Raise your bodies immune defenses 437% and live your lifeIt seems that many people throughout the world have something to say about health threats and how they may be affected by them.Due to global climate changes new forms of bacteria and viruses have begun forming, thus increasing health threats and compromising the immune system. The world population has learned that antibiotics are not always the best means to treating an infection or disease. We hear quite often on television or radio the high interest in the immune system,and how many are making many offers of vitamins and supplements to help maintain a healthy immune system,it continues to be an important topic with increased interest everyday.Good nutrition and exercise are absolute, yet the human body also needs immune maintenance. How do we maintain our immune system? I would like to share with you vital information that will lead you into your search for a higher and healthier immune system.In this website I invite you to explore the latest in Biotechnologyand the discoveries made to raise your bodies defenses to new levels. The global Health Threat of the 21st Century
Every day, new studies are published that point to a malfunctioning immune system as the real culprit in conditions like heart disease, obesity, and multiple sclerosis. Our immune systems are letting us down. The more we learn, the more we realize that tuning up our immune systems is the best investment we can make for extended good health and longevity. Scientists are discovering that diseases once thought to be unrelated to infectious invaders are really caused by micro-organisms that either fail to trigger the proper immune response or overstimulate that response. POTENTIALLY DEVASTATING OUTBREAKS In human history, the term plague refers to an epidemic disease causing a high rate of mortality, i.e. a pestilence. An epidemic—disease outbreaks that strike a large number of people in an area at the same time—may also become a pandemic when it spreads over a wide geographical area or throughout many countries. Bubonic plague, typhus, smallpox, cholera, yellow fever, influenza, scarlet fever, malaria, diphtheria, and poliomyelitis are some infectious diseases that have resulted in epidemic or pandemic outbreaks.
Because of todays quick forms of transportation of people and goods,disease can spread quickly and with very little warning. From one continent to another, by way of aircraft, boat, train, or simply human contact. The discovery of disease-causing pathogens is an important activity in the field of medical science, as many viruses, bacteria, protozoa, fungi, helminthes and prions are identified as a confirmed or potential pathogen. Plagues of disease are a major factor in the development of human civilization, impacting and altering the course of wars, migrations, population growth, urbanization, industry, and cultural development. The term carries such extreme connotations that it is often synonymous with a "calamity", projecting an image of a disastrous evil or affliction.The danger posed by epidemic disease has not been eliminated by modern health and hygiene practices. The ever-enlarging human population, rapid international transportation, developing resistance to medication by known disease agents, insect resistance to insecticides, and medical complacency have all generated new strains of old diseases and increased the possibility of epidemics caused by emerging new diseases. An immune system is a collection of mechanisms within an organism that protects against disease by identifying and killing pathogens and tumor cells. It detects a wide variety of agents, from viruses to parasitic worms, and needs to distinguish them from the organism's own healthy cells and tissues in order to function properly. Detection is complicated as pathogens adapt and evolve new ways to successfully infect the host organism.The immune system protects organisms from infection with layered defenses of increasing specificity. Most simply, physical barriers prevent pathogens such as bacteria and viruses from entering the organism. If a pathogen breaches these barriers, the innate immune system provides an immediate, but non-specific response. Innate immune systems are found in all plants and animals. However, if pathogens successfully evade the innate response, vertebrates possess a third layer of protection, the adaptive immune system, which is activated by the innate response. Here, the immune system adapts its response during an infection to improve its recognition of the pathogen. This improved response is then retained after the pathogen has been eliminated, in the form of an immunological memory, and allows the adaptive immune system to mount faster and stronger attacks each time this pathogen is encountered. To fight off disease and function at optimal levels, the immune system must do the following: Recognize a disease-causing organism for what it is. Organize and mount an attack to eradicate that organism. Remember the antigen signature of that organism so the next time it invades, an immediate response occurs. The dangers of a low immune system The high cost of health care The benefits of immune maintanence
BE PROACTIVE AND ACT BEFORE THE PROBLEMS OCCURS The blueprint for the immune system shows us how to look for vital organs which enhance the immune system. The immune system is the gateway to life and death. When the immune system identifies an invading threat it moves to destroy it, if the immune system does not recognize the invading microrganisms it will be vunerable to attracing the disease. I have traveled throughout the world sharing with people about the importance of maintaining the immune system. Central America, and North America have been my points of contact, from Guatemala City, Salt Lake City Utah, Orlando Florida, Central New Jersey and,throughout the entire North American continent the information I will share with you will help in your understanding of the immune system and how it works for you.I have seen first hand how many have come back from near death to once again live a normal life.Take a moment and view the videos on this page then come and join me in your quest for a healthier lifestyle.
