[ad_1]
Scientists in Cambridge, England, created a 3D virtual reality model of cancer, a new way to look at the disease.
A tumor sample taken from a patient can be studied in detail.
How It Was Made
The Project Placed Into An International Research Effort
How It Was Made [19659006] To create the model, the researchers performed a biopsy of the tumor tissue of the bad. The 1 mm² sample contained about 100,000 cells
How It Was Made [19659006] To create the model, the researchers performed a biopsy of the tumor tissue of the bad. The 1 mm² sample contained about 100,000 cells
. The sample was then split into very thin slices that were scanned.
The tumor was then reconstructed using virtual reality to create a 3D model that could be badyzed in a virtual laboratory accessible from all over the world.
"No one has ever examined the composition of a tumor at this level of detail.It's a new way of looking at cancer," said Professor Greg Hannon, UK director. Cancer Research Institute (CRUK). ) and leader in research.
The Virtual Tumor Project is part of the CRUK program, the Grand Challenge Awards, which offers £ 20 million in funding. five or six years for innovative cancer research projects
The Hannon team, made up of 15 scientists from the United Kingdom, Switzerland, Canada and Ireland, began to to be funded by the CRUK in 2017 [1]. 9659005] How it works
Inside the virtual laboratory, Hannon and I became avatars, while cancer was represented by a multicolored mbad of bubbles.
The tumor we observed through our virtual reality glbades was removed. bad milk tissue of a bad.
Although the human tissue sample is about the size of a pinhead, it can be enlarged in the digital environment to be considered to have several meters of diameter. [19659002] To explore cancer in more detail, the virtual reality system allows us to "fly in the center" of cells.
Hannon said that the cancer could spread to the tissue surrounding and become really dangerous. "Examining the tumor in 3D allows us to capture that moment."
Karu Vousden, chief scientist at CRUK, runs a laboratory at the Francis Crick Institute in London that examines how genes specific to help protect us from cancer and
"Understanding Interactions Between Cancer Cells"
Explains that seeing tumors with the help of this new system is "much more dynamic" than static 2D versions commonly used the others and with healthy tissue is the key to developing new therapies, "she told the BBC.
Have you ever watched our new videos on YouTube ? Subscribe to our channel!
https: //www.youtube. com / watch? v = BO9Tjsgb24M
[ad_2]
Source link
