Autohistoradiography

Autohistoradiography is one of the promising areas for studying biomedical objects, in particular the human body. The creation of all organs and systems of a living organism is associated with the development of its tissues, and analysis of the structural and functional state of these tissues provides valuable information about the processes of development, aging, major diseases and methods of treating them, as well as how organisms develop depending on external conditions. The development of morphological research methods is of great importance for timely diagnosis (detection of pathological process) of more than 70% of human diseases. Currently, histochemistry and histophysics are the main tools for the morphological picture of the cell life cycle. Autohistoradiography is one of the main analytical methods for histochemical, histophysical and anatomical imaging.

Against the background of the existing variety of staining and light microscopy methods, many authors use only those that were previously generally accepted or were simply at hand. Therefore, solving modern problems of diagnosing cancer and other acute and chronic diseases requires the creation of a new generation of optical analysis technology based on highly sensitive methods. At its core, radiography consists of the fact that when an X-ray tube generates radiation, it is absorbed by a material that was at a certain distance from the tube. This material absorbs a certain amount of radiation, which can then be seen as a shadow created in the room. In a photograph, all objects (body matter) are perceived as a bright spot. This suggests that the distance between the receiver and the object is large enough to produce such a result. If the radiation were not absorbed, the X-ray fiber would not transmit any image that a person could see. The main thing is that the object is at a certain distance to the tube in order for the x-ray to obtain an accurate result. Due to the material that absorbed X-rays, tissue appeared in the area of ​​​​the destruction zone of this X-ray tissue process. It is found near crystalline bones, so this type of radiography is intended for diagnosing bone and tissue formations such as the jaw, bones, etc. It is possible to analyze these objects through electrical imaging to acoustic imaging. However, most radiographs have a limited amount of information. To solve this problem, ophthalmic radiographic imaging was invented. It works in the same way as other x-ray techniques, but only in a very limited space. Radiography is used in almost all types of clinics (surgery, pulmonology, surgery of the female and male reproductive system), where it is used as a diagnostic method. And when the tooth begins to decay, an x-ray is taken to obtain data about the strength of the tooth. In addition, radiography is used to study degenerative processes in blood vessels and teeth. Without the use of auto-histo-X-ray photographs, it is impossible to achieve an accurate and timely determination of oral disease when there are no obvious defects of the appropriate level of aesthetics. At the same time, in autohisto-radiographic images generated in digital format, it becomes possible to quantitatively process various indicators to determine the changes occurring in the tissues of the tooth during the restructuring of its shape. This method will help dentists identify and analyze diseases such as gingivitis, periodontitis and so on