Multifield Radiation Plane in Radiation Therapy

Multifield irradiation plane in radiation therapy.

In radiation therapy, multifield irradiation is one of the most effective methods for treating malignant tumors. It consists of using several radiation beams that are directed at the tumor from different directions, which allows for a more uniform dose distribution in the tumor and reduces the likelihood of side effects.

One of the key elements of multifield irradiation is the multifield radiation plane. This plane is the plane in which all the axes of the radiation beams are located. It plays an important role in treatment planning, as it determines the direction of the radiation beams and their location relative to the tumor.

When planning multifield irradiation, the multifield radiation plane must be selected in such a way as to ensure optimal dose distribution in the tumor. This is achieved by determining the optimal angle of inclination of the axis of each beam relative to the multifield radiation plane, as well as by optimizing the distance between the beams.

In addition, the multifield radiation plane can be used to determine the boundaries of the irradiation zone. The radiation zone is the area around the tumor that must also be irradiated to achieve the optimal dose. The boundaries of the radiation zone are determined based on the size and shape of the tumor, as well as the planned radiation dose.

Thus, the multifield radiation plane plays an important role in multifield radiation and is a key element in the planning and delivery of radiotherapy.

Multifield Radiation Plane in Radiation Therapy

In radiation therapy, the multipolar irradiation plane plays an important role because it determines how the rays will travel through the patient's body. Thanks to modern medicine, a multipolar treatment plan makes it possible to more accurately and effectively treat cancer tumors of different types and locations.

Multipolar radiation therapy is a type of ionizing radiation treatment used to treat cancer. It involves the use of many beams of rays of different directions on the patient’s body, which allows for a more uniform distribution of the radiation dose in the tumor and increases the chances of its complete destruction. With the help of modern imaging techniques designed to implement multipolar guidance, doctors are able to more accurately determine the location of tumors. According to these data, the necessary bundles to cover the body