World Cancer Day 2023: New research into mapping oxygenation levels in tumours
4 February 2023
Solid tumours in the body are often treated with surgery and/or radiotherapy, but often this treatment is not effective, or the cancer recurs after treatment. Hypoxia (lack of oxygen supply) in the tumour is often an indicator that a tumour will be resistant to radiotherapy and other treatments. Knowing whether a tumour is hypoxic can help doctors to make treatment decisions that may improve patient survival. Currently, hypoxia is measured using histological methods, in which a sample of tumour tissue is removed by biopsy and prepared for microscopic examination in a laboratory. This is invasive and time-consuming, and does not provide an indication of oxygen levels throughout the entire tumour. As hypoxia-specific treatments become available, there is a need for ways to measure oxygen levels and detect areas of hypoxia non-invasively and across a larger region.
Quantitative susceptibility mapping (QSM) is an emerging MRI technique that uses the usually-discarded phase component of the complex MRI signal to calculate the magnetic properties of tissues. It has been used extensively in the human brain, including for measurements of oxygenation in blood vessels, but it has not yet been fully extended to other parts of the body, nor has it been used for measuring oxygenation in tissue outside blood vessels.
As part of a multi-disciplinary team involving С̳ Medical Physics and Biomedical Engineering, the С̳ Cancer Institute, , and , we will collect MR images from HNSCC patients (see the example QSM image here) and use SBCOM to make maps of oxygenation throughout the head and neck region. To develop the technique to study prostate cancer, we have teamed up with an ongoing (С̳ Centre for Medical Imaging, and С̳ Centre for Medical Image Computing) to collect MR images from PCa patients as well as the resected prostate specimen after prostatectomy. An example of susceptibility maps we have calculated from MRI scans in two patients and corresponding maps of the resected prostate specimens are shown here.
Susceptibility-Based Cancer Oxygenation Mapping - byDr Matt Cherukara and Dr Laxmi Muralidharan
Meet the experts
Dr Matt Cherukara and Dr Laxmi Muralidharan are postdoctoral research fellows in Professor Karin Shmueli’s MRI groupatС̳ Medical Physics and Biomedical Engineering.
Dr Matt Cherukara,Research Fellow
“When I decided to change careers and come back to academic research, it was important to me to be working on a project that had the potential for real benefit to patients. I’m excited to be working in cancer research, as the field uses cutting edge imaging science to meet an urgent clinical need.”
Dr Laxmi Muralidharan,Research Fellow in MRI Susceptibility Mapping of Prostate Cancer
“It’s always exciting to work on a research project that has the potential for clinical translation, as it can lead to real world impact and patient benefit.”
Prof Karin Shmueli,Professor of Magnetic Resonance Imaging Physics
Karin’s research focuses on optimising MRI techniques to reveal clinically useful information by exploiting new contrast mechanisms. She uses the phase of the MRI signal (rather than the magnitude used in most conventional MRI) to calculate maps of tissue electromagnetic properties like its magnetic susceptibility or electrical conductivity.
Karin is a pioneer of methods to calculate magnetic susceptibility maps from MRI phase images. The susceptibility of living tissues depends on their composition so these quantitative susceptibility mapping (QSM) techniques can provide clinically useful information on disease-related changes in tissue iron or myelin content.
Together with her research group and collaborators, Karin aims to use these QSM and other phase-based MRI methods to generate clinical MRI biomarkers to improve diagnosis and monitoring of therapies in a range of diseases from Alzheimer’s to head-and-neck cancer.
With a long history of major breakthroughs, С̳ is home to one of the largest concentrations of cancer specialists to be found anywhere in the world. On World Cancer Day 2023, find out more about С̳’s world-leading research on cancer at theС̳ Cancer Institute