Documentos de Doblare M. | REDI

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Mostrando 10 resultados de: 10

Subtipo de publicación

Conference Object(4)

Publisher

Computing in Cardiology(5)

Advanced Functional Materials(1)

Biofabrication(1)

Computers in Biology and Medicine(1)

IEEE Transactions on Biomedical Engineering(1)

Área temáticas

Medicina y salud(4)

Enfermedades(3)

Fisiología humana(3)

Ingeniería y operaciones afines(2)

Anatomía humana, citología, histología(1)

Área de conocimiento

Enfermedad cardiovascular(3)

Simulación por computadora(2)

Objetivos de Desarrollo Sostenible

ODS 10: Reducción de las desigualdades(6)

ODS 3: Salud y bienestar(6)

ODS 9: Industria, innovación e infraestructura(6)

Año de Publicación

Origen

Palabras Claves

Myocardial Infarction(2)

melt electrowriting(2)

Cardiac electrophysiology(1)

Human induced pluripotent stem cells(1)

In silico modeling and simulation(1)

Fabrication of human myocardium using multidimensional modelling of engineered tissues

Abstract: Biofabrication of human tissues has seen a meteoric growth triggered by recent technical advancement

Palabras claves:

computational models, hiPSC, human cardiac tissue engineering, melt electrowriting

Atienza F., de-Juan-Pardo E.M., Doblare M., Estefanía Peña, Esther Pueyo, Fernández-Avilés F., Fernández-Santos M.E., Flandes-Iparraguirre M., Gavira J.J., Iglesias-García O., Laita N., Mazo M.M., Montero-Calle P., Mountris K.A., Peña E., Prósper F., Rosales R.M., S de la Nava A.

Evaluation of a method for quantification of restitution dispersion from the surface ECG

Conference Object

Abstract: Spatial dispersion of action potential duration (APD) restitution (APDR) due to electrophysiological

Palabras claves:

Doblare M., Esther Pueyo, Minchole A., Pablo Laguna, Rodriguez-Matas J.F., Zacur E.

Image-based Cardiac Electrophysiology Simulation through the Meshfree Mixed Collocation Method

Conference Object

Abstract: State-of-the-art solvers for in silico cardiac electro-physiology employ the Finite Element Method t

Palabras claves:

Doblare M., Esther Pueyo, Mountris K.A.

In Silico Electrophysiological Evaluation of Scaffold Geometries for Cardiac Tissue Engineering

Conference Object

Abstract: Human induced pluripotent stem cell-derived car-diomyocytes (hiPSC-CMs) cultured on bio-printed scaf

Palabras claves:

Doblare M., Esther Pueyo, Mazo M.M., Mountris K.A., Rosales R.M.

Ventricular Conduction System Modeling for Electrophysiological Simulation of the Porcine Heart

Conference Object

Abstract: Depolarization sequences triggering mechanical contraction of the heart are largely determined by th

Palabras claves:

Doblare M., Esther Pueyo, Mazo M.M., Mountris K.A., Rosales R.M.

Quantification of restitution dispersion from the dynamic changes of the T-wave peak to end, measured at the surface ECG

Abstract: Action potential duration restitution (APDR) curves present spatial variations due to the electrophy

Palabras claves:

Rate adaptation, repolarization dispersion, restitution dispersion, T-wave peak to T-wave end

Doblare M., Esther Pueyo, Minchole A., Pablo Laguna, Rodriguez-Matas J.F., Zacur E.

Biologically-Inspired Melt Electrowriting for the Generation of Highly Biomimetic Functional Myocardium

Abstract: In the heart, the specific 3D structure of myocardial layers produces an efficient ejection of blood

Palabras claves:

advanced function, aligned contraction, cardiac tissue engineering, hiPSCs, melt electrowriting, Myocardial Infarction, myocardial regeneration

Andrea Sánchez-Bueno, Asier Ullate-Agote, de-Juan-Pardo E.M., Doblare M., Eduardo Larequi, Elena Iglesias, Estefanía Peña, Esther Pueyo, Flandes-Iparraguirre M., Gavira J.J., Gloria Abizanda, Iglesias-García O., Ilazki Anaut-Lusar, Laita N., Manuel García de Yébenes, Manuel M. Mazo Vega, Miguel Ángel Martínez, Montero-Calle P., Oliván-Viguera A., Patxi San Martín-Úriz, Paula Aguirre-Ruiz, Prósper F., Rosales R.M., Xabier L. Aranguren

Experimentally-guided in silico design of engineered heart tissues to improve cardiac electrical function after myocardial infarction

Abstract: Engineered heart tissues (EHTs) built from human induced pluripotent stem cell-derived cardiomyocyte

Palabras claves:

Cardiac electrophysiology, Human induced pluripotent stem cells, In silico modeling and simulation, Myocardial Infarction, Scaffold design, Tissue engineering, Ventricular assist device

Andrei Hrynevich, Doblare M., Esther Pueyo, Gerardo Cedillo-Servin, Iglesias-García O., Jos Malda, Mazo M.M., Miguel Castilho, Mountris K.A., Oliván-Viguera A., Pérez-Zabalza M., Prósper F., Rosales R.M.

Design of Engineered Heart Tissues to Minimize Arrhythmic Risk After Implantation in Infarcted Hearts

Abstract: Implantation of engineered heart tissues (EHTs) built from human induced pluripotent stem cell-deriv

Palabras claves:

Doblare M., Esther Pueyo, Mazo M.M., Rosales R.M.

In Silico Assessment of Arrhythmic Risk in Infarcted Ventricles Engrafted with Engineered Heart Tissues

Abstract: Engineered heart tissues (EHTs) from human induced pluripotent stem cell-derived cardiomyocytes (hiP

Palabras claves:

Doblare M., Esther Pueyo, Mazo M.M., Mountris K.A., Rosales R.M.