About Us

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Radiologists are part of the medical staff and the healthcare sector in the medical establishment. As part of their work, radiologists independently perform highly complex diagnostic and therapeutic procedures that require extensive theoretical background, proven clinical training, and high technical capabilities.

As part of their work, radiologists independently perform highly complex diagnostic and therapeutic procedures that require extensive theoretical background, proven clinical training, and high technical capabilities.

Various branches of medical diagnostic imaging...

X-ray examination (X-RAY).
X-rays are a method of imaging that allows obtaining a non-invasive image of the body's internal organs using X-rays (X-rays).
CT (Computed Tomography).
Computed tomography is an X-ray-based imaging method that produces detailed and accurate images of the internal organs. Sensors around the patient's body process radiation using a computer program to obtain detailed images of the different organs displayed at different levels and cross-sections that allow 3D imaging.
Mammography.
Mammography is a mammogram using low-intensity X-rays.

US ultrasound.
The ultrasound system creates images of the body's internal organs using high-frequency sound waves. This technology does not use ionizing radiation...

Nuclear Medicine (Appointment).
MRI is a non-surgical examination of the internal organs by MRI which produces clear (and three-dimensional) images of the examined organs and blood vessels. This technology does not use ionizing radiation.

Interventional radiology.
Interventional radiology is a field of radiography where medical imaging examinations are performed such as angiography catheters, inserting needles for the purpose of examining the organs of the body or taking biopsies for various targeted treatments, inserting tubes for the purpose of dialysis, chemotherapy, and more.
Experimental Radiotherapy: A Brief History.
Studies of the effects of ionizing radiation on tumors and normal tissues began within weeks of Roentgen's discovery of X rays, and are continuing today. The evolution of these studies reflects both the changing philosophy and sociology of science and the continuing application of new technologies and new knowledge from a diverse range of scientific fields to address the important problem of improving the treatment of cancer. This brief history reviews the evolution of "experimental radiotherapy" over the past century and describes how the development of new technologies and new experimental models influenced this field of study. In addition, it describes critical points at which studies in radiation biology and cancer biology had an impact on research throughout the biomedical sciences.