Why do unexpected reactions occur in the body
Our health is put at risk when the stable and delicately maintained balance between all organ systems is disrupted. Of course, illnesses can also occur through injuries or toxic substances. But excessive strain, endured for a long time without a chance for adequate rest, can also be a cause of illness.
Under normal circumstances, our body continues its vital processes without problems even in an emergency. For instance, when we break our arm in an accident, our breathing and digestive system continue as if nothing happened. On top of all this, the body also has to take on the heavy burden of the healing process. If, in addition to situations like these, additional strains that threaten health emerge, the system breaks down. Our nervous system has a very important role in all these processes.
ONE OF THE MOST IMPORTANT SYMPTOMS
At the root of illness, alongside the nervous system, breakdown products accumulated in our body—such as "toxins lodged in connective tissue that the body cannot eliminate" also play an important role. Whatever the person's ailment may be, if these toxins cannot be removed from the body and the order (regulation) the body should have cannot be achieved, functional disorders will emerge in organs and tissues one step later; when these disorders continue for a long time, they will manifest as chronic illnesses, and structural damage will occur in organs.
The sensation of PAIN, one of the most important symptoms of illness, forms entirely through neural mechanisms. Pain cannot occur without the involvement of the sympathetic system. New and comprehensive studies conducted on pain confirm observations that have been made in the field of neural therapy for over 100 years. When we hit our thumb instead of the nail with a hammer during a home repair job, or twist our ankle during sports, the sympathetic nerves that we describe as independent nerve points (endings), terminating freely in connective tissue, become activated. These nerve endings are called "nociceptors." They are found largely in the skin, muscles, and internal organs. Nerve fibers are connected to the spinal cord and brain. In case of injury, these nerve endings send the sensation (information) of pain as a "warning signal." This signal, traveling at a speed of 120 m/s, is relayed from the nerve fibers to the body, and the body reacts immediately. We then move away from the harmful thing or stop what we are doing. In this case, the injured part is protected.
IT EMITS "SILENT SIGNALS"
The brain immediately declares immobility in the event of an injury to the hand or a sprain (strain) in the foot. The system puts itself into self-protection mode. As soon as the injury heals, the pain signal disappears. The immobility signal ends. The nerve networks calm down and the pain decreases. However, in the development of illness, there can sometimes be situations that don't manifest with pain, or there can be inflammation in internal organs, such as an incompletely healed "stomach or tonsil," that isn't fully resolved. These silent inflammations, much like an ember smoldering inwardly, don't react outright, but they continuously emit "silent signals" via the nerve fibers.
In some cases, these organs also release toxic substances or disease-carrying agents into their surroundings. Despite all of this, we notice nothing at all—until the body becomes weakened and reaches a point where it can no longer overcome these problems. That's when this smoldering ember suddenly flares up. For example, in a situation like a harmless, simple infection (a common cold) or work stress, the capacity for resistance disappears and symptoms of illness appear.
In this case, unexpected reactions can occur in the body. Because the nerve pathways, and especially the sympathetic system, are extremely fatigued and overloaded due to this hidden disease process that has been concealed and asymptomatic. When this is the case, incorrect signaling or short-circuits occur throughout the nerve networks. Because of this, pain or complaints generally begin to appear not at the site of the problem, but somewhere else in the body. This means that the complaint the patient consults the doctor about actually belongs to a different, hidden illness. This in turn makes diagnosing—and therefore treating—the illness more difficult. This difficulty turns tracing the actual factors causing the illness into a game of cat and mouse.
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