Analyse des éléments finis : Questions médicales fréquentes
Nom anglais: Finite Element Analysis
Descriptor UI:D020342
Tree Number:E05.355
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"description": "Comment l'analyse des éléments finis est-elle utilisée en diagnostic médical ?\nQuels types de maladies peuvent être analysés par cette méthode ?\nL'analyse des éléments finis peut-elle aider à prédire des fractures ?\nQuels outils sont utilisés pour l'analyse des éléments finis ?\nComment les résultats sont-ils validés en analyse des éléments finis ?",
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"@type": "Question",
"name": "Comment l'analyse des éléments finis est-elle utilisée en diagnostic médical ?",
"position": 1,
"acceptedAnswer": {
"@type": "Answer",
"text": "Elle permet de modéliser des structures biologiques pour évaluer des pathologies."
}
},
{
"@type": "Question",
"name": "Quels types de maladies peuvent être analysés par cette méthode ?",
"position": 2,
"acceptedAnswer": {
"@type": "Answer",
"text": "Des maladies musculo-squelettiques, des tumeurs et des anomalies congénitales."
}
},
{
"@type": "Question",
"name": "L'analyse des éléments finis peut-elle aider à prédire des fractures ?",
"position": 3,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle permet d'évaluer les contraintes et de prédire les points de rupture."
}
},
{
"@type": "Question",
"name": "Quels outils sont utilisés pour l'analyse des éléments finis ?",
"position": 4,
"acceptedAnswer": {
"@type": "Answer",
"text": "Des logiciels spécialisés comme ANSYS ou COMSOL Multiphysics sont couramment utilisés."
}
},
{
"@type": "Question",
"name": "Comment les résultats sont-ils validés en analyse des éléments finis ?",
"position": 5,
"acceptedAnswer": {
"@type": "Answer",
"text": "Ils sont comparés à des données expérimentales ou cliniques pour assurer leur fiabilité."
}
},
{
"@type": "Question",
"name": "Quels symptômes peuvent être modélisés par cette analyse ?",
"position": 6,
"acceptedAnswer": {
"@type": "Answer",
"text": "Des douleurs, des déformations et des limitations fonctionnelles peuvent être évaluées."
}
},
{
"@type": "Question",
"name": "L'analyse des éléments finis peut-elle simuler des douleurs chroniques ?",
"position": 7,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle peut modéliser les mécanismes de douleur dans les tissus affectés."
}
},
{
"@type": "Question",
"name": "Peut-on prédire des symptômes post-opératoires avec cette méthode ?",
"position": 8,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle aide à anticiper les complications et les douleurs après une intervention."
}
},
{
"@type": "Question",
"name": "Comment l'analyse aide-t-elle à comprendre les symptômes ?",
"position": 9,
"acceptedAnswer": {
"@type": "Answer",
"text": "Elle permet d'analyser les interactions mécaniques et leur impact sur les tissus."
}
},
{
"@type": "Question",
"name": "Quels symptômes liés aux implants peuvent être analysés ?",
"position": 10,
"acceptedAnswer": {
"@type": "Answer",
"text": "Des douleurs, des déplacements ou des échecs d'implants peuvent être modélisés."
}
},
{
"@type": "Question",
"name": "Comment l'analyse des éléments finis contribue-t-elle à la prévention ?",
"position": 11,
"acceptedAnswer": {
"@type": "Answer",
"text": "Elle permet d'identifier les zones à risque et de prévenir les blessures."
}
},
{
"@type": "Question",
"name": "Peut-on utiliser cette méthode pour prévenir des maladies ?",
"position": 12,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle aide à comprendre les mécanismes de maladies et à anticiper leur apparition."
}
},
{
"@type": "Question",
"name": "Quels types de prévention peuvent être améliorés par cette analyse ?",
"position": 13,
"acceptedAnswer": {
"@type": "Answer",
"text": "La prévention des blessures sportives et des complications post-opératoires."
}
},
{
"@type": "Question",
"name": "L'analyse peut-elle aider à concevoir des programmes de prévention ?",
"position": 14,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle permet de créer des programmes adaptés aux besoins spécifiques des patients."
}
},
{
"@type": "Question",
"name": "Comment l'analyse des éléments finis aide-t-elle en ergonomie ?",
"position": 15,
"acceptedAnswer": {
"@type": "Answer",
"text": "Elle permet d'optimiser les postes de travail pour réduire les risques de blessures."
