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The postnatal development of the human cardiac ventriclesKeen, Edward Norman 14 April 2020 (has links)
The name of William Harvey is imortal, and it is fitting that a quotation form his epoch-making 'De Motu Cordis et Sanguinis' should preface this thesis. the discoverer of the circulation did not fall to point out the difference between foetal and postnatal conditions of the heart and great vessels. Harvey, however, was not particularly concerned with the problems of the foetal circulation, and devoted only a passing glance to the subject, using foetal conditions to illustrate his general argument about the circulation of the blood. The subsequent progress of though on the subject of foetal circulation has been admirably set out in the first chapter of Barclay, Frankin, and Prichard's book 'The Foetal Circulation', published in 1944, but there is no doubt that the major advance since Harvey's time is represented by the cine-radiographic observations made by the authors of this book on the foetal lamb. They provided, for this species, a convincing and complete picture of the pattern of the foetal circulation, together with the change brought on by allowing the foetus to breathe and by severing the umbilical cord, thus simulating the event of birth.
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Avaliação do ventrículo direito nos pacientes com hipertensão pulmonar / Right ventricle evaluation in pulmonary hypertensionHoette, Susana 20 August 2012 (has links)
Introdução: A fração de ejeção do ventrículo direito (FEVD) é um importante fator prognóstico em pacientes com hipertensão pulmonar (HP), porém a sua medida é complicada e demorada devido à complexidade anatômica do ventrículo direito (VD). O TAPSE (Tricuspid Annular Plane Systolic Excursion) é um bom índice da FEVD, mas ele avalia apenas o componente longitudinal da contração ventricular direita. A RVFAC (Right Ventricular Fractional Area Change) parece ser um melhor índice da FEVD por incluir os componentes longitudinal e transversal da contração ventricular direita. O objetivo deste estudo foi avaliar a performance da RVFAC de acordo com a gravidade do acometimento hemodinâmico em dois grupos distintos de pacientes portadores de HP pré-capilar: hipertensão arterial pulmonar (HAP) e tromboembolismo pulmonar crônico hipertensivo (TEPCH). Métodos: 62 pacientes realizaram cateterismo cardíaco direito e ressonância magnética cardíaca em ±72h. As áreas sistóica e diastólica finais do ventrículo direito (ASFVD, ADFVD), a área diastólica final do ventrículo esquerdo (ADFVE) e o TAPSE foram medidos nas imagens de quatro cavidades. A RVFAC (ADFVD-ASFVD/ADFVD) e a relação entre as áreas diastólica finais ventriculares (ADFVD/ADFVE) foram calculadas. Os diâmetros entre as paredes livre e septal (dL-S) e antero-posterior (dA-P) do ventículo esquerdo (VE) foram medidos nas imagens em eixo curto e o índice de excentricidade do VE (IE) foi calculado (=dA-P/dL-S). A FEVD foi calculada a partir de imagens consecutivas de 6mm no eixo curto. . Resultados: A população tinha 58 anos em média, a maioria era do sexo feminino e estava em classe funcional III, 23 tinham HAP e 39 TEPCH. A FEVD apresentou correlações fracas com as medidas hemodinâmicas de sobrecarga e de função do VD. A RVFAC apresentou melhor correlação (R2=0,65, p < 0,001) do que o TAPSE (R2=0,35, p<0,001) com a FEVD e melhor capacidade para estimar FEVD<35% do que o TAPSE (TAPSE: AUC 0,73 e RVFAC: AUC 0,93, p=0,0065). Dividimos a população pela mediana da resistência vascular pulmonar (RVP) e observamos que no grupo com maior gravidade hemodinâmica essa diferença se acentuou: no grupo com RVP<8,5UW (RVFAC: R2=0,66, p<0,001 e TAPSE: R2=0,30, e p=0,002) e no grupo com RVP>8,5UW (RVFAC: R2=0,51, p<0,001 e TAPSE: R2=0,14, e p=0,041). O grupo com RVP>8,5UW apresentou maior ADFVD/ADFVE e maior IE. As correlações da RVFAC e TAPSE com FEVD foram semelhantes entre os grupos HAP e TEPCH. Conclusão: A RVFAC se correlacionou melhor com a FEVD do que o TAPSE tanto no grupo com menor como no