-
are motivated, curious and passionate about scientific research. Together we will make technological advances in cancer research that can make a difference in the way the cancer is diagnosed or even treated
-
between immune cells and Glioblastoma and its impact on cancer growth. You will perform research on human primary macrophages and cancer cells isolated from glioblastoma patients. Glioblastoma is the most
-
plays vital roles in disease progression. In breast cancer, the orientation and organisation of collagen fibres surrounding the tumour correlates specifically with patient prognosis. This phenomenon is
-
aerospace and transport sectors and the imaging of properties of biological cells and tissue. Motivation: Cancer claims the lives of over 450 UK citizens every single day. The best outcomes in patients
-
(School of Medicine) Positions available: 1 Funding: fully-funded (stipend and PhD fees) Start date: September 2024 (or earlier) Subject Area: Biophotonics/Optics The aim of cancer surgery is to remove the
-
at the University of Nottingham in collaboration with Erebagen Ltd to screen engineered bacterial natural product libraries for anti-cancer activity using native mass spectrometry. This exciting project is supervised
-
([email protected] ) 3) Precision oncology targeting of drug-resistant ovarian cancer ([email protected] ) 4) Using multi-omics to identify severe asthma patients that respond
-
that can image diseases including cancer in hard-to-reach areas of the body such as the pancreas and ovaries. Background: Cancers that occur deep within the body are difficult to detect and treat due
-
makes people's health and strength worse overall. Colorectal cancer patients also lose significant amounts of mass and have a high levels of inflammation, both of which are linked to worse long-term
-
only major comorbidity with high premature mortality. It leads to liver failure ad liver cancer development; however, prognostication and disease stratification has been unsuccessful so far. Our study