• 목록
• 답변
• 글쓰기
• 게시판 리스트 옵션
  • 수정
  • 삭제

epithelial mesothelioma treatment Radiation Treatment

Radiation treatment for mesothelioma utilizes X radiation and other energy beams in order to shrink tumors and halt their growth and spread. It is available at any stage 4 mesothelioma treatment of mesothelioma as an option to treat the disease and prolong its life or as an alternative treatment to ease symptoms.

Doctors may also utilize radiation prior to surgery in order to shrink the tumor and make it easier for surgeons to remove it. They can also utilize it after surgery to eliminate any remaining cancerous cells and prevent recurrence.

External beam radiation therapy

Radiation therapy employs high-energy beams of X-rays or particles to destroy cancerous cells. It is difficult to target radiation at mesothelioma tumours because they tend to be tiny, and comprise of multiple areas of tissue. New methods allow doctors to pinpoint the tumor, and limit damage to other areas of the body. It can also be used after surgery or chemotherapy to kill any remaining cancerous cells. It can be given alone or as a part of a palliative treatment to lessen mesothelioma-related symptoms like breathing difficulty and pain.

External beam radiation therapy is a type of radiotherapy external beam where doctors utilize a machine that directs radiation from outside the body towards the tumor. The doctors make use of a CT, MRI, or Radiation treatment for mesothelioma PET scan to determine the exact location of mesothelioma. They then devise a strategy to deliver radiation to the site while limiting damage to the surrounding tissue. The radiation oncologist may mark your skin with tiny dots to help them find the location. They will also mark the treatment area, which is the area which needs to be treated.

You'll lie on a treatment table, and Radiation treatment for mesothelioma the machine will place itself over the area of your body that has mesothelioma. You might be asked to change positions a few times during your treatment but you will not be able to feel or see the machine moving around your. During the procedure, you might hear whirring or clicking sounds from the equipment. The radiation oncologist will be monitoring you from a room of observation.

EBRT is usually done once a day for five days every week for between 2 and 8 weeks. Depending on the type of radiation you want to receive and the purpose of treatment you will receive various treatments. Some EBRT treatments, like intensity modulated radiation therapy (IMRT) makes use of a computer in order to precisely target the tumor and reduce radiation exposure to nearby tissues.

Other forms of radiation, such as proton beam radiation or SBRT use a particle instead of an X radiation. Proton beam radiation damages the DNA of cancer cells and causes them to die more quickly than normal cells. This kind of treatment is more precise than EBRT but it's not commonly used to treat mesothelioma.

Intensity-modulated Radiation Therapy (IMRT)

Intensity-modulated radiation therapy employs 3-D computed tomography (CT) images of the patient and computerized dose calculations to align the radiation beams to the three-dimensional shape of the tumor. This allows higher radiation doses to be given to the tumor while minimising exposure to the organs and tissues surrounding it. In addition to pleural mesothelioma stage 4 treatment, IMRT can be used to treat prostate cancer, lung cancer, sarcomas, head and neck tumors.

In studies of patients with complicated tumors, IMRT produces superior dose distributions with lower toxicity as compared to conventional radiation techniques. Radiation oncologists utilize IMRT to determine the treatment plan for mesothelioma patients, and to ensure that the radiation is directed to the right part of the body. The radiation oncologist consults with the patient and obtains informed consent before deciding if IMRT is appropriate for the mesothelioma treatment.

The radiation oncologist and the medical physicist work together to create the individualized IMRT treatment plan for the mesothelioma. Radiation therapists carry out the actual IMRT treatment. During the sessions, patients lie on a table. They may hear noises and smell odors of the equipment, but they will not feel any pain. The radiation oncologist and medical physicist remain in the room to observe the procedure from a safe distance.

During an IMRT session the radiation oncologist can alter the radiation levels to better target the tumour. The radiation oncologist can also alter the intensity of each beam, which helps safeguard vital structures like the heart and blood vessels.

