Phantom Dosimetric

Dosimetry phantom is a special type of phantom that is used to measure and evaluate the effectiveness of various radiation therapy methods. It is a model of the human body that has precise dimensions and tissue structure similar to those found in real life.

Dosimetry phantoms are used in medical institutions to conduct research and test new treatments such as radiotherapy, radiotherapy and others. They allow doctors and scientists to accurately determine how radiation affects a patient's tissues and organs, and to evaluate the effectiveness of various treatments.

One of the main advantages of using Dosimetric Phantoms is the ability to conduct research under controlled conditions. This allows scientists and doctors to accurately measure the radiation dose a patient receives during treatment and compare it with the expected dose.

In addition, Dosimetry Phantoms can be used to test new technologies and equipment that are used in radiotherapy. For example, they can be used to test the effectiveness of new dosimetry methods or to test new types of radiation.

Overall, Dosimetry Phantoms play an important role in the development and improvement of radiotherapy methods and are an indispensable tool for scientists and doctors working in this field.

Dosimetric phantom (tissue equivalent phantom) is a special device used in medical and scientific laboratories for measuring and testing dosimetric devices and equipment. It simulates the dose distribution of ionizing radiation in the tissues of the human body, which makes it possible to evaluate and calibrate various types of radiation. Phantoms are made from special materials that have a radiation absorption coefficient close to that of human tissue. They can have different shapes and sizes, depending on the purpose of testing.

Dosimetric phantoms are used in radiation therapy, radiology, nuclear physics, as well as in scientific research related to the effects of radiation on living organisms. They help determine the effectiveness and safety of dosimetry equipment, as well as optimize radiation protection methods. In addition, the use of phantoms reduces the risk of errors in scientific and medical research.

The main advantages of phantoms, as opposed to living beings, are that they allow you to change the radiation dose within one test, as well as test several levels of radiation simultaneously. These properties enable rapid prototyping and testing of new dosimetry devices, which significantly saves time and money. In addition, the phantom cannot be killed, is easy to repair and they are much cheaper,