MULTIPLE SCLEROSIS Multiple sclerosis is a long-term, complex, and usually disabling disease of the central nervous system (CNS) with a variable clinical course. There are 2 basic types of Multiple sclerosis – relapsing or remitting and progressive. There is an important overlap between these 2 types. Individuals with Multiple sclerosis have nerve cell degeneration, demyelination, inflammation, and dysfunction caused by a disorder of the immune system. Inflammation causing demyelination predominates in the relapsing-remitting stage of the illness and is noticed as repetitive episodes of worsening and improvement. Neuro degeneration directing to significant brain nerve cell (neuronal) damage, takes place at the same time as the inflammatory process in increasing stages of the disease. Multiple sclerosis impacts a lot more than 2.1 million people globally and over 400,000 people in the US, with about two hundred new patients clinically diagnosed every week. Even though it can affect people at any age, multiple sclerosis is normally diagnosed between the ages of twenty-forty years and is around 3 times more frequent in women than in men. As a major reason for disability in young people, multiple sclerosis significantly affects a person’s quality of life and can result in a major financial and functional load on the family, patient, and health care system. electromagnetic field therapy-
SIGNS AND SYMPTOMS OF MULTIPLE SCLEROSIS
The main indications of multiple sclerosis can change by the patient and may change or vary over time. For many years multiple sclerosis has been regarded as a white matter disease (i.e., involving sensory and motor findings). Magnetic resonance imaging has enabled us to see that multiple sclerosis lesions appear in the grey matter too (i.e., involves cognitive behavior), directing to a larger range of complex neurologic signs.
Some of the most common signs may include changing degrees of sight problems, fatigue, gait problems, sexual dysfunction, spasticity, dizziness, depression, and cognitive dysfunction. Less common signs may include hearing loss, seizures, headache, tremors, speech and swallowing problems. These symptoms may result in additional other difficulties, e.g., loss of muscle tone, decreased bone density, pressure sores, urinary tract infections, shallow breathing, and tertiary, which create their problems to effectively treat and manage.
Because multiple sclerosis is recognized at a relatively young age (20 to 40 years) and continues to progress over time, it leads to a greater financial problem than many other chronic problems over the lifetime of the individual and has a big effect on health, quality of life, productivity, and employment over many years.
How electromagnetic field therapy helps multiple sclerosis patient?
In seeking other therapies to assist manage multiple sclerosis, I have to get aware of the potential for pulsed electromagnetic fields to affect neurological tissue at a fundamental level. Although there is little proof at this time to recommend that PEMFs may be able to minimize plaque size, there is some tip that there is a possibility that PEMFs may be able to decrease recurrences and perhaps extend the time of progression of multiple sclerosis as well.
Research indicates that PEMFs although not a cure can relieve many of the major problems of multiple cases of sclerosis, such as fatigue, cognitive function, spasticity, mood changes, and other disabled physiologic functions. This is because PEMFs act at such fundamental cellular and physiologic levels. They enhance the function of all cells of the body. As such, PEMFs can significantly improve the quality of life of people with multiple sclerosis without the side effects linked with pharmaceutical approaches.
Each molecule, cell, the organ in our body emits and is sensitive to electromagnetic fields, our biochemistry is affected by our electromagnetic nature. As these, attempts to develop new therapies based entirely on dysfunctional biochemistry without thinking about this nature ultimately will be limited.
However there is no tissue in which our electromagnetic nature is more obvious than multiple sclerosis-infected nervous tissues, most therapeutic attempts have highlighted the diseases over physical signs connected with demyelination. They also reduced, until recently, the role of its less understood, underlying electromagnetic dynamics.
Electromagnetic fields and electromagnetic field therapy affect many biochemical and physiological processes. Though the particular mechanisms by which such fields alleviate multiple sclerosis signs remain vague, many solutions exist. For instance, by controlling the flow of charged ions through membrane-trans versing, protein channels, electromagnetic fields may improve signal conduction in dysfunctional neurons.
The pathogenesis, clinical manifestations, and disease course of multiple sclerosis can all be associated with the pineal gland. For instance, most people with multiple sclerosis have calcified (i.e., dysfunctional) pineal glands. If multiple sclerosis demyelination is a secondary consequence of pineal dysfunction, different researches show that electromagnetic field therapy enhances pineal functioning.
There is growing evidence in the literature of the beneﬁcial eﬀects of magnetic ﬁelds on diﬀerent multiple sclerosis signs. Different studies indicate that this method can minimize symptoms such as fatigue, bladder control, and spasticity, as well as enhance the quality of life.