Brain metastasis occurs when cancer in one part of the body spreads to the brain. The lifetime incidence of such metastatic brain tumours in cancer patients is between 20%-45%, research shows.
A new study from USC Norris Comprehensive Cancer Center, part of Keck Medicine of USC, suggests that the region cancer spreads to in the brain may not be random, but rather, is dependent on where the cancer originated in the body.
“We discovered that different types of cancer are more likely to show up in specific parts of the brain once they metastasise, indicating the location of tumours follow a distinct pattern,” said Gabriel Zada, MD, a brain and tumour neurosurgeon with Keck Medicine of USC and senior author of the study. He is also a member of USC Norris and director of the USC Brain Tumour Center.
Zada and colleagues analysed the location of brain tumours caused by five common types of cancer, melanoma (a type of skin cancer), lung, breast, renal (kidney) and colorectal.
They discovered that lung cancer and melanoma showed a higher likelihood for the metastasis to be at the frontal and temporal lobes (which sit behind the ears). Breast, renal and colon cancers had a higher propensity to spread to the back of the brain, such as the cerebellum and brainstem.
The findings are important not only because they may predict where a specific cancer may spread in the brain, but because they also have implications for how brain tumours grow.
“It may be that cancer cells have the ability to adapt to regional microenvironments in the brain that allow them to colonise and progress, while other areas of the brain are inhospitable to the same cells,” said Josh Neman, PhD, assistant professor of neurological surgery and physiology and neuroscience at the Keck School of Medicine of USC, scientific director of the USC Brain Tumour Center and lead author of the study. He is also a member of USC Norris.
To reach their conclusions, the researchers collected data from patients with metastatic brain cancer treated using stereotactic radiosurgery (SRS), a minimally invasive, targeted form of radiosurgery used to treat brain tumours and other lesions.
The SRS allows surgeons to define the coordinates of a tumour in the brain with precise accuracy.
The researchers used the SRS coordinates from 970 patients with approximately 3,200 brain metastatic tumours arising from skin, lung, breast, kidney or colon cancers treated at Keck Medical Center of USC from 1994-2015.
They created two predictive mathematical models to analyse the exact locations of brain metastases based on the primary cancer origins.
One model showed that distinct regions of the brain were relatively susceptible to certain types of cancer; another provided the probability of each cancer metastasising in certain brain regions.
Both models resulted in the approximate same results as to which areas of the brain were most likely to develop cancer-specific tumours.
The researchers believe the results of the study could be useful in the eventual prevention and treatment of brain tumours.
“If we can understand what factors either facilitate or block the process of metastasis, such as certain chemicals or neurotransmitters in the brain, there might be a way to intervene and prevent a cancer from metastasising in the first place or treat it once it has spread,” Neman said.
“In fact, we are already conducting studies to learn why certain areas of the brain are not receptive to certain cancer cells in hopes of developing better targeted therapies for patients.”
Zada and Neman are currently using the data from this study to participate in an international trial involving multiple sites to further study the patterns of brain metastasis based on primary cancer type.
“We are excited to see what new information this larger study will yield in our efforts to better understand and treat this complication of so many common cancers,” said Zada.