Mechanical Behavior of Subcutaneous and Visceral Abdominal Adipose Tissue in Patients with Obesity

The mechanical characterization of adipose tissues is important for various medical purposes, including plastic surgery and biomechanical applications, such as computational human body models for the simulation of surgical procedures or injury prediction, for example, in the evaluation of vehicle cr...

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Published inProcesses Vol. 10; no. 9; p. 1798
Main Authors Fontanella, Chiara Giulia, Toniolo, Ilaria, Foletto, Mirto, Prevedello, Luca, Carniel, Emanuele Luigi
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.09.2022
Subjects
Abdomen
Adipose tissue
Adipose tissues
Advertising campaigns
Analysis
Biomechanics
Body fat
Care and treatment
Computer applications
Crashworthiness
Equilibrium
Experiments
Finite element method
Gastrectomy
Gastrointestinal surgery
Hardness tests
Human body
Impact strength
Indentation
Laparoscopy
Mathematical models
Mechanical analysis
Mechanical properties
Mechanical tests
Metabolism
Obesity
Optimization
Parameter identification
Patients
Physiology
Plastic surgery
Statistics
Stiffness
Surgery, Plastic
Tissues
Viscoelasticity
Italy
Online AccessGet full text
ISSN2227-9717
2227-9717
DOI10.3390/pr10091798

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Abstract The mechanical characterization of adipose tissues is important for various medical purposes, including plastic surgery and biomechanical applications, such as computational human body models for the simulation of surgical procedures or injury prediction, for example, in the evaluation of vehicle crashworthiness. In this context, the measurement of human subcutaneous adipose tissue (SAT) and visceral adipose tissue (VAT) mechanical properties in relation to subject characteristics may be really relevant. The aim of this work was to properly characterize the mechanical response of adipose tissues in patients with obesity. Then, the data were exploited to develop a reliable finite element model of the adipose tissues characterized by a constitutive material model that accounted for nonlinear elasticity and time dependence. Mechanical tests have been performed on both SAT and VAT specimens, which have been harvested from patients with severe obesity during standard laparoscopic sleeve gastrectomy intervention. The experimental campaign included indentation tests, which permitted us to obtain the initial/final indentation stiffnesses for each specimen. Statistical results revealed a higher statistical stiffness in SAT than in VAT, with an initial/final indentation stiffness of 1.65 (SD ± 0.29) N/30.30 (SD ± 20) N compared to 1.29 (SD ± 0.30) N/21.00 (SD ± 16) N. Moreover, the results showed that gender, BMI, and age did not significantly affect the stiffness. The experimental results were used in the identification of the constitutive parameters to be inserted in the constitutive material model. Such constitutive characterization of VAT and SAT mechanics can be the starting point for the future development of more accurate computational models of the human adipose tissue and, in general, of the human body for the optimization of numerous medical and biomechanical procedures and applications.
AbstractList The mechanical characterization of adipose tissues is important for various medical purposes, including plastic surgery and biomechanical applications, such as computational human body models for the simulation of surgical procedures or injury prediction, for example, in the evaluation of vehicle crashworthiness. In this context, the measurement of human subcutaneous adipose tissue (SAT) and visceral adipose tissue (VAT) mechanical properties in relation to subject characteristics may be really relevant. The aim of this work was to properly characterize the mechanical response of adipose tissues in patients with obesity. Then, the data were exploited to develop a reliable finite element model of the adipose tissues characterized by a constitutive material model that accounted for nonlinear elasticity and time dependence. Mechanical tests have been performed on both SAT and VAT specimens, which have been harvested from patients with severe obesity during standard laparoscopic sleeve gastrectomy intervention. The experimental campaign included indentation tests, which permitted us to obtain the initial/final indentation stiffnesses for each specimen. Statistical results revealed a higher statistical stiffness in SAT than in VAT, with an initial/final indentation stiffness of 1.65 (SD ± 0.29) N/30.30 (SD ± 20) N compared to 1.29 (SD ± 0.30) N/21.00 (SD ± 16) N. Moreover, the results showed that gender, BMI, and age did not significantly affect the stiffness. The experimental results were used in the identification of the constitutive parameters to be inserted in the constitutive material model. Such constitutive characterization of VAT and SAT mechanics can be the starting point for the future development of more accurate computational models of the human adipose tissue and, in general, of the human body for the optimization of numerous medical and biomechanical procedures and applications.
Audience Academic
Author Carniel, Emanuele Luigi
Foletto, Mirto
Prevedello, Luca
Toniolo, Ilaria
Fontanella, Chiara Giulia
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CitedBy_id crossref_primary_10_3390_bioengineering11010042
crossref_primary_10_3389_fbioe_2024_1412136
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Snippet The mechanical characterization of adipose tissues is important for various medical purposes, including plastic surgery and biomechanical applications, such as...
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SubjectTerms Abdomen
Adipose tissue
Adipose tissues
Advertising campaigns
Analysis
Biomechanics
Body fat
Care and treatment
Computer applications
Crashworthiness
Equilibrium
Experiments
Finite element method
Gastrectomy
Gastrointestinal surgery
Hardness tests
Human body
Impact strength
Indentation
Laparoscopy
Mathematical models
Mechanical analysis
Mechanical properties
Mechanical tests
Metabolism
Obesity
Optimization
Parameter identification
Patients
Physiology
Plastic surgery
Statistics
Stiffness
Surgery, Plastic
Tissues
Viscoelasticity
Title Mechanical Behavior of Subcutaneous and Visceral Abdominal Adipose Tissue in Patients with Obesity
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