}
},
{
"@type": "Question",
"name": "Comment l'analyse des éléments finis influence-t-elle les traitements ?",
"position": 16,
"acceptedAnswer": {
"@type": "Answer",
"text": "Elle permet de personnaliser les traitements en fonction des caractéristiques anatomiques."
}
},
{
"@type": "Question",
"name": "Peut-on simuler des traitements chirurgicaux avec cette méthode ?",
"position": 17,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle aide à planifier des interventions chirurgicales en évaluant les risques."
}
},
{
"@type": "Question",
"name": "Quels traitements peuvent bénéficier de cette analyse ?",
"position": 18,
"acceptedAnswer": {
"@type": "Answer",
"text": "Les traitements orthopédiques, dentaires et oncologiques peuvent être optimisés."
}
},
{
"@type": "Question",
"name": "L'analyse peut-elle aider à concevoir des dispositifs médicaux ?",
"position": 19,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle est essentielle pour le design et l'optimisation des dispositifs médicaux."
}
},
{
"@type": "Question",
"name": "Comment l'analyse des éléments finis aide-t-elle en réhabilitation ?",
"position": 20,
"acceptedAnswer": {
"@type": "Answer",
"text": "Elle permet d'évaluer l'efficacité des protocoles de réhabilitation sur les patients."
}
},
{
"@type": "Question",
"name": "Quelles complications peuvent être modélisées par cette méthode ?",
"position": 21,
"acceptedAnswer": {
"@type": "Answer",
"text": "Des infections, des défaillances d'implants et des douleurs chroniques peuvent être analysées."
}
},
{
"@type": "Question",
"name": "L'analyse des éléments finis peut-elle prédire des complications chirurgicales ?",
"position": 22,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle aide à évaluer les risques associés à des interventions spécifiques."
}
},
{
"@type": "Question",
"name": "Comment cette analyse aide-t-elle à gérer les complications ?",
"position": 23,
"acceptedAnswer": {
"@type": "Answer",
"text": "Elle permet de simuler des scénarios pour mieux comprendre et gérer les complications."
}
},
{
"@type": "Question",
"name": "Peut-on utiliser cette méthode pour évaluer des complications à long terme ?",
"position": 24,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle permet d'analyser les effets à long terme des traitements sur les patients."
}
},
{
"@type": "Question",
"name": "Quels types de complications peuvent être anticipés avec cette analyse ?",
"position": 25,
"acceptedAnswer": {
"@type": "Answer",
"text": "Des complications mécaniques, biologiques et fonctionnelles peuvent être anticipées."
}
},
{
"@type": "Question",
"name": "Quels facteurs de risque peuvent être identifiés par cette analyse ?",
"position": 26,
"acceptedAnswer": {
"@type": "Answer",
"text": "Des facteurs biomécaniques, génétiques et environnementaux peuvent être évalués."
}
},
{
"@type": "Question",
"name": "L'analyse des éléments finis peut-elle aider à identifier des populations à risque ?",
"position": 27,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle permet de cibler des groupes spécifiques susceptibles de développer des pathologies."
}
},
{
"@type": "Question",
"name": "Comment cette méthode aide-t-elle à comprendre les facteurs de risque ?",
"position": 28,
"acceptedAnswer": {
"@type": "Answer",
"text": "Elle modélise les interactions entre différents facteurs et leur impact sur la santé."
}
},
{
"@type": "Question",
"name": "Peut-on utiliser cette analyse pour évaluer l'impact des habitudes de vie ?",
"position": 29,
"acceptedAnswer": {
"@type": "Answer",
"text": "Oui, elle permet d'analyser comment les habitudes influencent la santé musculo-squelettique."
}
},
{
"@type": "Question",
"name": "Quels facteurs de risque liés à l'âge peuvent être modélisés ?",
"position": 30,
"acceptedAnswer": {
"@type": "Answer",
"text": "Des changements dégénératifs et des risques accrus de fractures peuvent être évalués."
}
}
]
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The purpose of this review is to summarize insights gained by finite element (FE) model-based mechanical biomarkers of bone for in vivo assessment of bone development and adaptation, fracture risk, an...
Muscle-driven FE models have been used to establish correlations between prenatal strains and morphological development. Postnatal ontogenetic studies have identified potential origins of bone fractur...
