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Synchrotron X Ray Induced Axonal Transections in the Brain of Rats Assessed by High-Field Diffusion Tensor Imaging Tractography

Author

Listed:
  • Raphaël Serduc
  • Audrey Bouchet
  • Benoît Pouyatos
  • Luc Renaud
  • Elke Bräuer-Krisch
  • Géraldine Le Duc
  • Jean A Laissue
  • Stefan Bartzsch
  • Nicolas Coquery
  • Yohan van de Looij

Abstract

Since approximately two thirds of epileptic patients are non-eligible for surgery, local axonal fiber transections might be of particular interest for them. Micrometer to millimeter wide synchrotron-generated X-ray beamlets produced by spatial fractionation of the main beam could generate such fiber disruptions non-invasively. The aim of this work was to optimize irradiation parameters for the induction of fiber transections in the rat brain white matter by exposure to such beamlets. For this purpose, we irradiated cortex and external capsule of normal rats in the antero-posterior direction with a 4 mm×4 mm array of 25 to 1000 µm wide beamlets and entrance doses of 150 Gy to 500 Gy. Axonal fiber responses were assessed with diffusion tensor imaging and fiber tractography; myelin fibers were examined histopathologically. Our study suggests that high radiation doses (500 Gy) are required to interrupt axons and myelin sheaths. However, a radiation dose of 500 Gy delivered by wide minibeams (1000 µm) induced macroscopic brain damage, depicted by a massive loss of matter in fiber tractography maps. With the same radiation dose, the damage induced by thinner microbeams (50 to 100 µm) was limited to their paths. No macroscopic necrosis was observed in the irradiated target while overt transections of myelin were detected histopathologically. Diffusivity values were found to be significantly reduced. A radiation dose ≤ 500 Gy associated with a beamlet size of

Suggested Citation

  • Raphaël Serduc & Audrey Bouchet & Benoît Pouyatos & Luc Renaud & Elke Bräuer-Krisch & Géraldine Le Duc & Jean A Laissue & Stefan Bartzsch & Nicolas Coquery & Yohan van de Looij, 2014. "Synchrotron X Ray Induced Axonal Transections in the Brain of Rats Assessed by High-Field Diffusion Tensor Imaging Tractography," PLOS ONE, Public Library of Science, vol. 9(2), pages 1-9, February.
    • Handle: RePEc:plo:pone00:0088244
    DOI: 10.1371/journal.pone.0088244
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    1. Raphaël Serduc & Elke Bräuer-Krisch & Erik A Siegbahn & Audrey Bouchet & Benoit Pouyatos & Romain Carron & Nicolas Pannetier & Luc Renaud & Gilles Berruyer & Christian Nemoz & Thierry Brochard & Chant, 2010. "High-Precision Radiosurgical Dose Delivery by Interlaced Microbeam Arrays of High-Flux Low-Energy Synchrotron X-Rays," PLOS ONE, Public Library of Science, vol. 5(2), pages 1-12, February.
    2. Pantaleo Romanelli & Erminia Fardone & Giuseppe Battaglia & Elke Bräuer-Krisch & Yolanda Prezado & Herwig Requardt & Geraldine Le Duc & Christian Nemoz & David J Anschel & Jenny Spiga & Alberto Bravin, 2013. "Synchrotron-Generated Microbeam Sensorimotor Cortex Transections Induce Seizure Control without Disruption of Neurological Functions," PLOS ONE, Public Library of Science, vol. 8(1), pages 1-8, January.
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