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3D Model Helps Test Personalized Treatments in Just 5 Days

by Adeline Dorcas on May 22 2019 11:54 AM

New platform using 3D model opens the door to test personalized treatments in just five days, reveals a new study.

3D Model Helps Test Personalized Treatments in Just 5 Days
New platform using 3D model can open up new avenues for developing more precise treatments, reports a new study.
Why doesn't the same treatment work in the same way for every patient? How can a drug's performance be optimized without causing side effects due to an excessive dosage?

In an attempt to answer these questions, researchers at the University of Geneva (UNIGE), Switzerland, have devised a cell co-culture platform that reproduces a patient's tumor structure in 3D. The scientists can use it to test several drugs or their combinations at different stages of the tumor's development. They now need only five days to identify which treatment will be most effective for a particular case, and the combination can then be translated for clinical practice. These results are highly promising for the future of personalized medicine, and you can read all about the outcomes in the journal Scientific Reports.

Colorectal cancer is the third most common form of cancer diagnosed today and the fourth most deadly in the world: 1.4 million people are affected each year, with 700,000 fatalities. A range of treatments is available, including chemotherapy, but the high dosages cause numerous side effects, and patients commonly develop resistance. These treatments are currently tested on 2D tumor cell cultures before being administered to patients.

"But that doesn't correspond to reality,ยป explains Patrycja Nowak-Sliwinska, a professor at the School of Pharmaceutical Sciences at the UNIGE's Faculty of Science. "Not only does a tumor develop in 3D, but it also contains other types of cells, such as fibroblasts (tissues) and endothelial cells (blood vessels)."

As a result, the Geneva-based scientists have built a new platform that uses a patient's tumor cell lines to recreate the tumor in 3D. It also keeps it alive, so that the impact of the treatments can be analyzed during the different stages of its development.

To each patient, his or her own tumour

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The team headed by professor Nowak-Sliwinska, in collaboration with groups led by Didier Colin (HUG) and Olivier Dormond (CHUV), selected six cell lines derived from six different patients. The cells were stabilized in a hollow, U-shaped culture plate so that they stayed agglomerated and floated in a cell culture medium optimized to feed the tumor.

"The structure can then be organized by itself in 3D and continue its development," says professor Nowak-Sliwinska. "The three types of cells that make up the tumor carry on interacting with each other, as though they were in the patient's body."

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Three drugs better than one

The research team then tested several different combinations of three approved drugs at different developmental stages of the cultured tumors. "Our first observation was that each patient responded differently to the same combination, demonstrating that it's impossible to reach similar efficacy for each patient with the same treatment. It needs to be considered on a case-by-case basis," says professor Nowak-Sliwinska. The scientists also found that a low-dose combination of three drugs was much more effective than a high dose of one drug alone.

"Treatment resistance and side effects occur when the dose is too high. Combining several drugs at low doses helps to circumvent this problem and improve treatment responses," says the professor.

Personalized treatments in five days

The new platform opens the door to personalized medicine. "By extracting a cell line from the patient's tumor, we can recreate the tumor in 3D on our platform and test the different drug combinations directly on that specific tumor. We can then select the optimal treatment for that particular patient", continues professor Nowak-Sliwinska.

This meticulous work takes five days on average, a short enough time to act quickly against cancer. "In this instance, we're interested in colorectal cancer but this platform, which is easy to reproduce, can obviously be used for all kinds of tumors at a relatively low cost," says Nowak-Sliwinska by way of conclusion.

Source-Eurekalert


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