Description:

The invention relates to a method and system for monitoring biological processes in oncogenic diseases for the diagnosis and treatment thereof, particularly for preventing the occurrence of a cancerous disease. According to the invention, the method consists in passing an ultra-high frequency monochromatic radiation beam through a polarizing system and a directing channel towards a device for the conversion into biologically-penetrating radiation, scanning the analyzed biological area by passing the radiation beam through the tissue to be analyzed towards a receiver for determining the rotation of the polarization plane of the beam, measuring the rotation of the polarization plane of the beam by means of the receiver device and transmitting the data by electronic means to a computerized investigation system, processing the data by a computerized system for the investigation and tracing the presence of an injured tissue area, placing automatically on the injured tissue area some bio-sensors connected to the computerized system and also placing some specific bio-chips on the patient's body in order to remotely monitor the health state, thus allowing the elaboration of diagnoses regarding the injured parts of the organism. According to the invention, the system comprises a source (S) of ultrahigh frequency monochromatic radiation, containing a polarizer (P) and a channel (a) for the thus obtained polarized light beam (b), a device (Q) for the conversion of the polarized light beam (b) into a biologically-penetrating radiation beam (c), a receiver device (R) for determining the rotation of the polarization plane of the biologically-penetrating radiation beam (c) when passing through an analyzed biological tissue (T), a number of bio-sensors and bio-chips (e1 ... en), and an automatic system (A) for placing said bio-sensors and bio-chips on the area of biological tissue (T) and a computerized investigation system (Ic).