Caractéristiques et origine fonctionnelle des propriétés fréquentielles du noeud auriculoventriculaire

Tadros, Rafik

06 1900

Le nœud auriculoventriculaire (AV) joue un rôle vital dans le cœur normal et pathologique. Il connecte les oreillettes aux ventricules et, grâce à sa conduction lente, génère un délai entre les contractions auriculaire et ventriculaire permettant d’optimiser le pompage sanguin. Sa conduction lente et sa longue période réfractaire font du nœud AV un filtre d’impulsions auriculaires lors de tachyarythmies assurant ainsi une fréquence ventriculaire plus lente favorable au débit cardiaque. L’optimisation de ce filtrage est une cible dans le traitement de ces arythmies. Malgré ce rôle vital et de nombreuses études, le nœud AV demeure l’objet de plusieurs controverses qui en rendent la compréhension laborieuse. Nos études expérimentales sur des préparations isolées de cœurs de lapin visent à apporter des solutions à certains des problèmes qui limitent la compréhension des propriétés fréquentielles du nœud AV. Le premier problème concerne la définition de la propriété de récupération nodale. On s’accorde généralement sur la dépendance du temps de conduction nodale (intervalle auriculo-Hissien, AH) du temps de récupération qui le précède mais un débat presque centenaire persiste sur la façon de mesurer ce temps de récupération. Selon que l’on utilise à cette fin la longueur du cycle auriculaire (AA) ou l’intervalle His-auriculaire précédent (HA), la même réponse nodale montre des caractéristiques différentes, un paradoxe à ce jour inexpliqué. Le temps de conduction nodale augmente aussi avec le degré et la durée d'une fréquence rapide, un phénomène appelé fatigue. Or, les caractéristiques de la fatigue mesurée varient avec l’indice de récupération utilisé (AA vs. HA). De plus, une troisième propriété appelée facilitation qui entraîne un raccourcissement du temps de conduction diffère aussi avec l’indice de récupération utilisé. Pour établir l’origine de ce problème, nous avons déterminé les différences entre les courbes de récupération (AH compilé en fonction du AA ou HA) pour 30 états fonctionnels nodaux différents. Ces conditions étaient obtenues à l’aide de protocoles permettant la variation du cycle de base (BCL) et du cycle prétest (PTCL), deux paramètres connus pour altérer la fonction nodale. Nous avons pu établir que pour chaque état fonctionnel, la forme de la courbe de récupération et le niveau de fatigue étaient les mêmes pour les deux indices de récupération. Ceci s’applique aussi aux données obtenues à des BCL et PTCL égaux comme dans les protocoles de stimulation prématurée conventionnels couramment utilisés. Nos résultats ont établi pour la première fois que les propriétés nodales de récupération et de fatigue sont indépendantes de l’indice de récupération utilisé. Nos données montrent aussi que les différences entre les courbes de récupération en fonction de l’indice utilisé proviennent d’effets associés aux variations du PTCL. Notre deuxième étude établit à partir des mêmes données pourquoi les variations du PTCL altèrent différemment les courbes de récupération selon l’indice utilisé. Nous avons démontré que ces différences augmentaient en proportion directe avec l’augmentation du temps de conduction au battement prétest. Cette augmentation cause un déplacement systématique de la courbe construite avec l’intervalle AA vers la droite et de celle construite avec l’intervalle HA vers la gauche. Ce résultat met en évidence l’importance de tenir compte des changements du temps de conduction prétest dans l’évaluation de la fonction nodale, un paramètre négligé dans la plupart des études. Ce résultat montre aussi que chacun des deux indices a des limites dans sa capacité d’évaluer le temps de récupération nodale réel lorsque le temps de conduction prétest varie. Lorsque ces limites sont ignorées, comme c’est habituellement le cas, elles entraînent un biais dans l’évaluation des effets de fatigue et de facilitation. Une autre grande difficulté dans l’évaluation des propriétés fréquentielles du nœud AV concerne son état réfractaire. Deux indices sont utilisés pour évaluer la durée de la période réfractaire nodale. Le premier est la période réfractaire efficace (ERPN) définie comme l’intervalle AA le plus long qui n’est pas conduit par le nœud. Le deuxième est la période réfractaire fonctionnelle (FRPN) qui correspond à l’intervalle minimum entre deux activations mesurées à la sortie du nœud. Paradoxalement et pour des raisons