Irradiation Progressive

Translational beam irradiation (TAI) is a radiation therapy technique in which the beam of radiation moves in a straight line relative to the tumor or tissue to be irradiated. This method is used to treat tumors located in hard-to-reach places such as the brain, liver, lungs, bones and other organs.

In AKI, the radiation beam moves along a straight line, and the patient lies on a table or in a chair. This allows you to irradiate a tumor or tissue with high precision and avoid irradiation of healthy tissues and organs.

Translational irradiation has a number of advantages over other methods of radiation therapy. First, AKI allows a higher dose of radiation to be delivered to the tumor or tissue, which increases the effectiveness of treatment. Secondly, AKI is less harmful to healthy tissue because the radiation travels in a straight line and does not spread sideways. Third, OPP can be used to treat patients with disabilities who cannot lie on a table or chair during radiation exposure.

However, translational irradiation also has its disadvantages. For example, this method may be less effective for tumors that are located deep in tissue or have a complex shape. In addition, APP requires specialized equipment and experienced technicians to properly set up and perform the procedure.

In general, translational irradiation is an effective radiation therapy method for treating tumors and other diseases. However, before starting treatment, it is necessary to conduct a thorough diagnosis and determine the best radiation method for each specific case.

Translational irradiation is a type of radiation treatment when the beam moves as a single unit parallel to the straight line along which the patient is moving. It is used mainly for high-dose, narrow-volume irradiation in patients with tumors. Irradiation