Amyotrophic Lateral Sclerosis (ALS) is a disease which causes the death of motor neurons which control voluntary muscles, and with this comes many complications. Let's learn what amyotrophic lateral sclerosis stem cell is all about.
The disease is almost always fatal. The primary difference among cases is how fast the progression is rated at because there are some cases such as that of Stephen Hawking which have been tolerated for a very long time. Most people deteriorate much faster than that exceptional case, and there has been no real understanding of this mechanism for some time now.
However, new identification of the stem cell and various related treatment methods may bring hope for many in what is a sad disease which takes loved ones a little at a time.
Amyotrophic lateral sclerosis stem cell therapy: Recent studies have shown that it is possible to use a patient's own stem cells in order to begin to treat what has so far been incurable, and the result is that the progression slows, somewhat extending the life of the patient.
Mesenchymal stem cells from the bone marrow of ALS patients are taken out of the body and then worked on, so that they become cells that give NeuroTrophic Factor (NTF) which helps maintain life for nerve cells in the brain and spinal cord of the sufferer of amyotrophic lateral sclerosis.
The name given to them has been NurOwn cells which is a play on words from the "neuron" cells which are so prevalent in the human body and related to the illness.
So far, this looks like good news for the disease, but it is still a limited hope that does not really come close to a cure that is so badly needed. This was the brainchild of a biotech company called Brainstorm Cell Therapeutics which has bases in both Israel and the United States. They are continuing to work hard there by doing further studies and sharing the research findings through conferences and other types of conventions.
It is the work of these type of biotech companies which needs to be supported because there are many who could well be on the way towards victory if only they are helped with the right resources, personnel, and encouragement. There are many ways that people can contribute to Brainstorm Cell Therapeutics, and one of these is by investing in the public stock which is trading under the symbol BCLI on the NASDAQ.
What better feeling can there be than knowing that an investment is not only likely to return dividends in terms of US Dollars, but also that it is likely to turn the more crucial dividends in terms of human lives saved from such a tragic demise.
Dr. Dimitrios Karussis is an HMO principle scientist and he has been quoted as saying that almost 90% of the patients who were treated in the study the NurOwn cells responded favorably.
This means that there was either a marked improvement in respiratory function or a lessening of the motor disability, both of which slowly overtake a person with what is also known as Lou Gehrig's Disease, because of the fact that the baseball player was one of the first famous people in the United States to become ill and help bring attention to the disease.
That is all great news, and there are other stem cell treatments being worked on in various other labs throughout the world as well.
CIRM is an acronym for the California Institute of Regenerative Medicine, and the brilliant folks there are also working on stem cell treatments for ALS by heading 21 studies which are costing some $56.6 million dollars.
It is not known just yet whether such treatments are going to be able to help other similarly devastating neurodegenerative diseases as well. It could be that there is a "one size fits all" type of treatment that, when found, could help a great many people across the spectrum.
One way that the average citizen can help is by donating to great causes such as MDA because the Muscular Dystrophy Association also helps fund lots of research for ALS and similar problems. People can donate through the website and of course, there is the telethon each year which tries to bring as much attention as possible to the disease.