Gene expression signatures are descriptions of the activity patterns of genes. When a person is diagnosed with cancer, these signatures can be used to make predictions about how tumours will develop. As such, they are crucial for classifying different types of cancer, determining prognosis and defining treatment strategies.
The current study by Dimitrij Tschodu, a doctoral researcher at the Peter Debye Institute for Soft Matter Physics at Leipzig University, was carried out in close collaboration with Professor Axel Niendorf from the Pathologie Hamburg-West institute and was recently published in the renowned journal Scientific Reports. Tschodu and his colleagues analysed around 10,000 signatures based on renowned breast cancer databases using various machine learning models to thoroughly assess their prognostic ability.
The results of the study show that the gene expression signatures examined lead to a correct patient prognosis in no more than 80 per cent of cases. The researchers also point out that prognoses based on gene expression signatures alone take into account less than 50 per cent of the potentially available information. They therefore recommend using other parameters in addition to gene expression tests. “Although our results confirm the importance of gene expression signatures in predicting patient prognosis, they also highlight the urgent need for a holistic approach that takes into account molecular, clinical, histological and other complementary factors to ensure an accurate prognosis,” explains Tschodu.
Need for a holistic approach to prognosis
“The results of this study are crucial for understanding the limitations of gene expression signatures in cancer prognosis,” adds Professor Josef Käs, head of the Soft Matter Physics Division at Leipzig University. “While gene expression signatures are undoubtedly valuable, our findings show that a holistic approach is needed to ensure an accurate prognosis and to make informed decisions about treatment.”
The publication comes from the Physics of Cancer research field, which looks at cancer from a physical perspective and also examines the mechanics of cells and tissues. Käs says: “This new study underlines the importance of the ‘Physics of Cancer’ in the medical field and the need for interdisciplinary collaboration to find innovative solutions to the challenges in cancer treatment.” Only recently, a research group led by Professor Käs and Professor Niendorf published new findings in this field that could promote more precise diagnostics of the spread and formation of metastases in breast tumours.
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New insights into the prognostic power of gene expression signatures in breast cancer
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