Stem cell research has been in the news for decades, most commonly because of controversial or morally objectionable research methodologies engaged by scientists and research groups around the world. However, individuals should also know there are several different types of stem cell research including but not limited to, adult stem cells, embryonic stem cell, placenta, and umbilical cord research.
In coming years, scientists will inevitably discover other types of stem cell research, and understanding the differences between them and the capabilities of each is essential for the future of medical care, technology, and access to cutting edge medical treatment in coming years.
Adult stem cells are known as undifferentiated cells. They are also known as multipotent cells capable of producing different blood cells. That means that they haven't specifically developed or grown into a specific type of tissue or organ. Adult stem cells can renew themselves and grow or "morph" to become just about any type of specialized cell, tissue or organ tissue.
There are many different types of adult stem cells, and many of them have the capacity to differentiate, or grow into specific types of stem cells that may help replenish damaged or injured cells in muscular tissue, cardiac tissue, brain and nerve tissue, among others.
The basic function of adult stem cell therapy in humans is to maintain and repair tissues in the organ or tissue where they are located. Adult stem cells are also commonly known as somatic stem cells, which are types of cells defined by their origin.
Stem cell research has a very viable future of holding treatments for debilitating and life-threatening illnesses and disease processes such as diabetes, Parkinson's, Alzheimer's, cancer, and repair of cardiac muscle tissues damaged by strokes, heart attacks, and coronary artery disease. Recent developments in stem cell research have proven positive results from using stem cells in a variety of treatments of blood disorders such as leukemia as well as vision care and cardiac care.
Adult stem cells are found in many tissues and organs of the human body, including blood, blood vessels, the brain, bone marrow, skeletal muscle, teeth, skin, and internal organs such as the liver, heart, and stomach. Adult stem cells are now believed to develop and grow in specific locations within body issues that are normally activated and put into use by needs of cells to increase tissue growth, or repair damage caused by injuries or disease.
Small numbers of adult stem cells are found in various tissues, but once removed from the body have a reduced capacity to divide and multiply. Because of this, generating large quantities of adult stem cells for research and development into therapies has long provided a hurdle to researchers. Ongoing research and development into creating cell cultures from adult stem cells in order to manipulate and encourage them to grow and multiply are ongoing.
Adult stem cells are commonly used today as bone marrow transplants, blood trans plants and transfusions in the treatment of such diseases such as leukemia, other types of cancers and blood disorders.
Adult stem cells are fairly easy to obtain and offer nearly limitless potential for supply. Stem cells cultivated from patients themselves can be utilized for their own treatments and therapies. Adult stem cell research and therapy development has already displayed promising results in treating blood diseases and some cancers. Adult stem cell research and treatments are not considered unethical or morally wrong and ongoing discoveries makes it one of the most popular stem cell research today.
The potential use for adult stem cells in fields of treatment and research for brain diseases such as the aforementioned Parkinson's and Alzheimer's, as well as neuromuscular diseases such as osteoarthritis, rheumatoid arthritis, and multiple sclerosis offer hope for the future of medicine. Adult stem cells culled from bone marrow has long been used in the treatment of leukemia and is currently being developed for treatment of cancers and blood diseases.
Stem cell research has been ongoing for decades, but only recently, thanks to modern high-tech equipment and technology, researchers are able to utilize a multitude of stem cells to research growth and development as well as potential effectiveness of stem cells against common diseases today. Stem cell development in a near future is likely to offer support and rejuvenation for injury to tissues and organs as well as treat spinal cord injuries and reversing heart disease, among many other beneficial uses of this invisible yet very powerful source of health and healing in the human body.
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Stem Cell Therapy Abroad