Water dynamics indicate tumour status

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How aggressive is a tumour?

To measure the tumour status without taking tissue samples, Italian researchers have developed a method based on magnetic resonance imaging (MRI) of whole body parts.

The technique measures proton nuclear resonance dispersion profiles at low magnetic fields, which reveals the water exchange rate of the tumour cells.

Thus, tumour development can be monitored rapidly and noninvasively, say the authors of the study published in the journal Angewandte Chemie.

Clinically used high-field MRI can produce images of tumours with excellent spatial resolution.

The images are acquired at a fixed magnetic field and reveal valuable data on the tumour morphology.

However, dynamic processes such as tumour physiology and metabolism are not as easy to assess.

This is a limitation that has been partially overcome by the administration of contrast agents, but a more direct method lies in the technique itself.

Researcher Simonetta Geninatti Crich at the University of Torino, Italy, and her colleagues used a field-cycling nuclear magnetic resonance (NMR) setup to measure the nuclear relaxation rates at low magnetic fields and found a clear correlation between the water dynamics and the tumour types.

NMR fast field cycling techniques measure the relaxation time of protons, the dispersion profiles, after a sequence of magnetic cycles in a magnetic field.

Depending on the strength of the magnetic field, different proton conditions can be probed.

Water dynamics in a tumour, for example, are only accessible at the variable and low magnetic fields produced with these cycling techniques.

In this study, the team used an adapted NMR instrument, which switches between different field strengths, for data acquisition on tumours in animal models.

As a result, three different tumour models and healthy muscle tissue (the tumours were implemented in a leg of a mouse) produced distinct proton relaxation curves.

After analysing the kinetics of the curves, the researchers identified three underlying scenarios: slow water exchange rate, fast exchange, and an intermediate exchange rate with contributions from both intra- and extracellular compartments.

A fast exchange indicates a high metabolic rate and thus a high activity of the tumour cell.

“This increased metabolic activity is characteristic for aggressive and highly metastatic tumour cells” says Prof. Geninatti Crich.

The tumour cells relieve their high metabolic pressure through an enhanced water exchange with the exterior of the cell.

This parameter is now directly accessible with this technique, as the scientists have proved.

The method enabled the direct, fast, and noninvasive assessment of the tumour status.

The scientists describe the method as “a possibility for new diagnostic opportunities in oncology”.

They plan to adopt it in the fast field cycling MRI technologies that are currently developed for clinical use.


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