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For and against stem cell research
For and against stem cell research
What are the advantages and disadvantages of stem cell research
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Stem cell research is a topic that is discussed widely throughout our nation and can have many positive and negative outcomes. There are two different types of stem cells, embryonic stem cells and adult stem cells. Embryonic stem cells are able to differentiate and turn into other cells which are taken from an embryo at a few days old. An adult stem cell is a stem cell that resides in an individual, which can be used for repairing the tissue in which they reside. However, it has been proposed that embryonic stem cells and adult stem cells can either change or may be responsible for abnormal growth which could progress into cancer. Embryonic and adult stem cells have been proven to help with new treatments for certain diseases but it may also
Stem cells are the building blocks of the human body. Embryos consist of unspecialized stem cells that transform into the various specialized cells in the body such as cardiac, muscle or bone cells. Fetuses also have stem cells. However, the stem cells are divided into types like muscle, bone or nerves and don't perform a specialized function. Surprisingly, adult bodies also contain stem cells. In adults, stem cells are undifferentiated but limited to specific tissue type. When needed, the stem cells transform into the cells needed for repair and maintenance. The most common source of adult stem cells is bone marrow. Researchers also acquire stem cells from umbilical cords. Without stem cells, embryos could not develop into fetuses and adult
Despite the significant portion of Americans that do not support embryonic stem cell research, it should be federally funded because of the potential health benefits, the definition of human, and the opportunity to clearly define regulations for ethical research. 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. Stem cells can possibly treat afflictions including “Alzheimer’s disease, spinal cord injury, stroke, burns, heart disease, diabetes, osteoarthritis, and rheumatoid arthritis” (“Stem Cell Basics”). Another important use is drug testing.
Could you imagine being able to create new organs, tissues, muscles, and even food? With embryonic stem cell technology, believe it or not, these things are possible. Stem cells are the body's raw materials. Specifically, they are cells from which all other cells with specialized functions are generated. Under the right conditions in the body or in a laboratory, stem cells can divide to form more cells called daughter cells. These daughter cells either become new stem cells or turn into specialized cells with a more specific function, such as blood cells, brain cells, muscle cells or bone cells. The possibilities are almost endless. The debate and main issue with this technology is that the actual stem cells come from embryos. Embryos are an unborn or unhatched offspring in the process of development. Although there is controversy surrounding these cells, embryonic stem cells should continue to be researched and used, because they have so much potential.
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.
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...
Stem cell therapy is a controversial topic that falls on the list of things not to discuss over thanksgiving dinner, very much like religion and politics. While the potential of stem cell research and therapy stand to make leaps of progression in cures for disease like Cancer and Alzheimer’s; Pros, Cons and morality still surround the issue.
Stem cell research is a heavily debated topic that can stir trouble in even the tightest of Thanksgiving tables. The use cells found in the cells of embryos to replicate dead or dying cells is a truly baffling thought. To many, stem cell research has the potential to be Holy Grail of modern medicine. To many others, it is ultimately an unethical concept regardless of its capabilities. Due to how divided people are on the topic of stem cell research, its legality and acceptance are different everywhere. According to Utilitarianism, stem cell research should be permitted due to the amount of people it can save, however according to the Divine Command of Christianity, the means of collecting said stem cells are immoral and forbidden.
Stem cell research has been around for some time, and many people have been cured from certain diseases because of it. Many scientists observe that embryonic stem cells are easier and flexible to use than adult stem cells Adult cells are diseased curable cells as well to a certain extent because they are taken from certain tissues that are already established in an area of the body. Stem cell research has long ways to go for scientists to be able to use them to cure all cancers, infectious diseases, and other health problems however stem cells are on the path of changing the world.
Stem cells can help cure diseases, repair damaged organs, and replace the need for organ donors. Stem cells may play a major role in cancer research, treatment, and maybe even a cure. Using stem cells in better treatments for diseases can give economic gains for society. According to the Mayo Clinic, over 100 million suffer from diseases that eventually may be treated more effectively or even cured with embryonic stem cell research (“Stem Cell Transplant”). This may be the greatest opportunity to alleviate the suffering of humans. Stem cell research has a lot of potential; there is a long list of diseases and other conditions that stem cells may be able to treat and possibly one day
Embryonic stem cell research is the medical study of cells taken from embryos before they are able to implant into a uterus. This procedure – harvesting the cells – ultimately destroys the embryo rendering it non-viable and unable to sustain life. Adult stem cell research is simply the study of stem cells harvested from adults and used in many areas of medicine. Numerous groups are opposed this sort of research because they feel it infringes on the right to life, while others do not believe that an embryo that has spent five days in a petri dish should be considered a human. In the 1800’s the first discovery of stem cells occurred. This discovery proved that some cells could spawn other cells. However, it was not until the early 1900’s that research demonstrated stem cells could generate blood cells. This was very promising in the medical community at that time since so many diseases ran rampant and were incurable. During the infancy of stem cell research, both animal and human stem cells were used. Now, for medic...
...oll(2010), around 33% of U.S. voters believe that taxpayers’ money should be spent on embryonic stem cell research and more than 50% of the voters disagree that taxpayers’ money should go the research(Roe, 2010). Hence, it is believed that government should not fund the stem cell research.
Over the past couple years, scientist have continued research on embryonic stem cells, but there is still lots of controversy that accompanies this research. While research has grown to be more successful, it has also become more difficult to face controversies. These controversies mostly consist of funding and issues of differing moralities. There have been projects where funding was pulled because of people’s believing in different moralities and not having money to support the research. For example, the California-based biotechnology lab, Geron, did not have support and therefore “After many false starts… firm Geron pulled the plug on all of it’s embryonic stem cell research” (Cook).
Current research to cure disabling diseases such as Parkinson’s, Alzheimer’s, diabetes, and spinal cord injuries are at an all-time high. With influential speakers to encourage these movements to end these diseases, many see the value in finding a cure. This brings up the discussion of whether or not embryonic stem cells research should be allowed. The process would be extracting stem cells from a five to seven-day old embryo, and then used to develop tissues that can be used to cure certain diseases. Some view the issue with this process to be that the extraction of stem cells kills the embryo, which goes against the pro-life perspective (14.8.1) That the agree in using embryonic stem cells in research want to save lives as well, just from
The stem cells have the ability to self-renew and also give rise to further generation of cells that can multiply. There are a number of stem cell therapies that do exist but most of them are still in the experimental stages. The treatments are very costly with an exception of bone marrow transplant. However, researchers believe that one day they will be able to develop technologies from embryonic stem cells and also adult stem cells to cure type I diabetes, cancer, Parkinson’s disease, cardiac failure, neurological disorders and many more such ailments.
The scientific world is buzzing with excitement now that researchers have shown that stem cell therapy improves lung function in mice. Headlines scream that new treatment options may soon be available for COPD patients, yet people have already had stem cell therapy performed successfully. Although news articles promise a bright future for people with lung diseases, none of the articles mention that individuals can choose stem cell therapy in the United States today, if they are eligible. This is a disservice to individuals with chronic lung diseases who have a right to know all of their options.