and they are so coveted because they are pluripotent, meaning they can differentiate into any type of cell in the human body. Although embryonic stem cells show amazing potential to cure various disease such as cancer, congestive heart failure, Alzheimer’s and Parkinson’s disease, muscular dystrophies, and more. The methods by which they are obtained is controversial. Research on embryonic stem cells is unethical, unnecessary, and purely homicide.
Stem cells are pluripotent cells of the body which are “undifferentiated.” This means that stem cells can ultimately give rise to any type of body tissue. Thus stem cells have the potential to cure a vast number of diseases and physical ailments including Parkinson’s, diabetes, spinal cord injury, and heart disease. Consequently, stem cell research and the development of associated medical applications are of great interest to the scientific and medical community. The area of stem cell research involving human embryonic stem cells is of particular interest in that embryonic stem cells are derived from week-old blastocysts developed from in vitro fertilized eggs. As opposed to adult stem cells, which must undergo a complicated process of de-differen...
Millions of people die every year from diseases and accidents; the nightly news is filled with reports about the devastating effects of cancer, horrific accidents, and disasters that leave people disfigured or paralyzed. Embryonic stem cell research is a part of biomedical science and has the potential to ease the suffering of sick people by curing diseases and defects, creating organs and tissue for patients needing transplants or skin grafts, regenerating axons in spinal cord injuries, and creating new treatments, drugs, and immunizations. However, America’s government does not support this research to an extent that would make a difference in medicine; only a few stem cell lines are authorized, and federal funding is minimal. The government should support embryonic stem cell research by educating the public, increasing federal funds, and easing restrictions.
The President’s Council on Bioethics published “Monitoring Stem Cell Research” in 2004. This report was written in response to President Bush’s comments regarding research of human stem cells on August 9, 2001. President Bush announced that he was going to make federal funding available for research that involved existing lines of stem cells that came from embryos. He is the first president to provide any type of financial support for the research of human stem cells. A Council was created with people who are educated in the field of stem cells to help monitor the research and to recommend guidelines and consider the ethical consequences that this research could create. This report is an “update” given by the President’s Council in January of 2004 to make the public aware of the significant developments in the science and medical aspects of stem cell research. It also describes the ethical, legal and political implications that stem cell research may create. However, since the research is still in its beginning stages, this “update” does not describe a complete or definitive study of stem cells nor does it provide specific guidelines or regulations. This is a report that is suppose to help the President, Congress and general public make better-informed decisions as to the direction that we should go with stem cells.
Imagine that there is a cure for nearly every ailment that affects the human race. Imagine that you could help the terminally ill, put those you love out of pain, and cut the healing time of an enormous number of serious illnesses in half. Imagine a world in which pain and suffering would be nearly nonexistent, and the people you love can live safe from the fear of crippling injury. Now what if I told you that this utopia was a fast approaching reality? Everything from serious life threatening burns to lymphoma, AIDS, Alzheimer’s, Muscular Dystrophy, Parkinson’s Disease, Spinal Cord Injury, and Strokes could, in the very near future, be eliminated through the simple culturing and implementation of stem cell therapy . These diseases are no small component of the myriad of conditions that plagues the human race, and yet, the end for these horrible maladies could very well be in sight. Man has always sought to end suffering, largely without success, until now. the promise that stem cell therapy holds could completely change our world for the better. Already, stem cell therapy is being used to treat leukemia, immune disorders, hodgkins and non-hodgkins lymphoma, anemia and a profusion of other ailments. As you all know, this is no small accomplishment. One day i believe that we may look at alzheimer's and diabetes and other major illnesses much like we look at polio today, as a treatable illness. Right now, our research with stem cells is providing us with new light into how we look at and model disease, our ability to understand why we get sick and even to develop new drugs. In 2008, a researcher from the New York Stem Cell Foundation Laborato...
This paper focuses on the benefits of stem cell research in the medical and nursing field. New technology is always being created to help us understand the way the human body works, as well as ways to help us improve diseased states in the body. Our bodies have the ability to proliferate or regrow cells when damage is done to the cells. Take for example the skin, when an abrasion or puncture to the skin causes loss of our skin cells, the body has its own way of causing those cells to regrow. The liver, bone marrow, heart, brain, and muscle all have cells that are capable of differentiating into cells of that same type. These are called stem cells, and are a new medical tool that is helping regrow vital organs in our body to help us survive. Stem cells can come from adult cells, or the blastocyst of the embryo. The cells that come from these are undifferentiated, and can be specialized into certain cell types, making them available for many damaged tissues in the body. While using stem cells in the body is a main use, they are also being used to help doctors understand how disease processes start. By culturing these cells in the lab and watching them develop into muscles, nerve cells, or other tissues, researchers are able to see how diseases affect these cells and possibly discover ways to correct these diseases. While researchers have come very far in using stem cells, there are still many controversies to overcome when using these cells.
“Stem Cells: The Future of Medicine.” Medschool.umaryland.edu. University of Maryland School of Medicine Web 14 Nov 2013
The wide range of prospective uses for stem cells could greatly improve the health and wellbeing of many people. In stem cell treatments, undifferentiated cells are programmed to form specific cells, which can then be transplanted to the afflicted area. Stems cells can possibly treat afflictions including “Alzheimer’s diseases, spinal cord injury, stroke, burns, heart disease, diabetes, osteoarthritis, and rheumatoid arthritis” (“Stem Cell Basics”). Another important use is in drug testing. Drugs can be tested on stem cells that develop into the target tissue before using it on human test subjects, which improves safety. Finally, transplantation of organs created from stem cells could eliminate the need for human...
Stem cells offer exciting promise for future therapies, but significant technical hurdles remain that will only be overcome through years of intensive research. Stem Cells have the incredible potential to develop into many different cell types in the body during early life and growth. Scientists primarily work with two kinds of stem cells from animals and humans. The embryonic stem cells and the non-embryonic stem cells. Stem cells are the cells from which all other cells originate. In a human embryo, a large portion of the embryo’s cells are stem cells. These stem cells can be used for cell-based therapies. Cell-Based therapies are treatments in which stem cells are induced to differentiate into the specific cell type required to repair damaged or destroyed cells or tissues. Stem cells are versatile and offer the possibility to treat a number of diseases including Alzheimer’s, stroke, cardiovascular disease, diabetes, etc. The problem is that for the process of embryonic stem cell research and embryo will be destroyed if used. This raises a moral issue and questions of whether stem cell research is unethical or not.
Exploring the role of stem cells in cutaneous wound healing: Katherine Lau, Ralf Paus, Stefan Tiede.
In order to discover the ways for the remedy of diseases, studies in therapeutic approaches have been doing widely and kept increasing at accelerated pace. A lot of research areas had emerged for that purpose including one of the most fascinating and highly active areas at present, stem cells therapies. Due to self-renewal property and differentiation capability of stem cell, it becomes a new hope in modern treatment.
Researchers in this field are seek to know how stem cells can be used to develop into specialized cells or tissue, which aims restore lost function in damaged organs or even grow new fully functioning organs for transplant.