Ultrasounds could be considered as a future tool for probing growing bone properties
Abstract Juvenile bone growth is well described (physiological and anatomical) but there are still lacks of knowledge on intrinsic material properties. Our group has already published, on different samples, several studies on the assessment of intrinsic material properties of juvenile bone compared...
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doaj-8754148bd96943828eb141e20d29f6222021-09-26T11:23:53ZengNature Publishing GroupScientific Reports2045-23222020-09-0110111010.1038/s41598-020-72776-zUltrasounds could be considered as a future tool for probing growing bone propertiesEmmanuelle Lefevre0Cécile Baron1Evelyne Gineyts2Yohann Bala3Hakim Gharbi4Jean-Marc Allain5Philippe Lasaygues6Martine Pithioux7Hélène Follet8Aix Marseille Univ, CNRS,ISMAix Marseille Univ, CNRS,ISMUniv Lyon, Univ Claude Bernard Lyon 1Univ Lyon, Univ Claude Bernard Lyon 1LMS, Ecole Polytechnique,CNRS, Institut Polytechnique de ParisLMS, Ecole Polytechnique,CNRS, Institut Polytechnique de ParisAix Marseille Univ., CNRS, Centrale Marseille, LMAAix Marseille Univ, CNRS,ISMUniv Lyon, Univ Claude Bernard Lyon 1Abstract Juvenile bone growth is well described (physiological and anatomical) but there are still lacks of knowledge on intrinsic material properties. Our group has already published, on different samples, several studies on the assessment of intrinsic material properties of juvenile bone compared to material properties of adult bone. The purpose of this study was finally to combine different experimental modalities available (ultrasonic measurement, micro-Computed Tomography analysis, mechanical compression tests and biochemical measurements) applied on small cubic bone samples in order to gain insight into the multiparametric evaluation of bone quality. Differences were found between juvenile and adult groups in term of architectural parameters (Porosity Separation), Tissue Mineral Density (TMD), diagonal stiffness coefficients (C33, C44, C55, C66) and ratio between immature and mature cross-links (CX). Diagonal stiffness coefficients are more representative of the microstructural and biochemical parameters of child bone than of adult bone. We also found that compression modulus E was highly correlated with several microstructure parameters and CX in children group while it was not at all correlated in the adult group. Similar results were found for the CX which was linked to several microstructure parameters (TMD and E) only in the juvenile group. To our knowledge, this is the first time that, on a same sample, ultrasonic measurements have been combined with the assessment of mechanical and biochemical properties. It appears that ultrasonic measurements can provide relevant indicators of child bone quality (microstructural and biochemical parameters) which is promising for clinical application since, B-mode ultrasound is the preferred first-line modality over other more constraining imaging modalities (radiation, parent–child accessibility and access to the patient's bed) for pediatric patients.https://doi.org/10.1038/s41598-020-72776-z |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Emmanuelle Lefevre Cécile Baron Evelyne Gineyts Yohann Bala Hakim Gharbi Jean-Marc Allain Philippe Lasaygues Martine Pithioux Hélène Follet |
spellingShingle |
Emmanuelle Lefevre Cécile Baron Evelyne Gineyts Yohann Bala Hakim Gharbi Jean-Marc Allain Philippe Lasaygues Martine Pithioux Hélène Follet Ultrasounds could be considered as a future tool for probing growing bone properties Scientific Reports |
author_facet |
Emmanuelle Lefevre Cécile Baron Evelyne Gineyts Yohann Bala Hakim Gharbi Jean-Marc Allain Philippe Lasaygues Martine Pithioux Hélène Follet |
author_sort |
Emmanuelle Lefevre |
title |
Ultrasounds could be considered as a future tool for probing growing bone properties |
title_short |
Ultrasounds could be considered as a future tool for probing growing bone properties |
title_full |
Ultrasounds could be considered as a future tool for probing growing bone properties |
title_fullStr |
Ultrasounds could be considered as a future tool for probing growing bone properties |
title_full_unstemmed |
Ultrasounds could be considered as a future tool for probing growing bone properties |
title_sort |
ultrasounds could be considered as a future tool for probing growing bone properties |
publisher |
Nature Publishing Group |
series |
Scientific Reports |
issn |
2045-2322 |
publishDate |
2020-09-01 |
description |
Abstract Juvenile bone growth is well described (physiological and anatomical) but there are still lacks of knowledge on intrinsic material properties. Our group has already published, on different samples, several studies on the assessment of intrinsic material properties of juvenile bone compared to material properties of adult bone. The purpose of this study was finally to combine different experimental modalities available (ultrasonic measurement, micro-Computed Tomography analysis, mechanical compression tests and biochemical measurements) applied on small cubic bone samples in order to gain insight into the multiparametric evaluation of bone quality. Differences were found between juvenile and adult groups in term of architectural parameters (Porosity Separation), Tissue Mineral Density (TMD), diagonal stiffness coefficients (C33, C44, C55, C66) and ratio between immature and mature cross-links (CX). Diagonal stiffness coefficients are more representative of the microstructural and biochemical parameters of child bone than of adult bone. We also found that compression modulus E was highly correlated with several microstructure parameters and CX in children group while it was not at all correlated in the adult group. Similar results were found for the CX which was linked to several microstructure parameters (TMD and E) only in the juvenile group. To our knowledge, this is the first time that, on a same sample, ultrasonic measurements have been combined with the assessment of mechanical and biochemical properties. It appears that ultrasonic measurements can provide relevant indicators of child bone quality (microstructural and biochemical parameters) which is promising for clinical application since, B-mode ultrasound is the preferred first-line modality over other more constraining imaging modalities (radiation, parent–child accessibility and access to the patient's bed) for pediatric patients. |
url |
https://doi.org/10.1038/s41598-020-72776-z |
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