grupo com maior gravidade hemodinâmica. No grupo com maior gravidade as correlações da RVFAC com a FEVD foram ainda mais significativas, não havendo diferenças na performance da RVFAC entre os pacientes com HAP e TEPCH. A RVFAC foi um melhor índice da FEVD talvez por incluir o movimento transversal da contração ventricular / Introduction: The right ventricular ejection fraction (RVEF) is a surrogate marker in pulmonary hypertension (PH), but its measurement is complicated and time consuming. The TAPSE (Tricuspid Annular Plane Systolic Excursion) is a good index of RVEF, though it measures only the longitudinal component of right ventricular contraction. The RVFAC (Right Ventricular Fractional Area Change) seems to be a better index of RVEF because it takes into account the longitudinal and the transversal components of right ventricular contraction. The aim of our study was to evaluate the RVFAC performance according to hemodynamic severity in two groups of patients with PH: pulmonary arterial hypertension (PAH) and chronic thromboembolic pulmonary hypertension (CTEPH). Methos: Sixty-two patients with PAH and CTEPH underwent right heart catheterization and cardiac MR in a 72-hour delay. The right and left ventricle end diastolic areas (RVEDA, LVEDA), the right ventricle end systolic area (RVESA) and TAPSE were measured in the four chamber view. The RVFAC (=RVEDARVESA/RVEDA) and the RVEDA/LVEDA relationship were calculated. The diameter between the left ventricle (LV) free wall and the septum (dF-S) and the diameter between the LV anterior and posterior walls (dA-P) were measured and the LV eccentricity index (EI) was calculated (=dA-P/dF-S). The RVEF was calculated by using 6 mm RV short axis cines. Results: The population had mean age of 58 years with female majority, most of the patients were in functional class III, 23 had PAH and 39 CTEPH. The RVEF was weakly correlated to the hemodynamic variables of RV afterload and function. The RVFAC was more strongly correlated to RVEF (R2=0.65, p<0.001) than TAPSE (R2=0.35, p<0.001). RVEF<35% was better predicted by RVFAC than TAPSE (TAPSE: AUC 0.73 and RVFAC: AUC 0.93, p=0.0065). We divided the population by the median of the pulmonary vascular resistance (PVR) and we observed that in the group with worse hemodynamic severity this difference increased: in the group with PVR<8,5WU (RVFAC: R2=0.66, p<0.001 and TAPSE: R2=0.30, p=0.002) and in the group with PVR>8,5 WU (RVFAC: R2=0.51, p<0.001 and TAPSE: R2=0.14, p=0.041). The group with PVR>8,5WU had an increased RVEDA/LVEDA and an increased EI. There was no differences in the RVEF relationships between the groups of PAH and CETPH. Conclusion: The RVFAC was better correlated to RVEF than TAPSE in the groups with less severe and more severe hemodynamics. In patients with increased hemodynamic severity RVFAC perfomed even better, there was no difference in the performance of RVFAC in PAH or CTEPH. RVFAC was a better index of RVEF possibly because it takes into account the transversal component of right ventricular function
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Corrélation entre les donnés de l`imagerie par résonance magnetique (IRM) cardiaque et le cathétérisme droit dans l`hypertension artérielle pulmonaire (HTAP) / Avaliação do ventrículo direito nos pacientes com hipertensão pulmonar / Right ventricle evaluation in pulmonary hypertensionHoette, Susana 20 August 2012 (has links)
La fraction d'éjection du ventricule droit (FEVD) est un marqueur de survie en cas d'hypertension pulmonaire (PH), mais sa mesure est compliquée et fastidieuse. Le TAPSE (Tricuspid Annular Plane Systolic Excursion) est un bon indice de la FEVD mais il ne mesure que la composante longitudinale de la contraction ventriculaire droite. La fraction de variation surfacique du ventricule droit RVFAC (Right Ventricular Fractional Area Change) semble être un meilleur indice de FEVD car il prend en compte le sens longitudinal et transversal des éléments de la contraction du ventricule droit. Le but de notre étude était d'évaluer la performance RVFAC fonction de