AGL 37.99 Decreased By ▼ -0.03 (-0.08%)
AIRLINK 215.53 Increased By ▲ 18.17 (9.21%)
BOP 9.80 Increased By ▲ 0.26 (2.73%)
CNERGY 6.79 Increased By ▲ 0.88 (14.89%)
DCL 9.17 Increased By ▲ 0.35 (3.97%)
DFML 38.96 Increased By ▲ 3.22 (9.01%)
DGKC 100.25 Increased By ▲ 3.39 (3.5%)
FCCL 36.70 Increased By ▲ 1.45 (4.11%)
FFBL 88.94 No Change ▼ 0.00 (0%)
FFL 14.49 Increased By ▲ 1.32 (10.02%)
HUBC 134.13 Increased By ▲ 6.58 (5.16%)
HUMNL 13.63 Increased By ▲ 0.13 (0.96%)
KEL 5.69 Increased By ▲ 0.37 (6.95%)
KOSM 7.32 Increased By ▲ 0.32 (4.57%)
MLCF 45.87 Increased By ▲ 1.17 (2.62%)
NBP 61.28 Decreased By ▼ -0.14 (-0.23%)
OGDC 232.59 Increased By ▲ 17.92 (8.35%)
PAEL 40.73 Increased By ▲ 1.94 (5%)
PIBTL 8.58 Increased By ▲ 0.33 (4%)
PPL 203.34 Increased By ▲ 10.26 (5.31%)
PRL 40.81 Increased By ▲ 2.15 (5.56%)
PTC 28.31 Increased By ▲ 2.51 (9.73%)
SEARL 108.51 Increased By ▲ 4.91 (4.74%)
TELE 8.74 Increased By ▲ 0.44 (5.3%)
TOMCL 35.83 Increased By ▲ 0.83 (2.37%)
TPLP 13.84 Increased By ▲ 0.54 (4.06%)
TREET 24.38 Increased By ▲ 2.22 (10.02%)
TRG 61.15 Increased By ▲ 5.56 (10%)
UNITY 34.84 Increased By ▲ 1.87 (5.67%)
WTL 1.72 Increased By ▲ 0.12 (7.5%)
BR100 12,244 Increased By 517.6 (4.41%)
BR30 38,419 Increased By 2042.6 (5.62%)
KSE100 113,924 Increased By 4411.3 (4.03%)
KSE30 36,044 Increased By 1530.5 (4.43%)
Editorials

Scientists create ‘virtual tumor’ to study cancer in 3D

Where virtual reality (VR) is best known for its use in entertainment, it has also proved to be very beneficial for
Published December 28, 2018 Updated January 2, 2019

Where virtual reality (VR) is best known for its use in entertainment, it has also proved to be very beneficial for med-tech. Discovering more options for cancer treatment, scientists have created a VR 3D model of tumor to look at the disease from within.

Scientists in Cambridge have provided a new way to look at cancer by creating a 3D model of cancer that can be viewed and studied in VR. The tumor sample, which they took from a patient, can be studied in detail from all angles, with each individual cell mapped.

The researchers started with a 1mm cubed piece of breast cancer tissue biopsy that contained around 100,000 cells. Wafer thin slices were cut, scanned and then stained with markers for showing their molecular makeup and DNA characteristics, described BBC News.

With the help of VR, the tumor was rebuilt. The 3D tumor was then analyzed within a VR laboratory. Researchers claim that this virtual tumor will enhance their understanding of cancer and help in the search for new treatments.

This system also allows multiple users around the world to examine the tumor. One of the researchers, Greg Hannon told BBC, “No-one has examined the geography of a tumor in this level of detail before; it is a new way of looking at cancer.”

The human tissue sample, though was very tiny, but could be magnified to appear several meters across. For studying it in more detail, the VR system also allows to ‘fly through’ the cells.

Another researcher Karen Vousden said, “Understanding how cancer cells interact with each other and with healthy tissue is critical if we are going to develop new therapies - looking at tumors using this new system is so much more dynamic than the static 2D versions we are used to.”

Copyright Business Recorder, 2018

Comments

Comments are closed.