Diaphragm Lattice

A lattice diaphragm is a device for a radiation therapy device that shapes the radiation beam in such a way as to create an uneven dose field with alternating areas of high and low doses. This allows for more precise and effective treatment of tumors and other diseases that require radiation therapy.

The principle of operation of the lattice diaphragm is based on the fact that it creates an uneven dose field. This is achieved by using different materials and diaphragm shapes that allow different high and low dose areas to be created in the irradiated area.

One of the main advantages of using a lattice diaphragm is the ability to more accurately irradiate the tumor. Thanks to the non-uniform dose field, the tumor can be irradiated more effectively and accurately, which reduces the risk of side effects and increases the chances of recovery.

In addition, the ethmoid diaphragm can be used to treat various diseases, including breast cancer, prostate cancer, brain tumors and others. It can be used either alone or in combination with other treatment methods.

Overall, the diaphragm is an important tool in radiation therapy and allows for more precise and effective treatment of various diseases.

Introduction

The lattice diaphragm is a device used in radiation therapy to treat cancer or other diseases. This device allows you to create uneven dose fields in the irradiation area, which increases the effectiveness of treatment and reduces the likelihood of damage to healthy tissue. In this article, we will look at how the diaphragm ethmoid works and the benefits it provides for patients.

Operating principle of the grid

The grid diaphragm shapes the radiation beam so that high and low dose areas alternate at a distance from each other. This method is called the "dose intensity method" and is used to create a more precise dose of radiation to the affected area.

Although diaphragms appear to be simple devices, they are actually complex mechanical structures that can be customized depending on the patient and disease type. Each case may require individual adjustment of the grid, which depends on many factors, such as the location of the tumor, the size of the organ, the anatomy of the body, etc.