Pencil-beam scanning: Difference between revisions

Pencil-beam scanning is a type of proton therapy that uses a high-energy beam of protons in a form of radiation therapy to irradiate tissue for the treatment of cancer. The beam is so named because it is narrow, like a pencil, and scans back and forth across each layer of a tumor's thickness to deliver the dose of radiation.

Overview

Pencil-beam scanning is a more advanced form of proton therapy that can treat tumors with even greater precision than is possible with x-ray radiation therapy. This is because the beam can be controlled to match the shape and depth of the tumor, minimizing damage to healthy tissue surrounding the tumor.

Technique

The technique involves the use of a machine called a synchrotron or cyclotron to accelerate protons to high energies. The protons are then directed at the tumor using a magnetic field. The beam is modulated to deliver a uniform dose of radiation to the entire tumor.

Advantages

The main advantage of pencil-beam scanning is its ability to deliver a precise dose of radiation to a tumor while minimizing damage to surrounding healthy tissue. This is particularly important in treating tumors located near critical structures such as the brain, spinal cord, and heart.

Limitations

While pencil-beam scanning offers many advantages, it also has some limitations. For example, the technique requires a high level of expertise to plan and deliver the treatment. In addition, not all tumors are suitable for treatment with pencil-beam scanning.

See also

• Proton therapy
• Radiation therapy
• Cancer treatment

This article is a medical stub. You can help WikiMD by expanding it!
Most recent articles Ongoing trials	Wikipedia