obscures, l’ERPN augmente alors que la FRPN diminue avec l’augmentation de la fréquence cardiaque. De plus, ces effets varient grandement avec les sujets, les espèces et l’âge. À partir des mêmes données que pour les deux autres études, nous avons cherché dans la troisième étude l’origine des variations fréquentielles de l’ERPN et de la FRPN. Le raccourcissement du BCL prolonge l’ERPN mais n’affecte pas la FRPN. L’allongement de l’ERPN provient principalement d’un allongement du temps de conduction prétest. Un PTCL court en comparaison avec un BCL court allonge encore plus substantiellement le temps de conduction prétest mais raccourcit en même temps l’intervalle His-auriculaire, ces deux effets opposés s’additionnent pour produire un allongement net de l’ERPN. Le raccourcissement de l’intervalle His-auriculaire par le PTCL court est aussi entièrement responsable pour le raccourcissement de la FRPN. Nous avons aussi établi que, lorsque la composante du temps de conduction prétest est retirée de l’ERPN, un lien linéaire existe entre la FRPN et l’ERPN à cause de leur dépendance commune de l’intervalle His-auriculaire. Le raccourcissement combiné du BCL et du PTCL produit des effets nets prévisibles à partir de leurs effets individuels. Ces effets reproduisent ceux obtenus lors de protocoles prématurés conventionnels. Ces observations supportent un nouveau schème fonctionnel des variations fréquentielles de l’ERPN et de la FRPN à partir des effets distincts du BCL et du PTCL. Elles établissent aussi un nouveau lien entre les variations fréquentielles de l’ERPN et de la FRPN. En conclusion, la modulation fréquentielle de la fonction du nœud AV provient de la combinaison d’effets concurrents cumulatifs liés au cycle de base et non-cumulatifs liés au cycle prétest. Ces effets peuvent être interprétés de façon consistante indépendamment de l’indice de récupération en tenant compte des changements du temps de conduction au battement prétest. Les effets fréquentiels disparates sur l’ERPN et la FRPN sont aussi grandement liés aux changements du temps de conduction prétest. Lorsque l’analyse tient compte de ce facteur, l’ERPN et la FRPN montrent des variations parallèles fortement liées à celles de l’intervalle His-auriculaire. Le nouveau schème fonctionnel des propriétés fréquentielles du nœud AV supporté par nos données aidera à mieux cibler les études sur les mécanismes cellulaires contrôlant la modulation fréquentielle nodale. Nos données pourraient aider à l’interprétation et au contrôle des réponses nodales diverses associées aux tachyarythmies supraventriculaires et à leur traitement pharmacologique. En bref, nos travaux supportent une compréhension factuelle améliorée du comportement fréquentiel du nœud AV, un domaine aux applications multiples en rythmologie cardiaque. / The atrioventricular (AV) node is the sole electrical connection between atria and ventricles, and is of utmost importance in both normal and perturbed cardiac function. Through slow conduction, it generates a delay between atrial and ventricular systoles, thereby optimising cardiac output. The AV node also has a long refractory period which confers it a filtering role during supraventricular tachyarrhythmias. Because of this ventricular rate watchdog role, the AV node has become a primary therapeutic target in atrial fibrillation, a frequent arrhythmia with major clinical burden. Not withstanding intense research, understanding of AV nodal function remains restrained by many controversies, some of which have persisted for almost a century. Major obstacles concern the definition of nodal recovery time and nodal refractoriness. The objective of our studies is to untangle some of these controversies regarding rate-dependent AV nodal function in an experimental model of superfused rabbit heart preparations. Our first study concerns the definition of AV nodal recovery time used to assess rate-dependent nodal function. The dependence of conduction time through the node (atrio-His interval; AH) on time elapsed since last activation i.e., recovery time (RT), is a well accepted fact but its assessment is controversial for nearly a century. This problem arises from the fact that the nodal recovery function shows different characteristics depending upon whether RT is assessed from the preceding atrial cycle length (AA) or His-atrial (HA) interval. Moreover, the rate- and time-dependent increase in AH, known as fatigue, also shows different characteristics depending on RT index used. Furthermore, the