For the past 10 years the team at MSKCC of radiation oncologists has been using IMRT to treat mesothelioma. Their results indicate that IMRT improves lung function and survival, as well as reducing the risk of side effects such as radiation pneumonitis or radiation esophagitis. The mesothelioma patients examined had biopsy-proven pleural mesothelioma in the hemithorax and were not candidates for P/D or resection due to impairment of pulmonary function. They were treated with IMRT in the hemithorax with or without pleurectomy. In the group receiving IMRT, the overall survival was 71 % at one year and 53 percent at two years.

Brachytherapy

Mesothelioma can be a deadly cancer, radiation therapy eliminates cancerous cells. It also shrinks tumors, making them easier to remove via surgery. It is a form of targeted treatment that uses narrow beams to protect healthy tissues in the vicinity.

Radiation therapy can be used by itself or in conjunction with other treatment for cancer, such as chemotherapy. Many patients with mesothelioma also receive additional chemotherapy to decrease the chance of recurrences of cancer after surgery and to enhance the effectiveness of their treatment.

Brachytherapy is the process of placing an radioactive source close to or within a mesothelioma tumor, which allows doctors to deliver a greater dose of radiation to the tumor. This treatment requires hospitalization and doctors can use a 137Caesium source or an Iridium one. The patient is placed in a shielded area with the source for a duration of 12-24 hours. A patient may experience some short-term side effects from this procedure, such as soreness on the area of the implant as well as a small amount of bleeding from the area where the applicator was inserted.

Another option is high-dose rate (HDR) brachytherapy that involves placing several radioactive sources in the area around the tumor, and then providing a higher amount of radiation over longer intervals of time. The procedure is usually carried out over three to five days and requires an inpatient stay. This kind of brachytherapy may also have some short-term side effects. This includes bleeding and soreness at the location where the applicators are placed.

It is often difficult to pinpoint radiation since mesothelioma is usually a multi-layered tumor. Modern technology allows radiation therapists to pinpoint the tumor more precisely and avoid surrounding tissue.

In some instances mesothelioma patients are treated with brachytherapy as a preoperative treatment called Neoadjuvant therapy, or as an adjuvant post-surgical treatment to eliminate any remaining mesothelioma cancerous cells that the surgeon was not able to completely eliminate. In addition, some mesothelioma patients are treated with brachytherapy alongside pleurectomy/decortication and conventional radiation therapy as a palliative experimental treatment for mesothelioma for their symptoms.

Proton beam radiation

Radiation oncologists focus on mesothelioma cancers in specific areas of the body. This type of treatment offers an accurate approach and minimizes the risk of exposing healthy tissues to high levels of radiation. Patients suffering from mesothelioma should talk about proton radiation therapy with their physician to determine if it is the right treatment for them.

Radiation oncologists develop a plan to treat cancerous tissue prior to starting the proton beam therapy. Dosimetrists utilize computers to calculate the precise dose of radiation required for the region. Doctors also decide on the amount of radiation to give out and where it is to be delivered. Dosimetrists pass the data to a physicist who uses a machine known as a synchrotron to accelerate protons into the energy required for treatment.

After the protons reach the treatment room and are directed towards the tumor using a system that is similar to a CT scanner. The patient is placed on a table that moves to a position that matches the shape of the tumors. The physicist will then employ a system that rotates beam's nozzle around the patient in order to ensure that the radiation reaches all areas of the tumor at the highest angles that are possible.

A gantry device is used to shape and direct the proton beam. This device is enclosed by an immobilization frame which keeps the patient still while they are being treated. A computer controls the gantry which is monitored by a group of radiation technicians from an adjacent room. The radiation oncologist is able to alter the treatment plan during each week's appointments if required.

Proton beam radiation penetrates the lung tissues less than traditional photon radiation. This means there is less chance of complications related to radiation like toxicity, and the growth of mesothelioma tumor cells that are resistant.

The proton beam is used to target mesothelioma cancers in the pleural lining of the lungs and abdomen. It is vital that patients work with mesothelioma experts who are familiar with proton beam radiation.