la sévérité hémodynamique chez les deux groupes de patients atteints de PH:l'hypertension artérielle pulmonaire (HAP) et l'hypertension pulmonaire thromboembolique chronique (CTEPH).Methodes: Soixante-deux patients atteints d'HTAP et CTEPH ont bénéficié d’un cathétérisme cardiaque droit et d’une IRM cardiaque dans un délai de 72 heures. Les surfaces ventriculaires droite et gauche a la fin de la diastole (RVEDA, LVEDA), la surface du ventricule droit a la fin da la systole (RVESA) et TAPSE ont été mesurés dans la vue quatre cavités. Le RVFAC (RVFAC=RVEDA-RVESA/RVEDA) et le rapport RVEDA/LVEDA ont été calculés. Le diamètre entre la paroi libre et le septum (DF-S) et le diamètre entre les parois antérieure et postérieures du ventricule gauche (DA-P) ont été mesurés et l'indice d’excentricité LV (IE) a été calculé (= DA-P / DF-S). Le RVEF a été calculée à l'aide de coupes jointives de 6 mm en petit axe du ventricule droit.Résultats: La population avait un âge moyen de 58 ans avec une majorité des femmes, la plupart des patients étaient en classe fonctionnelle III, 23 avaient des HAP) et 39 des CTEPH. La RVEF était faiblement corrélée aux variables hémodynamiques de la post-charge et de la fonction VD. Le RVFAC était plus fortement corrélée à FEVD (R2 = 0,65, p <0,001) que TAPSE (R2 = 0,35, p <0,001). Une FEVD <35% était mieux prédite par un RVFAC bas que par une diminution de TAPSE (TAPSE: AUC 0,73 et RVFAC: AUC 0,93, p = 0,0065). Nous avons divisé la population par la médiane de la résistance artérielle pulmonaire (RAP) et nous avons observé que dans le groupe avec la pire sévérité hémodynamique, cette différence a augmenté: dans le groupe avec PVR < 8,5 UW (RVFAC: R2 = 0,66, p <0,001 et TAPSE: R2 = 0,30, p =0,002) et dans le groupe avec PVR > 8,5 UW (RVFAC: R2 = 0,51, p <0,001 et TAPSE: R2 = 0,14, p = 0,041). Le groupe avec PVR> 8,5 WU avait un rapport RVEDA/LVEDA augmenté et une augmentation de l`indice excentricité. Les relations RVEF-RVFAC n’étaient pas différentes entre les groupes de HAP et CETPH.Conclusion: La fraction de variation surfacique du ventricule droit RVFAC fournit un reflet simple et fiable de la FEVD peut-être parce que contrairement à TAPSE qui ne prend en compte que le raccourcissement longitudinal, RFVAC prend également en compte la composante transversale de la fonction ventriculaire droite. / The right ventricular ejection fraction (RVEF) is a surrogate marker in pulmonary hypertension (PH), but its measurement is complicated and time consuming. The TAPSE (Tricuspid Annular Plane Systolic Excursion) is a good index of RVEF, though it measures only the longitudinal component of right ventricular contraction. The RVFAC (Right Ventricular Fractional Area Change) seems to be a better index of RVEF because it takes into account the longitudinal and the transversal components of right ventricular contraction. The aim of our study was to evaluate the RVFAC performance according to hemodynamic severity in two groups of patients with PH: pulmonary arterial hypertension (PAH) and chronic thromboembolicpulmonary hypertension (CTEPH).Methos: Sixty-two patients with PAH and CTEPH underwent right heart catheterization and cardiac MR in a 72-hour delay. The right and left ventricle end diastolic areas (RVEDA, LVEDA), the right ventricle end systolic area (RVESA) and TAPSE were measured in the four chamber view. The RVFAC (RVFAC=RVEDA–RVESA/RVEDA) and the RVEDA/LVEDA relationship werecalculated. The diameter between the left ventricle (LV) free wall and the septum (dL-S) and the diameter between the anterior and posterior walls (dAP) were measured and the LV eccentricity index (EI) was calculated (EI=dAP/dL-S). The RVEF was calculated by using 6 mm RV short axis cines.Results: The population had mean age of 58 years with female majority, most of the patients were in functional class III, 23 had pulmonary arterial hypertension (PAH) and 39 had chronic thromboembolic pulmonary hypertension (CTEPH). The RVEF was weakly correlated to the hemodynamic variables of RV afterload and function. The RVFAC was morestrongly correlated to RVEF (R2=0.65, p<0.001) than TAPSE (R2=0.35, p<0.001). RVEF<35% was better predicted by RVFAC than TAPSE (TAPSE: AUC 0.73 and RVFAC: AUC 0.93, p=0.0065). We divided the population by the median of the pulmonary vascular resistance (PVR) and we observed that in the group with worse hemodynamic severity this difference increased: inthe group with PVR<8,5WU (RVFAC: R2=0.66, p<0.001 and TAPSE: R2=0.30, p=0.002) and in the group with PVR>8,5 WU (RVFAC: R2=0.51, p<0.001 and TAPSE: R2=0.14, p=0.041). The group with PVR>8,5WU had an increased RVEDA/LVEDA and an increased EI. There was no differences in the RVEF relationships between the groups of PAH and CETPH.Conclusion: The RVFAC was better correlated to RVEF than TAPSE in the groups with less severe and more severe hemodynamics. In patients with increased hemodynamic severity, with no difference in the performance in theHAP or CTEPH groups. RVFAC was a better index of RVEF possibly because it takes into account the transversal component of right ventricular function.
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Avaliação do ventrículo direito nos pacientes com hipertensão pulmonar / Right ventricle evaluation in pulmonary hypertensionSusana Hoette 20 August 2012 (has links)
Introdução: A fração de ejeção do ventrículo direito (FEVD) é um importante fator prognóstico em pacientes com hipertensão pulmonar (HP), porém a sua medida é complicada e demorada devido à complexidade anatômica do ventrículo direito (VD). O TAPSE (Tricuspid Annular Plane Systolic Excursion) é um bom índice da FEVD, mas ele avalia apenas o componente longitudinal da contração ventricular direita. A RVFAC (Right Ventricular Fractional Area Change) parece ser um melhor índice da FEVD por incluir os componentes longitudinal e transversal da contração ventricular direita. O objetivo deste estudo foi avaliar a performance da RVFAC de acordo com a gravidade do acometimento hemodinâmico em dois grupos distintos de pacientes portadores de HP pré-capilar: hipertensão arterial pulmonar (HAP) e tromboembolismo pulmonar crônico hipertensivo (TEPCH). Métodos: 62 pacientes realizaram cateterismo cardíaco direito e ressonância magnética cardíaca em ±72h. As áreas sistóica e diastólica finais do ventrículo direito (ASFVD, ADFVD), a área diastólica final do ventrículo esquerdo (ADFVE) e o TAPSE foram medidos nas imagens de quatro cavidades. A RVFAC (ADFVD-ASFVD/ADFVD) e a relação entre as áreas diastólica finais ventriculares (ADFVD/ADFVE) foram calculadas. Os diâmetros entre as paredes livre e septal (dL-S) e antero-posterior (dA-P) do ventículo esquerdo (VE) foram medidos nas imagens em eixo curto e o índice de excentricidade do VE (IE) foi calculado (=dA-P/dL-S). A FEVD foi calculada a partir de imagens consecutivas de 6mm no eixo curto. . Resultados: A população tinha 58 anos em média, a maioria era do sexo feminino e estava em classe funcional III, 23 tinham HAP e 39 TEPCH. A FEVD apresentou correlações fracas com as medidas hemodinâmicas de sobrecarga e de função do VD. A RVFAC apresentou melhor correlação (R2=0,65, p < 0,001) do que o TAPSE (R2=0,35, p<0,001) com a FEVD e melhor capacidade para estimar FEVD<35% do que o TAPSE (TAPSE: AUC 0,73 e RVFAC: AUC 0,93, p=0,0065). Dividimos a população pela mediana da resistência vascular pulmonar (RVP) e observamos que no grupo com maior gravidade hemodinâmica essa diferença se acentuou: no grupo com RVP<8,5UW (RVFAC: R2=0,66, p<0,001 e TAPSE: R2=0,30, e p=0,002) e no grupo com RVP>8,5UW (RVFAC: R2=0,51, p<0,001 e TAPSE: R2=0,14, e p=0,041). O grupo com RVP>8,5UW apresentou maior ADFVD/ADFVE e maior IE. As correlações da RVFAC e TAPSE com FEVD foram semelhantes entre os grupos HAP e TEPCH. Conclusão: A RVFAC se correlacionou melhor com a FEVD do que o TAPSE tanto no grupo com menor como no grupo com maior gravidade hemodinâmica. No grupo com maior gravidade as correlações da RVFAC com a FEVD foram ainda mais significativas, não havendo diferenças na performance da RVFAC entre os pacientes com HAP e TEPCH. A RVFAC foi um melhor índice da FEVD talvez por incluir o movimento transversal