TY - JOUR AU - Planinc, Ivo AU - Ilic, Ivana AU - Dejea, Hector AU - Garcia-Canadilla, Patricia AU - Gasparovic, Hrvoje AU - Jurin, Hrvoje AU - Milicic, Davor AU - Skoric, Bosko AU - Stampanoni, Marco AU - Bijnens, Bart AU - Bonnin, Anne AU - Cikes, Maja PY - 2023 M3 - Brief Research Report TI - A Novel Three-Dimensional Approach Towards Evaluating Endomyocardial Biopsies for Follow-Up After Heart Transplantation: X-Ray Phase Contrast Imaging and Its Agreement With Classical Histopathology JO - Transplant International UR - https://www.frontierspartnerships.org/articles/10.3389/ti.2023.11046 VL - 36 SN - 1432-2277 N2 - Endomyocardial biopsies are the gold standard for surveillance of graft rejection following heart transplantation, and are assessed by classical histopathology using a limited number of previously stained slices from several biopsies. Synchrotron propagation-based X-ray phase contrast imaging is a non-destructive method to image biological samples without tissue preparation, enabling virtual 2D and 3D histopathology. We aimed to show the feasibility of this method to assess acute cellular rejection and its agreement to classical histopathology. Right ventricular biopsies were sampled from 23 heart transplantation recipients (20 males, mean age 54±14 years) as part of standard follow-up. The clinical diagnosis of potential rejection was made using classical histopathology. One additional study sample was harvested and imaged by X-ray phase contrast imaging, producing 3D datasets with 0.65 μm pixel size, and up to 4,320 images per sample. An experienced pathologist graded both histopathological and X-ray phase contrast images in a blinded fashion. The agreement between methods was assessed by weighted kappa, showing substantial agreement (kappa up to 0.80, p < 0.01) between X-ray phase contrast imaging and classical histopathology. X-ray phase contrast imaging does not require tissue processing, allows thorough analysis of a full myocardial sample and allows identification of acute cellular rejection. ER -