third rate-dependent AV nodal property known as facilitation and that tends to shorten AH with penultimate cycle length, is obviously present or virtually absent when studying it with HA or AA index, respectively. Our first study sought to identify the source of this paradoxical apparent dependence of nodal rate-dependent properties on selected RT index. For this purpose, we varied two known independent modulators of AV nodal function, the basic (BCL) and pretest cycle length (PTCL), in 30 different combinations and assessed how the resulting 30 nodal functional states alter the recovery and the fatigue property as assessed with both recovery indexes. We found that, for each functional state, the shape of the nodal recovery curve and the level of fatigue was identical regardless of selected recovery index. We thus documented for the first time that recovery and fatigue properties are consistent whether assessed with HA or AA. However, we also found that PTCL effects appeared different on the two recovery curve formats. In a second study, using the same data, we investigated the origin of PTCL related variations of nodal recovery curves constructed with different recovery indexes. We found that PTCL shortening induced rightward AA curve shifts and leftward HA curve shifts proportional to the increase in pretest conduction time. Moreover, these curve shifts affected all data points equally. This finding suggests that both AA and HA indexes are biased by increases in pretest conduction time. These increases appeared to delay nodal recovery for an identical AA, and to hasten nodal recovery for an identical HA. Uncontrolled changes in pretest conduction time during fast rates thus produce apparent different effects depending on nodal recovery index. Taking into account changes in pretest conduction time results in unified rate-dependent nodal conduction properties regardless of chosen recovery index. Another major problem in AV nodal physiology relates to rate-dependent changes in nodal refractoriness. Two indexes of nodal refractoriness, effective (ERPN) and functional (FRPN) refractory periods, are commonly determined. ERPN and FRPN correspond to the longest AA resulting in nodal block and shortest interval between successive His bundle activations, respectively. For unclear reasons, increasing rate typically results in ERPN prolongation but FRPN shortening, and these effects vary greatly with individuals, ages and species. In a third study, we assessed the functional origin of rate-induced changes in ERPN and FRPN. BCL shortening prolonged ERPN but did not significantly affect FRPN. This ERPN prolongation mainly arose from an increase in pretest conduction time. PTCL shortening also prolonged the pretest conduction time and hence ERPN, but this prolongation was partly counterbalanced by a decrease in the His-atrial subinterval at ERPN. Similar PTCL-induced His-atrial shortening also fully accounted for FRPN shortening. Notably, we found that when ERPN is corrected for the increase in pretest conduction time, ERPN and FRPN vary in parallel according to their respective His-atrial subintervals. Combined BCL and PTCL shortening, including those corresponding to standard commonly used protocols, result in net changes in refractory measures predictable from the sum of their individual effects. These observations not only support a new functional scheme for rate-dependent AV nodal refractoriness but also establish a relationship between ERPN and FRPN which, for a long time, were thought to reflect different nodal properties. In conclusion, rate-dependent AV nodal function reflect the net sum of concurrent yet independent cumulative and non-cumulative effects arising from BCL and PTCL changes, respectively. Nodal recovery and fatigue properties are independent of recovery index. Rate-induced non-cumulative variations in nodal recovery curves originate from changes in pretest conduction time and reflect current limitations of recovery indexes to precisely measure exact nodal recovery time. Changes in pretest conduction time also explain opposite rate-induced changes in ERPN and FRPN. When these changes are taken into account, FRPN and ERPN vary in parallel with heart rate and largely depend on His-atrial interval. These data support a new functional model of rate-dependent nodal conduction and refractoriness, which may help guide studies on underlying cellular and ionic mechanisms as well as on nodal behaviour during supraventricular tachyarrhythmias.