da contração ventricular / Introduction: The right ventricular ejection fraction (RVEF) is a surrogate marker in pulmonary hypertension (PH), but its measurement is complicated and time consuming. The TAPSE (Tricuspid Annular Plane Systolic Excursion) is a good index of RVEF, though it measures only the longitudinal component of right ventricular contraction. The RVFAC (Right Ventricular Fractional Area Change) seems to be a better index of RVEF because it takes into account the longitudinal and the transversal components of right ventricular contraction. The aim of our study was to evaluate the RVFAC performance according to hemodynamic severity in two groups of patients with PH: pulmonary arterial hypertension (PAH) and chronic thromboembolic pulmonary hypertension (CTEPH). Methos: Sixty-two patients with PAH and CTEPH underwent right heart catheterization and cardiac MR in a 72-hour delay. The right and left ventricle end diastolic areas (RVEDA, LVEDA), the right ventricle end systolic area (RVESA) and TAPSE were measured in the four chamber view. The RVFAC (=RVEDARVESA/RVEDA) and the RVEDA/LVEDA relationship were calculated. The diameter between the left ventricle (LV) free wall and the septum (dF-S) and the diameter between the LV anterior and posterior walls (dA-P) were measured and the LV eccentricity index (EI) was calculated (=dA-P/dF-S). The RVEF was calculated by using 6 mm RV short axis cines. Results: The population had mean age of 58 years with female majority, most of the patients were in functional class III, 23 had PAH and 39 CTEPH. The RVEF was weakly correlated to the hemodynamic variables of RV afterload and function. The RVFAC was more strongly correlated to RVEF (R2=0.65, p<0.001) than TAPSE (R2=0.35, p<0.001). RVEF<35% was better predicted by RVFAC than TAPSE (TAPSE: AUC 0.73 and RVFAC: AUC 0.93, p=0.0065). We divided the population by the median of the pulmonary vascular resistance (PVR) and we observed that in the group with worse hemodynamic severity this difference increased: in the group with PVR<8,5WU (RVFAC: R2=0.66, p<0.001 and TAPSE: R2=0.30, p=0.002) and in the group with PVR>8,5 WU (RVFAC: R2=0.51, p<0.001 and TAPSE: R2=0.14, p=0.041). The group with PVR>8,5WU had an increased RVEDA/LVEDA and an increased EI. There was no differences in the RVEF relationships between the groups of PAH and CETPH. Conclusion: The RVFAC was better correlated to RVEF than TAPSE in the groups with less severe and more severe hemodynamics. In patients with increased hemodynamic severity RVFAC perfomed even better, there was no difference in the performance of RVFAC in PAH or CTEPH. RVFAC was a better index of RVEF possibly because it takes into account the transversal component of right ventricular function
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Multiscale Modeling and Simulation of Human Heart FailureGómez García, Juan Francisco 29 June 2015 (has links)
Tesis por compendio / [EN] Heart failure (HF) constitutes a major public health problem worldwide. Operationally it is defined as a clinical syndrome characterized by the marked and progressive inability of the ventricles to fill and generate adequate cardiac output to meet the demands of cellular metabolism that may have significant variability in its etiology and it is the final common pathway of various cardiac pathologies. Much attention has been paid to the understanding of the arrhythmogenic mechanisms induced by the structural, electrical, and metabolic remodeling of the failing heart. Due to the complexity of the electrophysiological changes that may occur during heart failure, the scientific literature is complex and sometimes equivocal. Nevertheless, a number of common features of failing hearts have been documented. At the cellular level, prolongation of the action potential (AP) involving ion channel remodeling and alterations in calcium handling have been established as the hallmark characteristics of myocytes isolated from failing hearts. At the tissue level, intercellular uncoupling and fibrosis are identified as major arrhythmogenic factors.
