Communication Dans Un Congrès Année : 2023

Latest development of α emitter imaging and quantification on a large Field Of View for Targeted Alpha Therapy applications

Résumé

Introduction Although very promising, the development of Targeted Alpha Therapy (TAT) requires the use of accurate techniques that can identify and quantify individual radionuclides in different matrices. However, currently, characterization of the nature and spatial distribution of radionuclides in a sample is time consuming and fastidious. Indeed, it necessarily requires the use of two distinct analytical techniques and detectors of different nature. Moreover, the resolutions of the two methods are often different from each other because they also depend on the nature of the detector used, which makes it difficult to integrate and interpret these two types of measurements together. To overcome these limitations, as well as to simplify and to accelerate the measurement process, it is now possible to use a digital autoradiograph capable of combining the measurement of the spatial distribution with the ability to separate and quantify each radionuclide. Description of the Work or Project For this purpose, a set of temporal and energy spectrometry techniques had to be specifically developed. On the one hand, the use of instruments capable of recording the location of each decay product allows to measure the evolution of the activity of the sample and thus, to deduce the contributions of several radionuclides. On the other hand, the development of an innovative method of autoradiography spectroscopy in particle energy also allows to separate them by measuring their initial energy. Even if the efficiency of energy spectrum reconstruction is low (<5%) compared to the efficiency of a simple autoradiograph (50%), this novel measurement approach offers the opportunity to select areas on an autoradiograph to perform an energy spectrum analysis within that area. Although if the samples usable on this type of instrument must generally be of solid nature, recent developments show that it is possible to use fluid samples (liquid or gas) with a cell system. Eventually, the proposed measurement system could allow dynamic imaging of radionuclides of interest. Conclusions From an application point of view, this opens up possibilities for theragnostic applications that typically use two radionuclides. Further upstream, it can optimize the production and distribution challenge of α radionuclides by allowing the identification and characterization of individual radionuclides in radionuclide chains such as 225Ac. Moreover, the measurement system and the associated method could strongly contribute to facilitate research on the biodistribution of α radionuclides. References Lefeuvre, H., Donnard, J., Descostes, M., Billon, S., Duval, S., Oger, T., Toubon, H. & Sardini, P. (2022). Spectroscopic Autoradiography of Alpha Particles Using a Parallel Ionization Multiplier Gaseous Detector. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. https://doi.org/10.1016/j.nima.2022.166807

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hal-04403997 , version 1 (18-01-2024)

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Arthur Bongrand, Samuel Duval, Jérôme Donnard, Julie Champion. Latest development of α emitter imaging and quantification on a large Field Of View for Targeted Alpha Therapy applications. 11th International Conference on Isotopes (11ICI), Sylvia Fedoruk Canadian Centre for Nuclear Innovation (the Fedoruk Centre); University of Saskatchewan; Tourism Saskatoon, Jul 2023, Saskatoon, Saskatchewan, Canada. ⟨hal-04403997⟩
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