Load can change the mechanical environment of dynamic and static stable structures of the shoulder joint, increase the risk of tissue damage and affect the stability of the shoulder joint, but its bio...
Treatment of complicated acetabular fracture with internal fixation usually has high risk of failure because of unbefitting fixation. However, evaluation of the biomechanical effect of internal fixati...
A patient-specific finite element model of whole pelvis with designed internal fixators was constructed based on the tomographic digital images, in which the spring element was used to simulate the ma...
Under the combination loading of gait, the maximum difference of displacement between the left hip bone with serious injury and the right hip bone with minor injury is 0.122 mm, and the maximum stress...
The acetabular internal fixators designed by according to the anatomical feature of the acetabulum are integrated into the normal physiological stress conduction of the pelvis. The design and placemen...
To design appropriate orthosis for hallux valgus, a difficult foot condition that affects a quarter of the body's bones, we need to clarify the numerical biomechanical features, which have not been es...
A patient with moderate hallux valgus was recruited. CT imaging data in DICOM format were extracted for three-dimensional foot model reconstruction. In conjunction with the need for rapid design of bu...
The results showed that the stress concentration occurred mainly in the first metatarsal bone. The distribution trend was in the medial and lateral middle of the bone and gradually decreased to the do...
Applying detailed orthopaedic force collocation to the first metatarsal column can effectively restore the mechanics and kinematics of hallux valgus, and provide a reference for the treatment of bunio...
Septal extension graft (SEG) is an effective method to control the projection, rotation, and shape of the nasal tip. However, the structural mechanics of SEG have not yet been adequately determined....
The purpose of this study was to examine the effect of SEG parameters on nasal tip support using finite element analysis....
A multicomponent nasal model was constructed from a computed tomographic scan. A control model without graft and a total of 15 models with different SEGs were created, regarding the direction, length,...
The SEG increased the max stress, reaction force, and strain energy of the nasal tip compared to the normal control. The SEG perpendicular to the nasal dorsum resulted in the highest maximum stress, r...
The placement of SEG can strengthen the nasal tip support. The direction, length, width, and piece of SEG have an impact on the mechanics....
Diagnostic, III....
Calcified coronary lesions have been one of the more difficult types of lesion for interventional treatment, and angioplasty is required to break the calcification before stent implantation so that th...
This study aims to enhance the mechanical stability of restored molar teeth with class II occlusal-distal (OD) cavities. We seek to achieve this goal through a comprehensive investigation of three pri...
To achieve our objectives, we initiated by creating two-dimensional (2D) models of restored teeth featuring class II OD cavities, utilizing scanned and segmented images of maxillary molar teeth. We dr...
Our analysis revealed two key factors significantly influencing the mechanical resistance of treated teeth, particularly in the presence of a crack or debonding: (1) the marginal geometry of the OD ca...
The findings of this study have substantial implications for designing and restoring class II OD cavities to enhance resistance to cracks or debonding. The use of curved marginal geometries in restora...
Pulsed-field ablation (PFA) has attracted attention for the treatment of atrial fibrillation. This study aimed to further explore the relationship between the transmembrane voltage, pore radius and th...
A 3-D cardiomyocyte model with a nucleus was constructed to simulate the process of electroporation in cells under an electric field. Cell membrane electroporation was used to simulate the effect of d...
Under a single pulse with a field strength of 1 kV/cm and width of 100 μs, the transmembrane potential (TMP) of the cell membrane reached 1.33 V, and the pore density and conductivity increased rapidl...
This study simulated the electroporation process of cardiomyocyte, and provides a basis for the selection of parameters for the application of PFA for application toward arrhythmias....
The implantation of bio-degradable scaffolds is considered as a promising approach to address the repair of bone defects. This article aims to develop a computational approach to study the mechanical ...
To compare two methods of maxillary molar distalisation with skeletal anchorage using finite element analysis (FEA)....
Two digitised models were created: the miniscrew-anchored distaliser, which consisted of a distalisation method anchored in a buccal miniscrew between the first molar and second premolar (Model 1), an...
The miniscrew-anchored distaliser showed greater buccal than distal displacement of the first molar, while the opposite was observed in the miniscrew-anchored palatal appliance. The second molar respo...
FEA assumes that both appliances would promote maxillary molar distalisation. A skeletally anchored palatal distalisation force seems to provide a greater molar bodily movement with less undesirable e...
