Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
. Characterise the effect of Ect2 depletion on PDAC cell proliferation, division and migration 2. Understand how mechanosensitive signalling regulates Ect2 localisation and activity 3. Image the localisation
-
all year round Details Project details: Artificial Intelligence (AI) has been shown to be important in obtaining ‘big data’ from whole slide images (WSI) and offers unique opportunities for automated
-
Computational imaging: seeing beyond the capabilities of conventional optics
-
Deadline: Applications accepted all year round Details During the past two decades, blood oxygenation level dependent (BOLD) functional magnetic resonance imaging (fMRI) has become the scientific technique
-
research programme is to use genetic, molecular and cellular, and imaging/image analysis approaches to understand the development and function of the vertebrate inner ear, the organ of hearing and balance
-
analysis of data coming out of a prototype calibration system which has been deployed in Super-K. The sensitivity of Hyper-K to supernovae is also under study. Students are expected to spend up to 12 months
-
of Sheffield. The successful candidates will take forward methodological research in the physics and engineering of magnetic resonance imaging for hyperpolarised 129Xe, and will be based in the POLARIS group
-
of the produced EVs using high resolution cell imaging. You will investigate the mechanism(s) of any EV-related chemotherapy resistance observed. Finally, you will attempt to target EV production (by CRISPR Cas9
-
diseases, combining biomechanical experiments, micro-Computed Tomography imaging, Digital Volume Correlation, and Nanoindentation. The position is funded as part of the project “ChildBone: A novel digital
-
of hyperpolarised xenon for brain oximetry. Using multi-modal imaging methods and animal models this project seeks to understand the application of hyperpolarised xenon to detect early signs of brain diseases