Radiotherapy coupled with hyperthermia - adapting the biological equivalent dose concept

Short Name: RaCHy, Project Number: 18HLT06

New devices and techniques for precise delivery of combined cancer treatments

Image of a cancer cell undergoing hyperthermia treatment

Coordinator: Giovanni Durando (INRIM)

Research studies of combined radiotherapy and heat therapies (hyperthermia) reported positive results but integrating these two cancer therapies has been hindered by the complexity of comparing the relevant variables, including temperature increases, duration and intervals between treatments. Clinical adoption would require new measurement approaches, such as more precise control of temperature and measurement of biological effects.

 

The project developed new calibration devices, a new measurement framework and measurement techniques. Biological mechanisms will be assessed, for controlled and reproducible delivery of radiation and hyperthermia, and patient-specific prescriptions. Combinations of radiotherapies will be compared with different hyperthermia treatments, with and without heat, to quantify a dose modifying factor. Ahead of any patient trials, outcomes will be promoted to laboratories, manufacturers, standards bodies, development agencies and end users. Anticipated impacts include improved capabilities for researchers and the expansion of the radiotherapy device market. For cancer patients, this should mean less invasive treatments and, above all, better chances of survival and improved quality of life.

 

Dual-responsive magnetic nanodroplets for controlled oxygen release ultrasound and magnetic stimulation
2024

Nanoscale

Design and Validation of Experimental Setup for Cell Spheroid Radiofrequency-Induced Heating
2023

Sensors

Development and testing of a system for controlled ultrasound hyperthermia treatment with a phantom device
2023

IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control

Improvement of Hyperthermia Properties of Iron Oxide Nanoparticles by Surface Coating
2023

ACS Omega

In Silico Experiments to Explore the Heating Efficiency of Magnetic Nanoparticles in Hyperthermia Preclinical Tests
2023

Advanced Theory and Simulations

Ultrasounds induce blood–brain barrier opening across a sonolucent polyolefin plate in an in vitro isolated brain preparation
2022

Scientific Reports

Design and Characterization of an RF Applicator for In Vitro Tests of Electromagnetic Hyperthermia
2022

Sensors

From Micromagnetic to In Silico Modeling of Magnetic Nanodisks for Hyperthermia Applications
2021

Advanced Theory and Simulations

Sonodynamic Treatment Induces Selective Killing of Cancer Cells in an In Vitro Co-Culture Model
2021

Cancers

In silico experiments as a tool to reduce preclinical tests of magnetic hyperthermia
2021

Biomedical Science and Engineering

Experimental and Modelling Analysis of the Hyperthermia Properties of Iron Oxide Nanocubes
2021

Nanomaterials

How to make FAIR a project: open access to research data and the RaCHy - Radiotherapy Coupled with Hyperthermia (in Italian)
2021

Notiziario dell'Istituto Superiore di Sanità

5-Aminolevulinic Acid Triggered by Ultrasound Halts Tumor Proliferation in a Syngeneic Model of Breast Cancer
2021

Pharmaceuticals

A standard test phantom for the performance assessment of magnetic resonance guided high intensity focused ultrasound (MRgHIFU) thermal therapy devices
2021

International Journal of Hyperthermia

Compressed FTIR spectroscopy using low-rank matrix reconstruction
2020

Optics Express

Thermoelectric nanospectroscopy for the imaging of molecular fingerprints
2020

Nanophotonics

EURAMET EMPIR 18HLT06 RaCHy Project: Radiotherapy coupled with Hyperthermia (Induced by HITU)
2019

unavailable

Thermoelectric nanospectroscopy for the imaging of molecular fingerprints
0

Nanophotonics

Dataset: Experimental and Modelling Analysis of the Hyperthermia Properties of Iron Oxide Nanocubes
0

Zenodo

Compressed FTIR spectroscopy using low-rank matrix reconstruction
0

Opt. Express

5-Aminolevulinic Acid Triggered by Ultrasound Halts Tumor Proliferation in a Syngeneic Model of Breast Cancer
0

Pharmaceuticals

Participating EURAMET NMIs and DIs

INRIM (Italy)

NPL (United Kingdom)

PTB (Germany)

UME (Türkiye)

VSL (Netherlands)

Other Participants

Erasmus Universitair Medisch Centrum Rotterdam (Netherlands)
Institute of Cancer Research - Royal Cancer Hospital (United Kingdom)
Istituto Superiore di Sanità (Italy)
Ospedale San Raffaele S.R.L. (Italy)
Technische Universiteit Delft (Netherlands)
VSPARTICLE B.V. (Netherlands)

Information

Programme
EMPIR
Field
Health
Status
completed
Call
2018
Duration
2019-2022
Project website
Link