"More than the eye see" .. an unexpectedly complexity in adrenal gland tumors

Recent research conducted by the University of Kyushu in Japan has revealed an unprecedented level of affiliation in the glandular crops produced by the Eldosterone, a type of crop that arises in the adhesive gland and contributes to high blood pressure. Using advanced analysis techniques, the researchers concluded that these crops contain four different types of cells, including cells that produce cortisol, the most important hormone responsible for the body’s reaction to stress. The results have been published in the Journal of the American Academy of Sciences, and provide a new explanation for the unexpected symptoms that occur in some patients, such as linen weakness, and new horizons for the development of targeted drug treatments. Currently, surgery is the only effective treatment for glandular crops, an unchanged approach. “To develop new treatments, such as pharmaceutical treatments, we must urgently understand how these crops work at the molecular level, and how different cells interact within them. Adrenal glandular crops arise that type of crop in the adrenal glands, which are small glands that are above the kidneys, and due to the location and function of the cortisol, and sexual hormones. ‘Primary Aldosterone Hypers’, a condition that leads to the release of excess amounts of aldosterone, causing high blood pressure. Hyperemosis secretion can not be explained, but due to the complexity of these crops, it was previously difficult to determine their cell composition and hormones what it produces. The researchers used advanced analysis techniques to draw an accurate card to spread different types of cells in the crop, analyze their interaction with each other, in addition to identifying genetic mutations in different parts thereof, and detecting the types of hormones that accurately produce crops, which provide an unprecedented vision and complexity of these crops. The study showed that this type of crop is not homogeneous, as previously believed, but rather consists of at least four types of cells. These crops begin with cells that respond to stress, and then develop into cells produced for oligorone, or cortisol -produced cells, and over time cells that produce cortisol become similar to choir cells, which help the crop to grow and develop. Complex biological networks. The researchers have also discovered a special kind of immune cells associated with intensive crop, which can play an important role in regulating hormone production and crop growth. These tumors contain a variety of cells that produce different hormones, which means that its effect on the health of the patient is not limited to high blood pressure, but also includes other symptoms, such as weak bone; Due to the high levels of cortisol. Researchers are now planning to expand their studies to include other types of glandular crops, as well as other types of crops that secrete excess hormones, and they hope that these results will contribute to the development of new therapeutic strategies, such as directing the immune cells associated with fats, or reducing the effect of overbearing cortisol in these tumors. According to the researchers, this study is an important step towards the understanding of complex biological networks that control the rise and development of adrenal gland crops. There are questions that need an answer, but the new evidence reforms our knowledge of how these crops develop and its impact on patient health, which paves the way for new treatment innovations that target different types of cells in the crop, and improve the treatment options available in the future.