Litcius/Paper detail

Osteoporosis and Covid-19: Detected similarities in bone lacunar-level alterations via combined AI and advanced synchrotron testing

Federica Buccino, Luigi Zagra, Elena Longo, Lorenzo D’Amico, Giuseppe Banfi, Filippo Berto, Giuliana Tromba, L. Vergani

2023Materials & Design27 citationsDOIOpen Access PDF

Abstract

While advanced imaging strategies have improved the diagnosis of bone-related pathologies, early signs of bone alterations remain difficult to detect. The Covid-19 pandemic has brought attention to the need for a better understanding of bone micro-scale toughening and weakening phenomena. This study used an artificial intelligence-based tool to automatically investigate and validate four clinical hypotheses by examining osteocyte lacunae on a large scale with synchrotron image-guided failure assessment. The findings indicate that trabecular bone features exhibit intrinsic variability related to external loading, micro-scale bone characteristics affect fracture initiation and propagation, osteoporosis signs can be detected at the micro-scale through changes in osteocyte lacunar features, and Covid-19 worsens micro-scale porosities in a statistically significant manner similar to the osteoporotic condition. Incorporating these findings with existing clinical and diagnostic tools could prevent micro-scale damages from progressing into critical fractures.

Topics & Concepts

OsteocyteOsteoporosisScale (ratio)Materials scienceCoronavirus disease 2019 (COVID-19)SynchrotronBiomedical engineeringMedicinePathologyBiologyOsteoblastInfectious disease (medical specialty)BiochemistryPhysicsIn vitroDiseaseQuantum mechanicsNuclear physicsOrthopedic Infections and TreatmentsBone health and osteoporosis researchBone fractures and treatments