In Utero
Stillbirth is the result of varied processes taking place within both the mother’s and baby’s organs during pregnancy – a time of rapid changes.
Advanced Research Computing
The Franklin develops state of the art digital infrastructure to enable cutting edge research. Our interdisciplinary research generates a variety of data structures and sizes that all need to be stored, curated and processed to give data driven insights.
Image Analysis
Many different modalities lead to the generation of large amounts of 2D or 3D image data (TEM, SEM, X-ray CT, LM, etc).
Experimental Artificial Intelligence
The Franklin collects a significant amount of experimental data every year and it is paramount to the scientific process that the data collected is the best it can be.
Quantitative Biology Across Scales
Our aim: To combine innovative imaging techniques and AI in ways that will allow researchers to flexibly image across large and small scales – from seeing whole organs to views of cells and the intricate structures within them – and with these, to transform how doctors treat patients.
Artificial Intelligence and Informatics for Predictive Biology
Our aim: To embed data management and science into all of our research groups to best use AI and machine learning to drive life sciences research and create new research tools.
Moving from cells into tissue: a new tomography method
Researchers led by Dr Michael Grange at the Rosalind Franklin Institute have developed a robust molecular imaging workflow for brain tissue samples. Their approach utilises plasma ion beams, which increased the size of samples that could be extracted for imaging,…