In this Thesis a computational model for cellular heart failure was proposed using a modified version of Grandi et al. model for human ventricular action potential that incorporates the formulation of the late sodium current (INaL) in order to study the arrhythmogenic processes due to failing phenotype. Experimental data from several sources were used to validate the model. Due to extensive literature in the subject a sensitivity analysis was performed to assess the influence of main ionic currents and parameters upon most related biomarkers. In addition, multiscale simulations were carried out to characterize this pathology (transmural cardiac fibres and tissues).
The proposed model for the human INaL and the electrophysiological remodeling of myocytes from failing hearts accurately reproduce experimental observations. An enhanced INaL appears to be an important contributor to the electrophysiological phenotype and to the dysregulation of calcium homeostasis of failing myocytes. Our strand simulation results illustrate how the presence of M cells and heterogeneous electrophysiological remodeling in the human failing ventricle modulate the dispersion of action potential duration (APD) and repolarization time (RT). Conduction velocity (CV) and the safety factor for conduction (SF) were also reduced by the progressive structural remodeling during heart failure. In our transmural ventricular tissue simulations, no reentry was observed in normal conditions or in the presence of HF ionic remodeling. However, defined amount of fibrosis and/or cellular uncoupling were sufficient to elicit reentrant activity. Under conditions where reentry was generated, HF electrophysiological remodeling did not alter the width of the vulnerable window (VW). However, intermediate fibrosis and cellular uncoupling significantly widened the VW.
In conclusion, enhanced fibrosis in failing hearts, as well as reduced intercellular coupling, combine to increase electrophysiological gradients and reduce electrical propagation. In that sense, structural remodeling is a key factor in the genesis of vulnerability to reentry, mainly at intermediates levels of fibrosis and intercellular uncoupling. / [ES] La insuficiencia cardíaca (IC) constituye un importante problema de salud pública en todo el mundo. Operacionalmente se define como un síndrome clínico caracterizado por la incapacidad marcada y progresiva de los ventrículos para llenar y generar gasto cardíaco adecuado para satisfacer las demandas del metabolismo celular, que puede tener una variabilidad significativa en su etiología y es la vía final común de varias patologías cardíacas. Se ha prestado mucha atención a la comprensión de los mecanismos arritmogénicos inducidos por la remodelación estructural, eléctrica, y metabólica del corazón afectado de IC. Debido a la complejidad de los cambios electrofisiológicos que pueden ocurrir durante la IC, la literatura científica es compleja y, a veces equívoca. Sin embargo, se han documentado una serie de características comunes en corazones afectados de IC. A nivel celular, se han establecido como las características distintivas de los miocitos aislados de corazones afectados de IC la prolongación del potencial de acción (PA), que implica la remodelación de los canales iónicos y las alteraciones en la dinámica del calcio. A nivel de los tejidos, el desacoplamiento intercelular y la fibrosis se identifican como los principales factores arritmogénicos.
En esta tesis se propuso un modelo celular computacional para la insuficiencia cardíaca utilizando una versión modificada del modelo de potencial de acción ventricular humano de Grandi y colaboradores que incorpora la formulación de la corriente tardía de sodio (INaL) con el fin de estudiar los procesos arritmogénicas debido al fenotipo de la IC. Los datos experimentales de varias fuentes se utilizaron para validar el modelo. Debido a la extensa literatura en la temática se realizó un análisis de sensibilidad para evaluar la influencia de las principales corrientes iónicas y los parámetros sobre los biomarcadores relacionados. Además, se llevaron a cabo simulaciones multiescala para caracterizar esta patología (en fibras y tejidos transmurales).
