Perfil del autor: Sanz Herrera, José Antonio
Datos institucionales
Nombre | Sanz Herrera, José Antonio |
Departamento | Mecánica de Medios Continuos y Teoría de Estructuras |
Área de conocimiento | Mecánica de Medios Continuos y Teoría de Estructuras |
Categoría profesional | Catedrático de Universidad |
Correo electrónico | Solicitar |
Estadísticas
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Nº publicaciones
39
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Nº visitas
4927
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Nº descargas
6417
Publicaciones |
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Artículo
Regularization techniques and inverse approaches in 3D Traction Force Microscopy
(Elsevier, 2024)
The conception of inverse methods in the context of Traction Force Microscopy (TFM) is influenced by multiple factors, ... |
Artículo
Quantitative atlas of collagen hydrogels reveals mesenchymal cancer cell traction adaptation to the matrix nanoarchitecture
(Elsevier, 2024)
Collagen-based hydrogels are commonly used in mechanobiology to mimic the extracellular matrix. A quantitative analysis ... |
Trabajo Fin de Máster
Elastografía: de la medida de los desplazamientos de los tejidos biológicos al diagnóstico por imagen
(2024)
Actualmente, se ha comprobado que las propiedades biomecánicas de los tejidos son parámetros fundamentales para su ... |
Artículo
A mechanobiological model for tumor spheroid evolution with application to glioblastoma: a continuum multiphysics approach
(Elsevier, 2023)
Background: Spheroids are in vitro quasi-spherical structures of cell aggregates, eventually cultured within a hydrogel ... |
Artículo
Traction force reconstruction assessment on real three-dimensional matrices and cellular morphologies
(Elsevier, 2023)
Traction force microscopy (TFM) allows to estimate tractions on the surface of cells when they mechanically interact with ... |
Artículo
An in silico study on the influence of extracellular matrix mechanics on vasculogenesis
(Elsevier, 2023)
Background and objectives: Blood vessels form a network of capillaries throughout the body that perform essential functions ... |
Artículo
A mechanobiological model for tumor spheroid evolution with application to glioblastoma: A continuum multiphysics approach
(Elsevier, 2023)
Background: Spheroids are in vitro quasi-spherical structures of cell aggregates, eventually cultured within a hydrogel ... |
Artículo
Time-Dependent Collagen Fibered Structure in the Early Distraction Callus: Imaging Characterization and Mathematical Modeling
(Biomedical Engineering Society, 2022)
Collagen is a ubiquitous protein present in regenerating bone tissues that experiences multiple biological phenomena during ... |
Artículo
Understanding glioblastoma invasion using physically-guided neural networks with internal variables
(Public Library Science, 2022)
Microfluidic capacities for both recreating and monitoring cell cultures have opened the door to the use of Data Science ... |
Artículo
Inverse method based on 3D nonlinear physically constrained minimisation in the framework of traction force microscopy
(Royal Society of Chemistry, 2021)
Traction force microscopy is a methodology that enables to estimate cellular forces from the measurement of the displacement ... |
Artículo
TFMLAB: A MATLAB toolbox for 4D traction force microscopy
(Elsevier B.V, 2021)
We present TFMLAB, a MATLAB software package for 4D (x;y;z;t) Traction Force Microscopy (TFM). While various TFM computational ... |
Artículo
Advanced in silico validation framework for three-dimensional Traction Force Microscopy and application to an in vitro model of sprouting angiogenesis
(Elsevier, 2021)
In the last decade, cellular forces in three-dimensional hydrogels that mimic the extracellular matrix have been calculated ... |
Artículo
Structural optimization of 3D-printed patient-specific ceramic scaffolds for in vivo bone regeneration in load-bearing defects
(Elsevier Ltd, 2021)
Tissue engineering has recently gained popularity as an alternative to autografts to stimulate bone tissue regeneration ... |
Trabajo Fin de Máster
Análisis cinemático de un modelo 3D de migración celular
(2021)
En el presente trabajo se ha realizado el análisis cinemático de movimientos en 3D de células individuales inmersas en un ... |
Artículo
Analysis of the parametric correlation in mathematical modeling of In vitro glioblastoma evolution using copulas
(MDPI, 2021)
Modeling and simulation are essential tools for better understanding complex biological processes, such as cancer evolution. ... |
Artículo
A multiscale data-driven approach for bone tissue biomechanics
(Elsevier, 2020)
The data-driven methodology with application to continuum mechanics relies upon two main pillars: (i) experimental ... |
Artículo
Special Issue on “Biomaterials for Bone Tissue Engineering”
(MDPI, 2020)
The present Special Issue covers recent advances in the field of tissue engineering applied to bone tissue. Bone tissue ... |
Trabajo Fin de Máster
Caracterización mecánica y modelización hiperelástica de hidrogeles de colágeno en aplicaciones de mecanobiología celular
(2020)
En la consecución de este trabajo se ha estudiado la viabilidad del empleo de tres modelos constitutivos hiperelásticos ... |