Électrophysiologie

Noeud auriculoventriculaire

Fréquence cardiaque

Tachycardie supraventriculaire

Récupération

Fatigue

Facilitation

Conduction

Période réfractaire

Propriétés fréquentielles

Electrophysiology

Atrioventricular node

Heart rate

Supraventricular tachycardia

Recovery

Fatigue

Facilitation

Conduction

Refractory period

Rate-dependent properties

O eletrocardiograma de alta resolução no domínio do tempo em portadores de insuficiência cardíaca congestiva / The signal-averaged electrocardiogram in pacients with congestive heart failure

Grell, Ernani de Sousa

20 February 2003

Foi avaliada a incidência de potencial tardio pelo eletrocardiograma de alta resolução no domínio do tempo em portadores de insuficiência cardíaca congestiva de diferentes etiologias com o objetivo de se estudarem as correlações clínicas e prognósticas entre pacientes com potencial tardio presente e ausente na referida patologia. Foram estudados 288 pacientes com insuficiência cardíaca congestiva, de idades entre 16 a 70 anos (média 51,51; desvio padrão 11,24), 215 do sexo masculino (74,65%) e 73 do sexo feminino (25,35%). As etiologias da insuficiência cardíaca congestiva foram: a cardiopatia hipertensiva em 78 pacientes (27,08%); a cardiopatia isquêmica em 65 (22,57%); a Doença de Chagas em 42 (14,58%); a valvopatia em 12 (4,17%); a cardiomiopatia alcoólica em 9 (3,13%); a cardiomiopatia periparto em 6 (2,08%); a miocardite viral em 3 (1,04%). Em 73 pacientes (25,35%), a etiologia não foi identificada e a cardiomiopatia dilatada foi considerada idiopática. Foram estudados a idade, o sexo, a etiologia da insuficiência cardíaca, as variáveis do eletrocardiograma (área eletricamente inativa e bloqueios de ramo), do ecocardiograma transtorácico (diâmetro do átrio esquerdo, diâmetro sistólico e diastólico do ventrículo esquerdo), da ergoespirometria (consumo máximo de oxigênio) e do eletrocardiograma de longa duração (taquicardia ventricular não sustentada e taquicardia ventricular sustentada). No eletrocardiograma de alta resolução, foram estudadas a duração do QRS standard, a duração do QRS filtrado, a duração do sinal abaixo de 40µV e a voltagem da raiz quadrada dos últimos 40ms. Foi considerado o potencial tardio presente na vigência de dois ou mais dos seguintes critérios: Duração do QRS filtrado >= 114ms; duração do sinal abaixo de 40µV >= 38ms; voltagem da raiz quadrada dos últimos 40ms <= 20µV. Para a análise estatística, foram empregados: o teste de Fisher, para o caso de comparações entre duas variáveis categóricas com 2 categorias cada uma; o teste t-Student, para o caso de comparações entre as médias dos dois grupos para variáveis contínuas; o teste de Man-Whitney (não paramétrico), para o caso de comparações entre os dois grupos quando as variáveis eram provenientes de contagens (número de ocorrências); ANOVA (análise de variância), para o caso de comparações entre mais de dois grupos no caso de variáveis contínuas. Não se observou correlação estatística entre a presença de potencial tardio e as etiologias que levaram à insuficiência cardíaca. Houve correlação entre a duração do QRS standard e a duração do QRS filtrado com a Doença de Chagas e a cardiomiopatia dilatada idiopática. O potencial tardio mostrou correlação significativa com: bloqueios de ramo, duração do QRS maior ou igual a 120ms, consumo máximo de oxigênio, taquicardia ventricular não sustentada, taquicardia ventricular sustentada, morte súbita e mortalidade total. Ao correlacionarmos a presença de potencial tardio com uma má evolução (taquicardia ventricular sustentada, morte súbita e morte por evolução da insuficiência cardíaca) e uma boa evolução (nenhuma das complicações anteriores), foi encontrado diferença significativa no grupo que apresentava potencial tardio presente. Concluímos que pacientes com insuficiência cardíaca congestiva e portadores de potencial tardio presente ao eletrocardiograma de alta resolução têm achado estatisticamente significativo quanto à taquicardia ventricular sustentada e à morte súbita e uma má evolução em relação aos pacientes com potencial tardio ausente. / The incidence of late potential was evaluated by the signal-averaged electrocardiogram in the time domain in patients with congestive heart failure of different etiologies with the goal of studying the clinical and prognostic correlation among patients with the presence and the absence of late potential in the related pathology. 