El modelo propuesto para la corriente tardía de sodio y la remodelación electrofisiológica de los miocitos de corazones afectados de IC reprodujeron con precisión las observaciones experimentales. Una INaL incrementada parece ser un importante contribuyente al fenotipo electrofisiológico y la desregulación de la homeostasis del calcio de los miocitos afectados de IC. Nuestros resultados de la simulaciones en fibra ilustran cómo la presencia de células M y el remodelado electrofisiológico heterogéneo en el ventrículo humano afectado de IC modulan la dispersión de la duración potencial de acción (DPA) y el tiempo de repolarización (TR). La velocidad de conducción (VC) y el factor de seguridad para la conducción (FS) también se redujeron en la remodelación estructural progresiva durante la insuficiencia cardíaca. En nuestras simulaciones transmurales de tejido ventricular, no se observó reentrada en condiciones normales o en presencia de la remodelación iónica de la IC. Sin embargo, determinadas cantidades de fibrosis y / o desacoplamiento celular eran suficientes para provocar la actividad reentrante. En condiciones donde se había generado la reentrada, el remodelado electrofisiológico de la IC no alteró la anchura de la ventana vulnerable (VV). Sin embargo, niveles intermedios de fibrosis y el desacoplamiento celular ampliaron significativamente la VV.
En conclusión, niveles elevados de fibrosis en corazones afectados de IC, así como la reducción de acoplamiento intercelular, se combinan para aumentar los gradientes electrofisiológicos y reducir la propagación eléctrica. En ese sentido, la remodelación estructural es un factor clave en la génesis de la vulnerabilidad a las reentradas, principalmente en niveles intermedios de fibrosis y desacoplamiento intercelular. El remodelado electrofisiológico promueve la arritmogénesis y puede ser alterado dependi / [CA] La insuficiència cardíaca (IC) constitueix un important problema de salut pública arreu del món. A efectes pràctics, es defineix com una síndrome clínica caracteritzada per la incapacitat marcada i progressiva dels ventricles per omplir i generar el cabal cardíac adequat, per tal de satisfer les demandes del metabolisme cel·lular, el qual pot tenir una variabilitat significativa en la seua etiologia i és la via final comuna de diverses patologies cardíaques. S'ha prestat molta atenció a la comprensió dels mecanismes aritmogènics induïts per la remodelació estructural, elèctrica, i metabòlica del cor afectat d'IC. A causa de la complexitat dels canvis electrofisiològics que poden ocórrer durant la IC, trobem que la literatura científica és complexa i, de vegades, equívoca. No obstant això, s'han documentat una sèrie de característiques comunes en cors afectats d'IC. A nivell cel·lular, com característiques distintives dels miòcits aïllats de cors afectats d'IC, s'han establert la prolongació del potencial d'acció (PA), que implica la remodelació dels canals iònics, i les alteracions en la dinàmica del calci. A nivell dels teixits, el desacoblament intercel·lular i la fibrosi s'identifiquen com els principals factors aritmogènics.
Per tal d'estudiar els processos aritmogènics a causa del fenotip de la IC, es va proposar un model cel·lular computacional d'IC utilitzant una versió modificada del model de potencial d'acció ventricular humà de Grandi i els seus col·laboradors, el qual incorpora la formulació del corrent de sodi tardà (INaL). Amb l'objectiu de validar el model es van utilitzar dades experimentals de diverses fonts. A causa de l'extensa literatura en la temàtica, es va realitzar una anàlisi de sensibilitat per tal d'avaluar la influència de les principals corrents iòniques i els paràmetres sobre els biomarcadors relacionats. A més, es van dur a terme simulacions multiescala per a la caracterització d'aquesta patología (fibres i teixits transmurals).
