How does cancer spread to other parts of the body?

All cancers begin in a single organ or tissue, such as the lungs or skin. When these cancers are confined in their original organ or tissue, they are generally more treatable.

But a cancer that spreads is much more dangerous, as the organs it spreads to may be vital organs. A skin cancer, for example, might spread to the brain.

This new growth makes the cancer much more challenging to treat, as it can be difficult to find all the new tumours. If a cancer can invade different organs or tissues, it can quickly become lethal.

When cancer spreads in this way, it’s called metastasis. Metastasis is responsible for^[1] the majority (67%) of cancer deaths.

Read more: Cancer evolution is mathematical – how random processes and epigenetics can explain why tumor cells shape-shift, metastasize and resist treatments^[2]

Cells are supposed to stick to surrounding tissue

Our bodies are made up of trillions of tiny cells. To keep us healthy, our bodies are constantly replacing old or damaged cells.

Each cell has a specific job and a set of instructions (DNA) that tells it what to do. However, sometimes DNA can get damaged.

This damage might change the instructions. A cell might now multiply uncontrollably, or lose a property known as adherence. This refers to how sticky a cell is, and how well it can cling to other surrounding cells and stay where it’s supposed to be.

If a cancer cell loses its adherence, it can break off from the original tumour and travel through the bloodstream or lymphatic system to almost anywhere. This is how metastasis happens.

Many of these travelling cancer cells will die, but some will settle in a new location and begin to form new cancers.

Particular cancers are more likely to metastasise to particular organs^[4] that help support their growth. Breast cancers commonly metastasise to the bones, liver, and lungs, while skin cancers like melanomas are more likely to end up in the brain and heart.

Unlike cancers which form in solid organs or tissues, blood cancers like leukaemia already move freely through the bloodstream, but can escape^[5] to settle in other organs like the liver or brain.

When do cancers metastasise?

The longer a cancer grows, the more likely it is to metastasise. If not caught early, a patient’s cancer may have metastasised even before it’s initially diagnosed.

Metastasis can also occur after cancer treatment. This happens when cancer cells are dormant during treatment – drugs may not “see” those cells. These invisible cells can remain hidden in the body, only to wake up and begin growing into a new cancer months or even years later.

Read more: How cancer cells move and metastasize is influenced by the fluids surrounding them – understanding how tumors migrate can help stop their spread^[6]

For patients who already have cancer metastases at diagnosis, identifying the location of the original tumour – called the “primary site” – is important. A cancer that began in the breast but has spread to the liver will probably still behave like a breast cancer, and so will respond best to an anti-breast cancer therapy, and not anti-liver cancer therapy.

As metastases can sometimes grow faster than the original tumour, it’s not always easy to tell which tumour came first. These cancers are called “cancers of unknown primary” and are the 11th most commonly diagnosed cancers in Australia^[7].

One way to improve the treatment of metastatic cancer is to improve our ways of detecting and identifying cancers, to ensure patients receive the most effective drugs for their cancer type.

What increases the chances of metastasis and how can it be prevented?

If left untreated, most cancers will eventually acquire the ability to metastasise.

While there are currently no interventions that specifically prevent metastasis, cancer patients who have their tumours surgically removed may also be given chemotherapy (or other drugs) to try and weed out any hidden cancer cells still floating around.

The best way to prevent metastasis is to diagnose and treat cancers early. Cancer screening initiatives such as Australia’s cervical^[8], bowel^[9], and breast^[10] cancer screening programs are excellent ways to detect cancers early and reduce the chances of metastasis.

New screening programs to detect cancers early are being researched for many types of cancer. Some of these are simple: CT scans of the body to look for any potential tumours, such as in England’s new lung cancer screening program^[12].

Using artificial intelligence (AI) to help examine patient scans is also possible^[13], which might identify new patterns that suggest a cancer is present, and improve cancer detection from these programs.

Read more: AI can help detect breast cancer. But we don't yet know if it can improve survival rates^[14]

More advanced screening methods are also in development. The United States government’s Cancer Moonshot program is currently funding research into blood tests that could detect many types of cancer at early stages^[15].

One day there might even be a RAT-type test for cancer, like there is for COVID.

Will we be able to prevent metastasis in the future?

Understanding how metastasis occurs allows us to figure out new ways to prevent it. One idea is to target dormant cancer cells^[16] and prevent them from waking up.

Directly preventing metastasis with drugs is not yet possible. But there is hope that as research efforts continue to improve cancer therapies, they will also be more effective at treating metastatic cancers.

For now, early detection is the best way to ensure a patient can beat their cancer.

References

1. ^{^} responsible for (www.ncbi.nlm.nih.gov)
2. ^{^} Cancer evolution is mathematical – how random processes and epigenetics can explain why tumor cells shape-shift, metastasize and resist treatments (theconversation.com)
3. ^{^} Scipro/Shutterstock (www.shutterstock.com)
4. ^{^} particular organs (www.ncbi.nlm.nih.gov)
5. ^{^} can escape (www.ncbi.nlm.nih.gov)
6. ^{^} How cancer cells move and metastasize is influenced by the fluids surrounding them – understanding how tumors migrate can help stop their spread (theconversation.com)
7. ^{^} 11th most commonly diagnosed cancers in Australia (www.canceraustralia.gov.au)
8. ^{^} cervical (www.health.gov.au)
9. ^{^} bowel (www.health.gov.au)
10. ^{^} breast (www.health.gov.au)
11. ^{^} Peakstock/Shutterstock (www.shutterstock.com)
12. ^{^} lung cancer screening program (theconversation.com)
13. ^{^} possible (theconversation.com)
14. ^{^} AI can help detect breast cancer. But we don't yet know if it can improve survival rates (theconversation.com)
15. ^{^} many types of cancer at early stages (theconversation.com)
16. ^{^} target dormant cancer cells (www.cancer.gov)