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HomeHealthAdvanced Liquid Biopsy Technology for Early Cancer Detection: A Game-Changer in Cancer...

Advanced Liquid Biopsy Technology for Early Cancer Detection: A Game-Changer in Cancer Diagnosis

A study conducted‍ by researchers at Weill‌ Cornell Medicine, NewYork-Presbyterian, the New York Genome Center (NYGC) and​ Memorial Sloan Kettering Cancer Center (MSK) found that an artificial intelligence-powered method for detecting tumor DNA in blood has demonstrated exceptional sensitivity in predicting cancer recurrence. This new technology has the potential to ​significantly improve cancer care by allowing for very early detection of recurrence and​ close monitoring of tumor response during‌ therapy.

A⁣ recent breakthrough in technology has the potential to greatly improve cancer treatment by allowing for ⁣extremely early detection of the return of cancer and by closely monitoring how ​tumors respond to therapy. The findings of this study were published on June 14 in Nature Medicine. The researchers ​were able to train an artificial intelligence platform, specifically a machine learning model, to identify circulating tumor ⁣DNA (ctDNA) from DNA sequencing​ data obtained from patient blood tests. This method demonstrated high sensitivity and accuracy. The success of this technology was shown in ⁢patients with lung cancer, melanoma, breast cancer, colorectal cancer, and ⁢precancerous conditions.Ectopic growths‌ in the digestive system.

“Our ability ⁤to significantly improve the signal-to-noise ratio allowed us to identify‍ cancer recurrence much earlier than traditional clinical methods, sometimes⁢ months or even years in advance,”⁣ explained Dr. Dan Landau, one of the authors of the study. He is a professor of medicine ‍specializing in hematology ⁤and‍ medical oncology at Weill Cornell Medicine and is also a‌ core faculty​ member at the New York Genome Center.

The​ study’s co-first author and co-corresponding author was Dr. Adam Widman, a postdoctoral fellow at the Landau Lab who also specializes in breast cancer oncology at MSK. ‌Other co-first authors included Minita‌ Shah of NYGC and Dr. [Name of other doctor not provided]Amanda Frydendahl from Aarhus University and Daniel Halmos from NYGC and Weill Cornell Medicine have been researching liquid biopsy technology. ⁣This technology has had difficulty living up to its potential due to ‍the fact that most methods have only focused on small sets of cancer-related mutations, ⁣which are often​ too scarce ‍in the blood to be reliably detected. As a result, cancer recurrences often go unnoticed. However, Dr. Landau and his team ⁣developed ⁤an alternative approach using⁤ whole-genome sequencing‌ of‌ DNA in blood samples, which allows for more​ sensitive and ​logistically simpler⁣ detection of cancer signals.– identification of tumor DNA. Since then, this method has been increasingly embraced by developers of liquid biopsies.

In the recent⁤ research, the scientists made‍ a significant​ leap‌ forward by utilizing an advanced machine learning technique (similar to that of ChatGPT and other ⁢popular AI applications) ⁢to identify subtle patterns in sequencing data — specifically, to ⁣distinguish patterns that indicate⁣ cancer from ⁤those that ⁣indicate sequencing errors and​ other “noise.”

In⁤ a trial, the researchers trained their system, ​known as MRD-EDGE, to detect patient-specific⁤ tumor mutations in 15 colorectal cancer‌ patients. After the patients’ surgery andThe use of​ chemotherapy was able to predict ⁢residual​ cancer in nine patients based on blood data. Later,⁢ five of ⁢these patients​ were found to have cancer recurrence using less sensitive methods. However, there were no false negatives, as none of the patients deemed free of tumor DNA by MRD-EDGE experienced‌ recurrence during the⁤ study window.

MRD-EDGE⁤ also showed similar sensitivity in studies of early-stage lung cancer and triple-negative breast cancer patients, detecting all but one recurrence early and tracking tumor status during treatment.

The researchers‌ demonstrated that MRD-EDGE​ has ​the ability to detect⁣ evenMutant DNA‌ originating from⁣ precancerous colorectal adenomas, which are the polyps that lead to colorectal tumors,​ have been a subject ⁢of study. Dr. Landau, a member of the Sandra and Edward Meyer Cancer Center at ⁢Weill Cornell Medicine and a hematologist/oncologist at NewYork-Presbyterian/Weill Cornell Medical Center, expressed the significance of‌ the discovery,⁤ stating that it was previously unclear whether these polyps released detectable ctDNA. ‌The research also demonstrated that MRD-EDGE was able to detect ⁣responses to immunotherapy in melanoma without prior training on sequencing data from ⁢patients’ tumors.lung cancer patients can be detected weeks before with standard X-ray-based imaging. “MRD-EDGE ⁤addresses a big⁢ need, and⁤ we’re excited about its potential and working with industry partners to try to deliver it to patients,” Dr. Landau said. The research in this story was supported in ⁤part by the National ​Cancer Institute, part of the National Institutes of Health, through ⁢grant number⁣ R01 CA266619.