A new technique could dramatically reduce the number of colorectal cancer patients who unnecessarily undergo major surgery to remove tumours, instead of a minimally invasive procedure.
Biomedical scientist Xin Wang of City University of Hong Kong and colleagues have used machine learning to identify a gene expression pattern, or signature, associated with colorectal cancer spreading, or metastasizing, to the lymph nodes. The signature can be used to more accurately predict the risk of cancer spreading and the appropriate surgical approach for tumour removal.
Colorectal cancer is one of the leading causes of cancer-related deaths worldwide. Localized tumours that are at low risk for developing lymph node metastases can be removed by a minimally invasive endoscopic procedure.
However, current methods tend to grossly overestimate the risk of developing metastases. More patients than necessary are referred for major surgery.
Wang and colleagues in the USA and Japan used machine learning and statistical tools to sift through the gene expression patterns of colorectal cancer patients with and without lymph node metastases. They were eventually able to pinpoint the expression pattern of a panel of eight genes that can robustly identify patients at high risk of having lymph node metastases.
The researchers analysed tissues of 136 colorectal cancer patients following major surgery to remove small ‘T1’ tumours, which are only in the inner layer of the bowel. Only 19 (14%) of these patients actually had lymph node metastases, while 117 (86%) did not.
The team then compared the gene signature approach to conventional clinical analysis to assess the risk of lymph node metastasis. Their gene signature approach identified only 23% as being high risk, far less than the 84% identified by conventional analysis.
The new approach, says Wang, could reduce unnecessary treatment for early stage colorectal patients by nearly 60%. He and his team are planning further studies to evaluate and validate the performance of their method as a step towards translating it into clinical practice.
“We hope one day we can develop more precise diagnostic tools for colorectal cancer patients so that they would not have to suffer unnecessary surgeries,” Wang says.
For further information, contact:
Associate Professor Xin Wang
Department of Biomedical Sciences
City University of Hong Kong
E-mail: [email protected]
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