Science and Research

X-Ray Phase Contrast 3D Virtual Histology: Evaluation of Lung Alterations After Microbeam Irradiation

PURPOSE: This study provides the first experimental application of multiscale 3-dimensional (3D) x-ray phase contrast imaging computed tomography (XPCI-CT) virtual histology for the inspection and quantitative assessment of the late-stage effects of radio-induced lesions on lungs in a small animal model. METHODS AND MATERIALS: Healthy male Fischer rats were irradiated with x-ray standard broad beams and microbeam radiation therapy, a high-dose rate (14 kGy/s), FLASH spatially fractionated x-ray therapy to avoid beamlet smearing owing to cardiosynchronous movements of the organs during the irradiation. After organ dissection, ex vivo XPCI-CT was applied to all the samples and the results were quantitatively analyzed and correlated to histologic data. RESULTS: XPCI-CT enables the 3D visualization of lung tissues with unprecedented contrast and sensitivity, allowing alveoli, vessel, and bronchi hierarchical visualization. XPCI-CT discriminates in 3D radio-induced lesions such as fibrotic scars and Ca/Fe deposits and allows full-organ accurate quantification of the fibrotic tissue within the irradiated organs. The radiation-induced fibrotic tissue content is less than 10% of the analyzed volume for all microbeam radiation therapy-treated organs and reaches 34% in the case of irradiations with 50 Gy using a broad beam. CONCLUSIONS: XPCI-CT is an effective imaging technique able to provide detailed 3D information for the assessment of lung pathology and treatment efficacy in a small animal model.

  • Romano, M.
  • Bravin, A.
  • Wright, M. D.
  • Jacques, L.
  • Miettinen, A.
  • Hlushchuk, R.
  • Dinkel, J.
  • Bartzsch, S.
  • Laissue, J. A.
  • Djonov, V.
  • Coan, P.

Keywords

  • Animals
  • Lung/diagnostic imaging
  • Male
  • Rats
  • Tomography, X-Ray Computed/methods
  • *X-Ray Therapy
  • X-Rays
Publication details
DOI: 10.1016/j.ijrobp.2021.10.009
Journal: Int J Radiat Oncol Biol Phys
Pages: 818-830 
Number: 3
Work Type: Original
Location: CPC-M
Disease Area: PLI, LC
Partner / Member: KUM
Access-Number: 34678432

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