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Auteurs principaux: Ruffenach, Laetitia, Heintz, Dimitri, Villette, Claire, Cosentino, Charlène, Funfschilling, Denis, Bodin, Frédéric, Bahlouli, Nadia, Chatelin, Simon
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2401.14026
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author Ruffenach, Laetitia
Heintz, Dimitri
Villette, Claire
Cosentino, Charlène
Funfschilling, Denis
Bodin, Frédéric
Bahlouli, Nadia
Chatelin, Simon
author_facet Ruffenach, Laetitia
Heintz, Dimitri
Villette, Claire
Cosentino, Charlène
Funfschilling, Denis
Bodin, Frédéric
Bahlouli, Nadia
Chatelin, Simon
contents Breast implants are widely used after breast cancer resection and must be changed regularly to avoid a rupture. To date, there are no quantitative criteria to help this decision. The mechanical evolution of the gels and membranes of the implants is still under investigated, although it can lead to early rupture. In this study, 35 breast explants having been implanted in patients for up to 17 years were characterized by ex vivo measurements of their mechanical properties. Using Acoustic Radiation Force Impulse (ARFI) ultrasound elastography, an imaging method for non-destructive mechanical characterization, an increase in the stiffness of the explants has been observed. This increase was correlated with the implantation duration, primarily after 8 years of implantation. With an increase of the shear modulus of up to a factor of nearly 3, the loss of flexibility of the implants is likely to lead to a significant increase of their risk of rupture. A complementary analysis of the gel from the explants by mass spectrometry imaging (MSI) and liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS) confirms the presence of metabolites of cholesterol originating from the breast tissues, which most likely crossed the membrane of the implants and most likely degrades the gel. By observing the consequences of the physical-chemical mechanisms at work within patients, this study shows that ultrasound elastography could be used in vivo as a quantitative indicator of the risk of breast implant rupture and help diagnose their replacement.
format Preprint
id arxiv_https___arxiv_org_abs_2401_14026
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Ultrasonic elastography for the prevention of breast implant rupture: Detection of an increase with stiffness over implantation time
Ruffenach, Laetitia
Heintz, Dimitri
Villette, Claire
Cosentino, Charlène
Funfschilling, Denis
Bodin, Frédéric
Bahlouli, Nadia
Chatelin, Simon
Medical Physics
Breast implants are widely used after breast cancer resection and must be changed regularly to avoid a rupture. To date, there are no quantitative criteria to help this decision. The mechanical evolution of the gels and membranes of the implants is still under investigated, although it can lead to early rupture. In this study, 35 breast explants having been implanted in patients for up to 17 years were characterized by ex vivo measurements of their mechanical properties. Using Acoustic Radiation Force Impulse (ARFI) ultrasound elastography, an imaging method for non-destructive mechanical characterization, an increase in the stiffness of the explants has been observed. This increase was correlated with the implantation duration, primarily after 8 years of implantation. With an increase of the shear modulus of up to a factor of nearly 3, the loss of flexibility of the implants is likely to lead to a significant increase of their risk of rupture. A complementary analysis of the gel from the explants by mass spectrometry imaging (MSI) and liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS) confirms the presence of metabolites of cholesterol originating from the breast tissues, which most likely crossed the membrane of the implants and most likely degrades the gel. By observing the consequences of the physical-chemical mechanisms at work within patients, this study shows that ultrasound elastography could be used in vivo as a quantitative indicator of the risk of breast implant rupture and help diagnose their replacement.
title Ultrasonic elastography for the prevention of breast implant rupture: Detection of an increase with stiffness over implantation time
topic Medical Physics
url https://arxiv.org/abs/2401.14026