El model proposat per al corrent de sodi tardà i la remodelació electrofisiològica dels miòcits de cors afectats d'IC van reproduir amb precisió les observacions experimentals. Una INaL incrementada sembla contribuir de manera important al fenotip electrofisiològic i a la desregulació de l'homeòstasi del calci dels miòcits afectats d'IC. Els resultats de les nostres simulacions en fibra indiquen que la presència de cèl·lules M i el remodelat electrofisiològic heterogeni en el ventricle humà afectat d'IC modulen la dispersió de la durada del potencial d'acció (DPA) i el temps de repolarització (TR). La velocitat de conducció (VC) i el factor de seguretat per a la conducció (FS) també es van reduir en la remodelació estructural progressiva durant la IC. A les nostres simulacions transmurals de teixit ventricular, no s'observà cap reentrada ni en condicions normals ni en presència de la remodelació iònica de la IC. No obstant això, amb determinades quantitats de fibrosi i/o desacoblament cel·lular sí que es provocà l'activitat reentrant. I amb les condicions que produïren la reentrada, el remodelat electrofisiològic de la IC no va alterar l'amplada de la finestra vulnerable (FV). Tanmateix, nivells intermedis de fibrosi i el desacoblament cel·lular sí que ampliaren significativament la FV.
En conclusió, nivells elevats de fibrosi en cors afectats d'IC, així com la reducció d'acoblament intercel·lular, es combinen per augmentar els gradients electrofisiològics i reduir la propagació elèctrica. Per tant, la remodelació estructural és un factor clau en la gènesi de la vulnerabilitat a les reentrades, principalment en nivells intermedis de fibrosi i desacoblament intercel·lular. / Gómez García, JF. (2015). Multiscale Modeling and Simulation of Human Heart Failure [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/52389 / Compendio
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Regeneration of Cryoinjury Induced Necrotic Heart Lesions in Zebrafish Is Associated with Epicardial Activation and Cardiomyocyte ProliferationWeidinger, Gilbert, Schnabel, Kristin, Wu, Chi-Chung, Kurth, Thomas 07 January 2016 (has links) (PDF)
In mammals, myocardial cell death due to infarction results in scar formation and little regenerative response. In contrast, zebrafish have a high capacity to regenerate the heart after surgical resection of myocardial tissue. However, whether zebrafish can also regenerate lesions caused by cell death has not been tested. Here, we present a simple method for induction of necrotic lesions in the adult zebrafish heart based on cryoinjury. Despite widespread tissue death and loss of cardiomyocytes caused by these lesions, zebrafish display a robust regenerative response, which results in substantial clearing of the necrotic tissue and little scar formation. The cellular mechanisms underlying regeneration appear to be similar to those activated in response to ventricular resection. In particular, the epicardium activates a developmental gene program, proliferates and covers the lesion. Concomitantly, mature uninjured cardiomyocytes become proliferative and invade the lesion. Our injury model will be a useful tool to study the molecular mechanisms of natural heart regeneration in response to necrotic cell death.
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Regeneration of Cryoinjury Induced Necrotic Heart Lesions in Zebrafish Is Associated with Epicardial Activation and Cardiomyocyte ProliferationWeidinger, Gilbert, Schnabel, Kristin, Wu, Chi-Chung, Kurth, Thomas 07 January 2016 (has links)
In mammals, myocardial cell death due to infarction results in scar formation and little regenerative response. In contrast, zebrafish have a high capacity to regenerate the heart after surgical resection of myocardial tissue. However, whether zebrafish can also regenerate lesions caused by cell death has not been tested. Here, we present a simple method for induction of necrotic lesions in the adult zebrafish heart based on cryoinjury. Despite widespread tissue death and loss of cardiomyocytes caused by these lesions, zebrafish display a robust regenerative response, which results in substantial clearing of the necrotic tissue and little scar formation. The cellular mechanisms underlying regeneration appear to be similar to those activated in response to ventricular resection. In particular, the epicardium activates a developmental gene program, proliferates and covers the lesion. Concomitantly, mature uninjured cardiomyocytes become proliferative and invade the lesion. Our injury model will be a useful tool to study the molecular mechanisms of natural heart regeneration in response to necrotic cell death.
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