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There's always research going on in the area of mesothelioma. Scientists are looking for better ways to prevent, diagnose, and treat mesothelioma, as well as find it before it causes problems.
Because mesothelioma is rare, it's been hard to study it well. Most experts agree that treatment in a clinical trial should be considered for any type or stage of mesothelioma. This way people can get the best treatment available now and may also get the new treatments that are thought to be even better. Most of the new and promising treatments discussed here are only available in clinical trials.
The role of asbestos in increasing the risk of mesothelioma is a public health concern. Researchers are learning more about which asbestos fibers can cause cancer, how they cause it, and what levels of exposure might be considered safe. Now that the dangers of asbestos are known, we can limit or stop exposure in homes, public buildings, and the workplace. Unfortunately, regulations protecting workers from asbestos exposure are much less stringent in some countries than in others.
Research is looking for genes that might affect a person's risk for mesothelioma.
Mesothelioma is easiest to treat and has the best outcomes if it's found early -- when it's small and hasn't spread. Today, it's hard to find it early. Most of the time it's not diagnosed until it's big enough to cause problems and a person goes to a doctor for help. Researchers are looking for early detection tests that might help find mesothelioma before it reaches this point. (Tests to look for cancer in people who don't have symptoms are called screening tests.)
Early research on workers exposed to asbestos has found certain protein markers in the blood that have been linked to mesothelioma. The test was able to detect mesothelioma up to a year before it was diagnosed. But more research is needed to figure out if this test is useful. Other studies in at-risk people are looking at tests that can be done on the fluid that's removed from around the lungs and breath tests. All of these could one day lead to screening tests, as well as tests that could be used to diagnose this cancer.
And, as has been learned with other kinds of cancer, identifying and studying mesothelioma-specific biomarkers could even impact treatment choices and give a better understanding of the likely outcome for each patient. Biomarker levels might also prove to be a way to see if and how well treatment is working.
Mesothelioma is difficult to treat, and doctors are constantly trying to improve treatment approaches. The exact roles of surgery, radiation therapy, and chemotherapy in the treatment of mesothelioma are being studied. Combinations of these treatments are now being tested and may provide the most promising option for some patients. And newer types of treatment that are being tested in clinical trials may give patients and their doctors even more options.
Some chemotherapy drugs can shrink or slow the growth of mesotheliomas, but in most cases the effects last for a limited time. Studies are underway to test new chemotherapy drugs and new combinations of drugs.
Another technique now being studied is photodynamic therapy (PDT). For this treatment, a light-activated drug is injected into a vein. The drug spreads throughout the body, but it tends to collect in cancer cells. A few days later (usually in the operating room, just after surgery), a tube with a special light on the end is put into the chest. The light causes a chemical change that "turns on" the drug so it kills the cancer cells. Since the drug is only active in the areas exposed to the light, PDT might cause fewer side effects than using drugs that spread throughout the body. Several clinical trials are now studying the use of PDT for mesothelioma.
To find out more, see Photodynamic Therapy.
Chemo drugs tend to have a limited effect against mesothelioma. In recent years, researchers have learned more about the gene and protein changes in mesothelioma cells that are not found in normal cells. This has led to the development of targeted therapy drugs. These drugs target the changes that make cancer cells different from normal, healthy cells. Some of these types of drugs are just coming into use for mesothelioma, and many others are now being studied. For example, some new drugs target mesothelin, a protein found in high levels in mesothelioma cells.
Targeted therapy drugs work differently from standard chemo drugs. They sometimes work when chemo drugs don’t, and they often have different (and less severe) side effects.
To learn more, see Targeted Therapy.
Clinical trials are looking at the value of immunotherapy for mesothelioma. These drugs help the body’s immune system to attack the cancer cells.
Small studies have suggested this treatment works, but more research is needed. Researchers are looking at how to best combine immunotherapy drugs and how to get the best results when combining them with chemotherapy and other treatments. They're also looking for new immunotherapy drugs to treat mesothelioma.
To learn more, see Cancer Immunotherapy.
Researchers have found that exposing some types of cancer cells to alternating electric fields (also known as tumor treating fields, TTFields, or TTF) can slow or even stop their growth. A portable device that generates such electric fields, known as Optune Lua, is now an option along with chemotherapy to help treat some pleural mesotheliomas that can’t be treated with surgery.
To learn more, see Tumor Treating Fields (TTF) Therapy for Mesothelioma.
Because standard treatments often have limited usefulness against mesothelioma, researchers are studying other new types of treatment as well. These are very early studies, and a lot more research is needed before they'll be widely available.
Gene therapy: A newer type of treatment being tested on mesothelioma is gene therapy, which attempts to add new genes to cancer cells to make them easier to kill. One approach to gene therapy uses special viruses that have been modified in the lab. The virus is injected into the pleural space and infects the mesothelioma cells. When this infection occurs, the virus injects the desired gene into the cells. In one version of this approach, the virus carries a gene that helps turn on the immune system to attack the cancer cells.
Vaccine therapy: Other new treatments called cancer vaccines are also aimed at getting the immune system to attack the cancer. In one approach, immune cells are removed from a patient’s blood and treated in the lab to get them to react to tumor cells. The immune cells are then given back to the patient, where it is hoped they will cause the body’s immune system to attack the cancer. Other vaccines being tested carry certain proteins to the cancer cells to keep them from growing. This is a promising cancer treatment, and a lot of different types of vaccines are being studied.
The American Cancer Society medical and editorial content team
Our team is made up of doctors and oncology certified nurses with deep knowledge of cancer care as well as editors and translators with extensive experience in medical writing.
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Last Revised: October 28, 2024
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