All Stories

  1. Multi-scale modelling of arterial tissue: Linking networks of fibres to continua
  2. Data Assimilation for Mathematical Modelling of Blood Flow - A Study Interlacing CFD with MRI.
  3. Reduced models for uncertainty quantification in the cardiovascular network via domain decomposition
  4. Mechanical Characterization of the Vessel Wall by Data Assimilation of Intravascular Ultrasound Studies
  5. Bond Graph Model of Cerebral Circulation: Toward Clinically Feasible Systemic Blood Flow Simulations
  6. An efficient method for the numerical solution of blood flow in 3D bifurcated regions
  7. A data-driven approach for addressing the lack of flow waveform data in studies of cerebral arterial flow in older adults
  8. Thermodynamic analogies for the characterization of 3D human coronary arteries
  9. TCT-72 Computational fractional flow reserve derived from three-dimensional intravascular ultrasound: a new algorithm of fusion between anatomy and physiology
  10. Computer-aided quantification of microvascular networks: Application to alterations due to pathological angiogenesis in the hamster
  11. Identification of residual stresses in multi-layered arterial wall tissues using a variational framework
  12. Registration Methods for IVUS: Transversal and Longitudinal Transducer Motion Compensation
  13. Homogenization of the Navier-Stokes equations by means of the Multi-scale Virtual Power Principle
  14. Assessment of reduced-order unscented Kalman filter for parameter identification in 1-dimensional blood flow models using experimental data
  15. A head-to-head comparison between CT- and IVUS-derived coronary blood flow models
  16. Association between three-dimensional vessel geometry and the presence of atherosclerotic plaques in the left anterior descending coronary artery of high-risk patients
  17. Fast numerical method for blood flow simulation in three-dimensional arterial trees
  18. Mechanical characterization of arterial walls based on IVUS studies
  19. TCT-535 Coronary computed tomography angiography (CCTA) blood flow model, how we can improve it? Insights based on comparison with intravascular ultrasound (IVUS) tridimensional model.
  20. TCT-573 Head-to-head comparison between coronary computed tomography angiography (CCTA) and intravascular ultrasound (IVUS) tridimensional models: a geometric point of view
  21. On the search of arterial geometry heritability
  22. Roadmap for cardiovascular circulation model
  23. The method of multiscale virtual power for the derivation of a second order mechanical model
  24. Transversally enriched pipe element method (TEPEM): An effective numerical approach for blood flow modeling
  25. Cohesive surface model for fracture based on a two-scale formulation: computational implementation aspects
  26. A computational framework to characterize and compare the geometry of coronary networks
  27. Computational modeling of blood flow steal phenomena caused by subclavian stenoses
  28. Consistent treatment of viscoelastic effects at junctions in one-dimensional blood flow models
  29. Corrigendum to “On the search of more stable second-order lattice-Boltzmann schemes in confined flows” [J. Comp. Phys. 294 (2015) 605–618]
  30. A high-order local time stepping finite volume solver for one-dimensional blood flow simulations: application to the ADAN model
  31. Multiscale formulation for material failure accounting for cohesive cracks at the macro and micro scales
  32. Improving Cardiac Phase Extraction in IVUS Studies by Integration of Gating Methods
  33. A high order approximation of hyperbolic conservation laws in networks: Application to one-dimensional blood flow
  34. On the effect of preload and pre-stretch on hemodynamic simulations: an integrative approach
  35. INTEGRATED CARDIOVASCULAR AND RESPIRATORY SYSTEMS
  36. On the search of more stable second-order lattice-Boltzmann schemes in confined flows
  37. A benchmark study of numerical schemes for one-dimensional arterial blood flow modelling
  38. Three-dimensional reconstruction of coronary arteries based on the integration of intravascular ultrasound and conventional angiography
  39. An Anatomically Detailed Arterial Network Model for One-Dimensional Computational Hemodynamics
  40. A multi-scale approach to model arterial tissue
  41. An RVE-based multiscale theory of solids with micro-scale inertia and body force effects
  42. Combining Transversal and Longitudinal Registration in IVUS Studies
  43. Constructive Algorithm of Optimized Arterial Networks
  44. Hybrid element-based approximation for the Navier–Stokes equations in pipe-like domains
  45. RVE-based multiscale modeling for the Navier-Stokes equations: linking continuum and Lattice-Boltzmann models
  46. Variational Foundations and Generalized Unified Theory of RVE-Based Multiscale Models
  47. Blood flow distribution in an anatomically detailed arterial network model: criteria and algorithms
  48. A two-scale failure model for heterogeneous materials: numerical implementation based on the finite element method
  49. On the continuity of mean total normal stress in geometrical multiscale cardiovascular problems
  50. Mathematical Model of Blood Flow in an Anatomically Detailed Arterial Network of the Arm
  51. Thermomechanical Multiscale Constitutive Modeling: Accounting for Microstructural Thermal Effects
  52. A dimensionally-heterogeneous closed-loop model for the cardiovascular system and its applications
  53. A computational approach to generate concurrent arterial networks in vascular territories
  54. Failure-Oriented Multi-scale Variational Formulation: Micro-structures with nucleation and evolution of softening bands
  55. Implicit Coupling of One-Dimensional and Three-Dimensional Blood Flow Models with Compliant Vessels
  56. Mortar Coupling for Heterogeneous Partial Differential Equations
  57. A black-box decomposition approach for coupling heterogeneous components in hemodynamics simulations
  58. Software livre e de código aberto para avaliação de imagens de angiotomografia de coronárias
  59. HeMoLab – Hemodynamics Modelling Laboratory: An application for modelling the human cardiovascular system
  60. A two-level time step technique for the partitioned solution of one-dimensional arterial networks
  61. Identification of vascular territory resistances in one-dimensional hemodynamics simulations
  62. Tuning a lattice-Boltzmann model for applications in computational hemodynamics
  63. The role of the variational formulation in the dimensionally-heterogeneous modelling of the human cardiovascular system
  64. On the integration of the baroreflex control mechanism in a heterogeneous model of the cardiovascular system
  65. Algorithms for the partitioned solution of weakly coupled fluid models for cardiovascular flows
  66. Modeling dimensionally-heterogeneous problems: analysis, approximation and applications
  67. Partitioned Analysis for Dimensionally-Heterogeneous Hydraulic Networks
  68. Black-box decomposition approach for computational hemodynamics: One-dimensional models
  69. Coupled models technology in multi-scale computational haemodynamics
  70. Extended Variational Formulation for Heterogeneous Partial Differential Equations
  71. Assessing the influence of heart rate in local hemodynamics through coupled 3D-1D-0D models
  72. Sensitivity analysis in kinematically incompatible models
  73. On the potentialities of 3D–1D coupled models in hemodynamics simulations
  74. An assessment of the Gurson yield criterion by a computational multi‐scale approach
  75. Iterative strong coupling of dimensionally heterogeneous models
  76. A variational framework for fluid–solid interaction problems based on immersed domains: Theoretical bases
  77. A variational approach for coupling kinematically incompatible structural models
  78. A unified variational approach for coupling 3D–1D models and its blood flow applications
  79. Multidimensional modelling for the carotid artery blood flow
  80. Sensitivity of Blood Flow Patterns to the Constitutive Law of the Fluid