Irradiation Mobile

Mobile irradiation: How it works and what are its advantages

Radiation is one of the main cancer treatments that uses high-energy rays to kill cancer cells. However, when irradiated with a stationary beam of radiation, the patient must remain motionless throughout the entire procedure. This can be uncomfortable for the patient and make it difficult to treat tumors in some parts of the body.

In such cases, mobile irradiation can be used. With this method, the patient moves during the procedure, allowing the radiation beam to follow the movement of the tumor and precisely target the beams at it. This method is especially useful in treating tumors in the brain, lungs, liver and other mobile organs.

One of the ways to implement mobile irradiation is to use a linear accelerator. This device generates a beam of high-energy rays that are then directed at the tumor. The linear accelerator can be placed on a special movable table that moves the patient to the desired position for radiation.

Another method of mobile irradiation is the use of robotic systems. These systems use computer control to precisely position the patient and radiation beams. This method provides high accuracy and eliminates the need to manually adjust the exposure.

Mobile irradiation has several advantages over stationary irradiation. First, it allows the beams to be more accurately aimed at the tumor, which reduces the risk of damage to healthy tissue. Second, it makes it possible to treat tumors in moving organs, which may be difficult or impossible with stationary radiation. And finally, it is more convenient for the patient, since it does not require long periods of time in one position.

However, mobile exposure also has its limitations. Some tumors may be too small or move quickly, which can make it difficult to accurately target the beams. Additionally, the use of robotic systems may be prohibitively expensive for many healthcare facilities.

However, mobile irradiation is an effective cancer treatment in many cases. It allows beams to be precisely targeted to tumors and treat tumors in moving organs. Modern technologies such as linear accelerators and robotic systems make this method more accurate and convenient for patients. Most medical institutions that treat cancer have the necessary equipment and qualified personnel to conduct mobile radiation.

Although mobile radiation may be more expensive than stationary radiation, it can be beneficial for patients who need precise and effective cancer treatment. Therefore, if you are faced with a cancer diagnosis, be sure to discuss treatment options with your doctor, including the possibility of using radiation therapy.

Overall, mobile radiation is an effective and precise cancer treatment that can be used to treat tumors in mobile organs and hard-to-reach areas. Modern technology makes this method more accessible and convenient for patients, and it may be considered as a treatment option depending on individual circumstances and tumor characteristics.

Irradiation of moving organs, i.e., continuous movement of sources of ionizing radiation during diagnostic studies to obtain different images of the same parts of the patient’s body, has become widespread only in recent years in connection with the development of radiological methods for studying the cardiovascular and motor systems, as well as X-ray and dental contrast studies.

To date, three moving irradiation systems can be named. In one of them, the motor part is located at a distance from the place where radiation affects the diseased area of ​​the body (mobile X-ray machine). Another system allows the patient to move towards the radiation (multi-slit radiography), the third is used to study the functionality of the heart and large vessels (orthopanromography of the abdominal cavity). In the first two systems, movable cones are located outside the area of ​​the body or limb being studied, moving towards the radiation. On the contrary, in