A gel composed of only two ingredients can provide a temporary, hospitable environment that helps activate modified immune cells to attack cancerous tumors.
Engineer s develop simple delivery method that enhances promising cancer treatment miragenews.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from miragenews.com Daily Mail and Mail on Sunday newspapers.
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Study reveals a unique mode of cell migration on soft ‘viscoelastic’ surfaces
Stanford engineers find that cancer cells exhibit a unique mode of migration on squishy materials, which are similar to biological tissues. In contrast, cell movement – a process central to cancer metastasis and other biological processes – is typically studied on very rigid materials. By Allison Gasparini
Inside your body, cell movement plays a crucial role in many significant biological processes, including wound healing, immune responses and the potential spread of cancer.
“Most people don’t die from having a primary tumor,” said Kolade Adebowale, a graduate student in chemical engineering, and a member of the Chemical Biology Interface (CBI) graduate program in Chemistry, Engineering & Medicine for Human Health (ChEM-H) at Stanford University. “The problem is when cancer cells from the tumor acquire the ability
Comet supercomputer helps understand the mechanical process of cancer cell growth news-medical.net - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from news-medical.net Daily Mail and Mail on Sunday newspapers.
Comet supercomputer reveals the mechanical process of cancer growth
According to the World Health Organization, one in six worldwide deaths have been attributed to cancer; however, these fatalities were not due to initial malignant tumors-;the deaths were caused by the spread of cancer cells to surrounding tissues and subsequent tumor growth.
These tissues, which consist largely of collagen, have been the focus of a recent collaborative study by a team from Stanford University and Purdue University. To accomplish their work, the researchers used the
Comet supercomputer at the San Diego Supercomputer Center, located on the UC San Diego campus.