The hormone adrenaline is basically formed in the adrenal glands. Synonymous with the term adrenaline, the term epinephrine is used primarily in modern medicine. As an integral part of the human body, the adrenaline hormone is stored both in the organs of the human body and in the nervous system.
The release of the hormone adrenaline occurs only in the context of a sensory overload. However, adrenaline is not only released in the context of extreme stress situations. For example, the level of adrenaline can also be increased by a particularly high level of physical activity.
A strong lack of oxygen can also increase the adrenaline level noticeably. In order to prevent the sometimes life-threatening side effects of adrenaline, modern medicine makes use of a simple method for measuring adrenaline levels.
The hormone epinephrine can be detected in the blood plasma of the human body. Alternatively, a person's urine can be collected over a period of 24 hours to measure adrenaline levels.
For example, a degradation product of the body's own hormone is only detected in the urine. If blood collection is considered to determine adrenaline levels, the patient should remain calm for a minimum of 30 minutes in advance of actual blood collection. Only in this way can reliable values with regard to adrenaline levels be determined.
Even a slight physical activity in advance of the actual blood collection can increase the adrenaline level noticeably. Compliance with well-defined norms is also essential. As part of a blood test, the adrenaline level may not exceed 80 nanograms per liter.
However, as individual laboratories often work with different units of measure, a value of up to 4.4 nanomoles per day is considered normal. The urine should not contain more than 20 micrograms of the body's own hormone. Alternatively, a value of up to 110 nanomoles per day is tolerated in the urine examination.
In modern medicine, the hormone adrenaline is valued above all for its therapeutic capabilities to a particularly high degree. The hormone adrenaline is used as part of a cardiac arrest to revitalize vital signs.
In addition, spasms in the bronchi and asthma can be effectively treated with the body's own hormone. Not infrequently, adrenaline is also used as a local anesthetic. In the human organism, adrenaline primarily causes increased blood pressure and an increased heart rate.
As a result, inter alia, a reduced glycogen metabolism can be detected. At the same time, however, the glycol level increases to a particularly high degree. The possible side effects of the endogenous hormone epinephrine should therefore not be neglected.
Low levels of adrenaline are generally considered safe by leading physicians. In particular, various drugs can inhibit adrenaline. However, an increased adrenaline level generally requires extensive research into the causes.
If the body produces too much adrenaline, it can lead to symptoms such as tachycardia or sweating. Not infrequently, the symptoms mentioned above are associated with relatively severe headaches. In most cases, the affected patients sweat very much.
In addition, a strong sense of anxiety is often felt. Left untreated, increased levels of adrenaline can lead to serious complications. These include both strong cardiac arrhythmias and bleeding in the brain. Since it is not uncommon for a serious underlying disease to be responsible for an increased level of adrenaline, the affected patients must undergo an extensive examination.
Only then can, for example, a high blood pressure be ruled out in time. In addition, any tumors that may be present can be recognized early as a possible cause of an increased secretion of adrenaline.Tags: