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Australian Research Team Develops Test To Detect Cancer


A recently-published study reveals that an Australian research team has created a test that can help detect cancer, anywhere in the body. If that isn’t amazing enough, the test takes about 10 minutes to reach a conclusion.

The test came to be after a team at the University of Queensland discovered that the fatal condition builds a specific DNA presence when it is placed within water.

All over the globe, CNN reported that scientists have been working on differing strategies to detect this illness as early as possible. Early detection is key when it comes to survival success rate around surgery and other cancer treatment options.

While the test has yet to be used on human patients, clinical trials need to be organized before it is given to potential patients; however, the signs around the testing already conducted seems very positive, with the researchers stating a 90% accuracy rate when it comes to tests around over 200 blood and tissue samples.

To date, the 10-minute cancer test has only been used to identify bowel, lymphoma, prostate, as well as breast cancer; however, the team is quite confident that it can be transferred to any other types of the condition.

As the DNA of healthy cells are altered when cancer is prevalent, this cancer tests identifies any changes in patterns when this is placed within water or any solution. Under a high-resolution microscope, the team was able to detect cancerous DNA, which were folded within the three-layer structure in the water.

Gold particles are used within these tests, which are connected with cancerous DNA, and as such, this affected molecular behavior so that the color ends up changing within them.

The next step for this Australian research team is to move forward with clinical studies around just how early cancer can be identified, and how this can affect treatment effectiveness.

There’s also word of potentially using bodily fluids when it comes to identifying a variety of cancer types within later and earlier states of the condition.





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