HOW HIGH CAN YOU RAISE YOUR BODIES DEFENSES? 50% PERHAPS A REMARKABLE 100%, DEPENDING ON YOUR CONDITION YOU MAY HAVE THE NEED TO RAISE IT EVEN HIGHER. CAN YOU RAISE YOUR DEFENSES HIGHER THAN 200%. WATCH AND LEARN THE LATEST IN BIOTECHNOLOGY AND RAISE YOUR IMMUNE SYSTEM TO A NEW LEVEL. Overview of the Immune System The immune system is a multifaceted system comprised of more than a trillion cells, with a collective weight of about 1 kg (2.2 pounds). There are three essential properties of the immune system: first, it has the ability to recognize alien substances such as bacteria, viruses, and parasites; second, it specifically reacts to each invading pathogen; and third, the immune system remembers the alien invader and quickly repels future invasions. Many infectious agents mutate readily, thereby presenting a different appearance to the immune system. This is the reason that we are repeatedly susceptible to viral infections such as colds and flues. Some parasites also rapidly mutate to evade our immune defenses. This is the reason for the cyclical flare-ups experienced by malaria victims. Each mutation that alters the appearance of the virus or parasite must be dealt with by a separate immune response. Within the immune system there are two separate responses to abnormal or foreign substances. The first response is called the humoral immune reaction which involves the production of immunoglobulins, often referred to as "antibodies." The second response is the cellular immune response, or cell-mediated immunity (CMI). This response depends on communication between various types of immune system cells (lymphocytes). An immature immune response may take 10-14 days to fully develop. This is what is called delayed hypersensitivity. Such a delay is not always healthy, as can be attested to by anyone who has fought a cold or flu for two weeks or more. Transfer factors can help because they include both inducer/helper functions (Inducer Factors) and a suppressor function (Suppressor Factor). The Inducer Factor is the transfer factor component that translates an apparently mature immune response from the donor to the recipient. Transfer factors have been shown to induce an immune response in less than 24 hours. Nevertheless, an overactive immune response to innocuous agents such as pollens or even our own body cells is not healthy. Suppression of such overreactions helps to control allergies and to prevent autoimmune diseases. Thus, both Inducer Factor and Suppressor Factor are part of an immunoregulatory network that keeps our immune system balanced. Colostrum, the first milk produced by mammals, is a rich source of transfer factors. The role of the transfer factors in colostrum is to imprint on the infant immune system the recognition codes it needs to identify pathogens as hostile invaders. In an infant, initial immunity is established rapidly if the baby is allowed to nurse. Infants who are not breast-fed consistently show a greater susceptibility to infections and allergies. The immunoglobulins found in colostrum can (and do) cause allergic reactions in other species. They are the source of most cow-milk allergies in humans. Transfer factors, on the other hand, are not allergenic. In addition, as would be expected from the discovery of transfer factors in colostrum, it has been shown that transfer factors are equally effective whether administered by injection or taken orally.It has also been shown that a long-term oral administration of transfer factor preparations is safe. Infants and the elderly are the two groups especially at risk for infections. Oral administration of transfer factor is convenient and easily accepted by these age groups.
AUTOIMMUNE DISEASE No one knows exactly what causes an autoimmune disease, but multiple factors are likely to be involved. These include elements in the environment, such as viruses, certain drugs, and sunlight, all of which may damage or alter normal body cells. Hormones are suspected of playing a role, since most autoimmune diseases are far more common in women than in men. Heredity, too, seems to be important. Many people with autoimmune diseases have characteristic types of self marker molecules.Sometimes the immune system’s recognition apparatus breaks down, and the body begins to manufacture T cells and antibodies directed against its own cells and organs. Misguided T cells and autoantibodies, as they are known, contribute to many diseases. For instance, T cells that attack pancreas cells contribute to diabetes, while an autoantibody known as rheumatoid factor is common in people with rheumatoid arthritis. People with systemic lupus erythematosus (SLE) haveantibodies to many types of their own cells and cell components. THE IMPLICATIONS
Anyone who is prone to illness, i.e., colds, sore throats, ear infections, sinusitis, influenza, boils, chronic fatigue, parasites, fungal infections, tumors, compromised immunity, gum infections, etc., needs to take a serious look at the benefits of transfer factors. Transfer factors out-performed leading natural immune boosters with wide margins, suggesting that transfer factor isolates offer something more than other immune boosting compounds currently available in the world today.
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