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Tumour irradiation in mice with a laser-accelerated proton beam

Florian Kroll, Florian‐Emanuel Brack, Constantin Bernert, Stefan Bock, Elisabeth Bodenstein, Kerstin Brüchner, T. E. Cowan, Lennart Gaus, René Gebhardt, Uwe Helbig, Leonhard Karsch, T. Kluge, Stephan Kraft, Mechthild Krause, Elisabeth Leßmann, Umar Masood, Sebastian Meister, Josefine Metzkes-Ng, Alexej Nossula, Jörg Pawelke, Jens Pietzsch, Thomas Püschel, Marvin Reimold, Martin Rehwald, Christian Richter, Hans-Peter Schlenvoigt, U. Schramm, Marvin Elias Paul Umlandt, Tim Ziegler, Karl Zeil, Elke Beyreuther

2022Nature Physics162 citationsDOIOpen Access PDF

Abstract

Abstract Recent oncological studies identified beneficial properties of radiation applied at ultrahigh dose rates, several orders of magnitude higher than the clinical standard of the order of Gy min –1 . Sources capable of providing these ultrahigh dose rates are under investigation. Here we show that a stable, compact laser-driven proton source with energies greater than 60 MeV enables radiobiological in vivo studies. We performed a pilot irradiation study on human tumours in a mouse model, showing the concerted preparation of mice and laser accelerator, dose-controlled, tumour-conform irradiation using a laser-driven as well as a clinical reference proton source, and the radiobiological evaluation of irradiated and unirradiated mice for radiation-induced tumour growth delay. The prescribed homogeneous dose of 4 Gy was precisely delivered at the laser-driven source. The results demonstrate a complete laser-driven proton research platform for diverse user-specific small animal models, able to deliver tunable single-shot doses up to around 20 Gy to millimetre-scale volumes on nanosecond timescales, equivalent to around 10 9 Gy s –1 , spatially homogenized and tailored to the sample. The platform provides a unique infrastructure for translational research with protons at ultrahigh dose rates.

Topics & Concepts

IrradiationProtonLaserHomogeneousRadiationPhysicsIn vivoNanosecondDose rateNuclear medicineMedical physicsOpticsRadiochemistryNuclear physicsMedicineChemistryBiologyBiotechnologyThermodynamicsRadiation Therapy and DosimetryEffects of Radiation ExposureLaser-Plasma Interactions and Diagnostics
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