Artículo
Mathematical formulation and parametric analysis of in vitro cell models in microfuidic devices: application to diferent stages of glioblastoma evolution
(Nature Research, 2020)
In silico models and computer simulation are invaluable tools to better understand complex biological processes such as ... |
Artículo
Multiscale Characterisation of Cortical Bone Tissue
(MDPI, 2019)
Multiscale analysis has become an attractive technique to predict the behaviour of materials whose microstructure strongly ... |
Artículo
Continuum Modeling and Simulation in Bone Tissue Engineering
(MDPI, 2019)
Bone tissue engineering is currently a mature methodology from a research perspective. Moreover, modeling and simulation ... |
Artículo
Numerical investigation of the coupled mechanical behavior of self-healing materials under cyclic loading
(Elsevier, 2019)
Self-healing structural materials are recognized as a cost effective and sustainable promising alternative to traditional ... |
Artículo
Computational Multiscale Solvers for Continuum Approaches
(MDPI, 2019)
Computational multiscale analyses are currently ubiquitous in science and technology. Different problems of interest-e.g., ... |
Artículo
An unsupervised data completion method for physically-based data-driven models
(Elsevier, 2019)
Data-driven methods are an innovative model-free approach for engineering and sciences, still in process of maturation. ... |
Trabajo Fin de Grado
Implementación del modelo Concrete Damage Plasticity en el contexto del hormigón autorreparable
(2019)
En el presente documento se va a llevar a cabo un estudio en el ámbito de la mecánica de materiales y de los materiales ... |
Trabajo Fin de Máster
Desarrollo de técnicas de mallado MEF avanzadas en Traction Force Microscopy 3D
(2019)
En los últimos años, el hecho de que las fuerzas mecánicas juegan un papel central en la toma de decisiones celulares ha ... |
Artículo
Model of dissolution in the framework of tissue engineering and drug delivery
(Springer, 2018)
Dissolution phenomena are ubiquitously present in biomaterials in many different fields. Despite the advantages of ... |
Artículo
In silico dynamic characterization of the femur: Physiological versus mechanical boundary conditions
(Elsevier, 2018)
It is established that bone tissue adapts and responds to mechanical loading. Several studies have suggested an existence ... |
Artículo
In silico design of magnesium implants: Macroscopic modelling
(Elsevier, 2018)
Magnesium-based biomedical implants offer many advantages versus traditional ones although some challenges are still ... |
Artículo
A new reliability-based data-driven approach for noisy experimental data with physical constraints
(Elsevier, 2018)
Data Science has burst into simulation-based engineering sciences with an impressive impulse. However, data are never ... |
Tesis Doctoral
Modelo mecano-químico-difusivo fenomenológico de autorreparación: Implementación numérica y simulación con aplicación a materiales estructurales
(2017)
El concepto de material autorreparable, i.e. material que de forma autónoma tiene la capacidad de recuperar total o ... |
Trabajo Fin de Grado
Simulación computacional de la deformabilidad del núcleo celular
(2017)
En este proyecto se persigue desarrollar un modelo computacional del núcleo de una célula cancerosa extraída de un ... |
Trabajo Fin de Máster
Un modelo probabilístico para el cálculo estructural de sistemas mecánicos y la aplicación a la optimización de sistemas
(2016)
La necesidad imperiosa por situar la ingeniería en un contexto de escasez obliga indirectamente cada vez más al ingeniero ... |
Artículo
Cell-Biomaterial Mechanical Interaction in the Framework of Tissue Engineering: Insights, Computational Modeling and Perspectives
(MDPI, 2011)
Tissue engineering is an emerging field of research which combines the use of cell-seeded biomaterials both in vitro and/or ... |
Ponencia
Aplicación a la docencia en ingeniería de las estructuras de las nuevas metodologías adaptadas al plan de Bolonia
(Universitat d´Alacant / Universidad de Alicante, Instituto de Ciencias de la Educación, 2011)
La adaptación de los nuevos planes de estudio al Plan de Bolonia es hoy día un hecho que se está materializando en la ... |
Artículo
Fast multipole method applied to 3D frequency domain elastodynamics
(Elsevier, 2008)
This article is concerned with the formulation and implementation of a fast multipole- accelerated BEM for 3-D elastodynamics ... |
Artículo
Solución numérica para fractura en sólidos piezoeléctricos tridimensionales
(Grupo español de fractura, 2007)
En este trabajo se presenta una formulación mixta del Método de los Elementos de Contorno (MEC) para el análisis de problemas ... |
Artículo
Hypersingular BEM for Piezoelectric Solids: Formulation and Applications for FractureMechanics
(Tech Science Press, 2007)
A general mixed boundary element formulation for three-dimensional piezoelectric fracture mechanics problems is presented ... |
Artículo
El método de los elementos de contorno aplicado a mecánica de la fractura en sólidos piezoeléctricos
(Grupo español de fractura, 2006)
A classical BE approach for 3D anisotropic piezoelectric fracture mechanics problems is presented in this paper. ... |