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Multiple sclerosis (MS) affects about 2.3 million people worldwide. Most people are diagnosed between the ages of 20 and 50, though it can occur in young children and significantly older adults. MS presents in different forms, but generally it is a progressive disease, worsening over time. MS symptoms, their severity and their progression vary from person to person, and each person’s symptoms can change or fluctuate over time.
In this section:
To understand MS, you must first understand the unique structure of neurons, the cells that allow us to move, balance, see, hear, taste, feel, remember and think.
The cell body of a neuron contains the nucleus and has a number of tentacle-like extensions, called dendrites, on its surface. A long fiber called the axon extends from the cell body and is coated with a protective sheath called myelin, which acts like insulation on a wire, protecting the axon and facilitating sending and receiving electrical signals. Myelin is generated by specialized cells, oligodendrocytes in the brain and spinal column (the central nervous system, or CNS), and Schwann cells in the network of nerves outside the CNS that connect it with the rest of the body (the peripheral nervous system).
Multiple sclerosis (MS) is thought to be an immune-mediated disease, most likely auto-immune, in which the immune system attacks the oligodendrocytes, causing damage to the myelin sheath. This damage interferes with the neurons’ ability to function properly and with time, results in direct damage to the neurons, resulting in permanent disability.
People with MS may experience a wide range of symptoms, depending on which part of the brain and/or spinal cord is being affected, including blurred vision, pain, numbness, extreme fatigue, loss of movement and speech problems. MS is most likely caused by an interaction of several factors related to individual immunity, the environment, past infections (for example, viral or bacterial) and genetic predispositions, though no one knows for sure.
There are four main types of MS:
There is currently no cure for MS. Treatments for managing MS fall into two categories, those that mitigate symptoms and those that modulate the immune system.
Treatments that mitigate symptoms and help to maintain function include drugs that help with bladder control and irregularity, muscle spasms, tremors and pain, as well as exercise and physical therapy regimens focused on overall fitness and on addressing problems with mobility, speech, swallowing, memory and other cognitive functions.
Treatments that modulate the immune system include drugs developed to reduce disease activity and progression and to help with the management of relapses.
Many individuals with MS, and their family members, also benefit from psychological and social support, which is helpful in managing the stress related to life with an unpredictable and disabling illness.
Researchers are using stem cells to help them understand normal development of brain tissue and what goes wrong in MS. Stem cells are also enormously useful for testing new drugs and treatments and for learning more about the body’s natural repair mechanisms.
Neural stem cells from the central nervous system give rise to neurons and the myelin-producing and support cells, oligodendrocytes and astrocytes, respectively. Neural stem cells are found in adult or fetal brain and spinal cord or derived from embryonic stem cells, which have the capacity to become any cell type in the body, or induced pluripotent stem (iPS) cells, tissue-specific cells that are reprogrammed in the lab to behave like embryonic stem cells. They are relatively easy to grow in the lab, and researchers use them to learn more about normal nerve cell function.
Scientists are using stem cells to:
There is exciting progress being made as researchers explore the potential of different types of stem cells to slow MS activity and to repair damage to the nervous system. There are no approved stem cell treatments for MS at this time, but there are various approaches being tested in clinical trials.
To prevent or reduce the damage done to nerve cells by the immune system, researchers are exploring ways to modulate what cells the immune system attacks or the intensity of its attack. One approach in clinical trials is to wipe out the patient’s immune system using strong doses of chemotherapy with antibodies and then use their own previously banked hematopoietic stem cells (blood forming stem cells) to regenerate the blood system. The goal of this approach is that the regenerated immune system will not attack the myelin or other brain tissue.
Another approach being tested in clinical trials is the use of a patient’s mesenchymal stem cells, which refer to cells isolated from stroma, the connective tissue that surrounds other tissues and organs. Different trials are using stromal cells isolated and transplanted in different ways with the aim to dampen the individual’s immune response and/or enhance repair of the damaged tissue, but the research has yet to reveal the role these cells play in immunomodulation.
A further avenue of exploration is how neural stem cells and their descendants, which can be grown in the lab, might be used to replace the neurons and oligodendrocytes lost during the course of MS. In the short-term, these cells are an excellent platform with which to screen for new drugs that might enhance intrinsic repair.
Stem Cell Clinical Research
Calle Ancla #26,
Puerto Vallarta, Jalisco
Tel: +52.322 222 6632