A comprehensive multi-cancer study by researchers at The University of Texas MD Anderson Cancer Center has revealed that cancer cells within tumors are genetically diverse, yet all carry the same core genetic changes that can be traced back to a common ancestral cell, providing a single-cell view of how tumors adapt, survive and diversify. Understanding this helps explain why some cancer cells manage to survive treatment, paving the way for more tailored diagnostic and therapeutic strategies.

The study, published in Cancer Discovery, was led by Nicholas Navin, Ph.D., chair of Systems Biology. The research shows that cancer cells do not evolve slowly over time, but rather grow through sudden bursts of rapid genetic changes that include copy number alterations (CNAs)—gains or losses of entire sections of DNA. This creates a family tree of distinct new subpopulations that can influence tumor aggressiveness, metastasis and treatment response.

“Our findings provide the clearest views to date of how cancers originate and evolve at the single-cell level,” Navin said. “By revealing both the shared early genetic events and the bursts that drive ongoing diversity, we now have a roadmap for developing smarter clinical diagnostic and treatment strategies to improve patient outcomes.”

A new test provides a much more complete picture of DNA than current standard diagnostics and leads to a diagnosis more often. The test can replace 15 other tests, making it faster and more efficient. Researchers from Radboud university medical center recommend in the New England Journal of Medicine that this test be adopted everywhere as the first choice for rare genetic disorders.

A condition is considered rare if it affects fewer than 1 in 2000 people. Nevertheless, up to 400 million people worldwide have a rare disease, as there are more than 7,000 different types. Eighty percent of these have a genetic cause. A diagnosis often takes years to obtain. Yet a diagnosis is important: It provides clarity, insight into the future, contact with others in similar situations, and the possibility to assess risks when planning to have children.

Researchers from Radboudumc and Maastricht UMC+ are working together to increase the chances of diagnosing genetic disorders. They compared current standard diagnostics—often involving multiple tests to reach a diagnosis—with a new DNA test in 1000 patients.