TY - JOUR
T1 - Evaluation of MR-safe bioptomes for MR-guided endomyocardial biopsy in minipigs
T2 - a potential radiation-free clinical approach
AU - Svetlove, Angelika
AU - Ritter, Christian O
AU - Dullin, Christian
AU - Schmid, Michael
AU - Schauer, Senta
AU - Uihlein, Johannes
AU - Uecker, Martin
AU - Mietsch, Matthias
AU - Stadelmann, Christine
AU - Lotz, Joachim
AU - Unterberg-Buchwald, Christina
N1 - © 2023. The Author(s).
PY - 2023/12/5
Y1 - 2023/12/5
N2 - Background: Diagnostic accuracy of endomyocardial biopsy could improve if clinically safe magnetic resonance (MR)-compatible bioptomes were available. We explored two novel MR-compatible cardiac bioptomes for performance, safety, and clinical viability, employing in vivo minipig trials and phase-contrast synchrotron radiation computed microtomography (SRµCT). Methods: Analysis of ex vivo obtained pig endomyocardial biopsies was performed using phase-contrast SRµCT and conventional two-dimensional histology. The technical performance was evaluated by measuring volume, inner and outer integrities, compression, and histological diagnostic value in 3 sets (6 per set) of biopsies for each experimental bioptome. The bioptomes were tested in vivo in 3 healthy minipigs per bioptome. The clinical feasibility was evaluated by procedural and cutting success as well as histological diagnostic value. Results: The bioptome with the ‘grind-grind’ design achieved similar values to control in compression (p = 0.822), inner (p = 0.628), and outer (p = 0.507), integrities ex vivo. It showed a better performance in the in vivo real-time MRI setting demonstrating a higher cutting success (91.7%) than the ‘grind-anvil’ (86.2%) design. In both ex vivo and in vivo evaluations, the ‘grind-grind’ design displayed sufficient diagnostic value (83% and 95%). The ‘grind-anvil’ design showed adequate diagnostic value both ex vivo and in vivo (78% and 87.5%) but was not comparable to control according to the three-dimensional (3D) analysis. Conclusion: A novel MR-compatible bioptome was identified as plausible in a clinical setting. Additionally, SRµCT and subsequent 3D structural analysis could be valuable in the label-free investigation of myocardial tissue at a micrometer level. Relevance statement: Implementation of MR-guided biopsy can improve animal studies on structural myocardial changes at any point in an experimental setup. With further improvements in guiding catheters, MR-guided biopsy, using the new bioptome, has a potential to increase quality and diagnostic accuracy in patients both with structural and inflammatory cardiomyopathies. Key points: • Novel MR-compatible bioptomes show promise for a clinical application. • SRµCT enabled detailed analysis of endomyocardial biopsies. • The bioptomes showed adequate in vivo performance without major complications. Graphical Abstract: [Figure not available: see fulltext.].
AB - Background: Diagnostic accuracy of endomyocardial biopsy could improve if clinically safe magnetic resonance (MR)-compatible bioptomes were available. We explored two novel MR-compatible cardiac bioptomes for performance, safety, and clinical viability, employing in vivo minipig trials and phase-contrast synchrotron radiation computed microtomography (SRµCT). Methods: Analysis of ex vivo obtained pig endomyocardial biopsies was performed using phase-contrast SRµCT and conventional two-dimensional histology. The technical performance was evaluated by measuring volume, inner and outer integrities, compression, and histological diagnostic value in 3 sets (6 per set) of biopsies for each experimental bioptome. The bioptomes were tested in vivo in 3 healthy minipigs per bioptome. The clinical feasibility was evaluated by procedural and cutting success as well as histological diagnostic value. Results: The bioptome with the ‘grind-grind’ design achieved similar values to control in compression (p = 0.822), inner (p = 0.628), and outer (p = 0.507), integrities ex vivo. It showed a better performance in the in vivo real-time MRI setting demonstrating a higher cutting success (91.7%) than the ‘grind-anvil’ (86.2%) design. In both ex vivo and in vivo evaluations, the ‘grind-grind’ design displayed sufficient diagnostic value (83% and 95%). The ‘grind-anvil’ design showed adequate diagnostic value both ex vivo and in vivo (78% and 87.5%) but was not comparable to control according to the three-dimensional (3D) analysis. Conclusion: A novel MR-compatible bioptome was identified as plausible in a clinical setting. Additionally, SRµCT and subsequent 3D structural analysis could be valuable in the label-free investigation of myocardial tissue at a micrometer level. Relevance statement: Implementation of MR-guided biopsy can improve animal studies on structural myocardial changes at any point in an experimental setup. With further improvements in guiding catheters, MR-guided biopsy, using the new bioptome, has a potential to increase quality and diagnostic accuracy in patients both with structural and inflammatory cardiomyopathies. Key points: • Novel MR-compatible bioptomes show promise for a clinical application. • SRµCT enabled detailed analysis of endomyocardial biopsies. • The bioptomes showed adequate in vivo performance without major complications. Graphical Abstract: [Figure not available: see fulltext.].
KW - Animals
KW - Humans
KW - Swine
KW - Swine, Miniature
KW - Heart/diagnostic imaging
KW - Biopsy/methods
KW - Magnetic Resonance Imaging
KW - Magnetic Resonance Spectroscopy
KW - Biopsy
KW - Synchrotrons
KW - X-ray microtomography
KW - Magnetic resonance imaging (interventional)
UR - http://www.scopus.com/inward/record.url?scp=85178478309&partnerID=8YFLogxK
U2 - 10.1186/s41747-023-00391-4
DO - 10.1186/s41747-023-00391-4
M3 - Article
C2 - 38049615
SN - 2509-9280
VL - 7
JO - European Radiology Experimental
JF - European Radiology Experimental
IS - 1
M1 - 76
ER -