288 patients with congestive heart failure were studied, from 16 to 70 years old (average 51,51; standard deviation 11,24), 215 of males (74.65%) and 73 of females (25.35%). The etiologies of the congestive heart failure were: the hypertensive cardiomyopathy in 78 patients (27.08%); the ischemic cardiomyopathy in 65 (22.57%); the Chagas disease in 42 (14.58%); the valvopathy in 12 (4.17%); the alcoholic heart disease in 9 (3.13%); the delivery cardiomyopathy in 6 (2.08%); the viral myocarditis in 3 (1.04%). In 73 patients (25.35%); the etiology was not identified and the dilated cardiomyopathy was considered idiopathic. The age, sex, and etiology of the cardiac failure, the variable of the electrocardiogram (electric inactive area and bundle branch block), of the transthoracic echocardiogram (left atrium diameter, systolic and diastolic diameter of the left ventricle), of the cardiopulmonary exercise test (maximum consumption of oxygen) and of the Holter monitoring (nonsustained ventricular tachycardia and ventricular tachycardia) have been studied. In the signal-averaged electrocardiogram, the standard QRS duration, the filtered QRS duration, the filtered QRS complex below 40µV and the root mean square voltage of the terminal 40ms were studied. The late potential was considered in the existance of two or more of the following criteria: the filtered QRS duration >= 114ms; the filtered QRS complex bellow 40µV >= 38ms; the root mean square voltage of the terminal 40ms <= 20µV. For the statistic analysis, the Fisher test was used for the case of comparison between two specific variables, each one with 2 categories; the test t-Student was used for the case of comparison between the average of the two groups for continuous variables; the Man-Whitney test, for the case of comparison between the two groups when the variables were proceeding from counting (number of occurrences); the ANOVA (variance analysis), for the case of contrast between more than two groups in the case of continuous variables. Statistic correlation was not observed in the presence of late potential and the etiologies that had to the heart failure. There was correlation between the standard QRS duration and the filtered QRS duration with the Chagas disease and the idiopathic dilated cardiomyopathy. The late potential showed remarkable correlation with bundle branch block, duration of the largest or equal to 120ms QRS, maximum consumption of oxygen, nonsustained ventricular tachycardia, sustained ventricular tachycardia, sudden death and total mortality. When correlating the presence of late potential with a bad evolution (sustained ventricular tachycardia, sudden death and death by evolution of the heart failure) and a good evolution (none of the previous complications), relevant difference was found in the group that presented late potential. To conclude, patients with congestive heart failure and carrying late potential shown by the signal-averaged electrocardiogram have statistically relevant findings in the sustained ventricular tachycardia and the sudden death and a bad evolution in relation to the patients with absent late potential.

Eletrocardiografia/métodos

Eletrocardiography/methods

Ergometria/métodos

Ergometry/methods

Fatores de risco

Heart failure/ethiology

Heart failure/mortality

Prognosis

Prognóstico

Risk factors

Seguimentos

Tachycardia ventricular/methods

Taquicardia ventricular/métodos

Studies Of Spiral Turbulence And Its Control In Models Of Cardiac Tissue

Shajahan, T K

02 1900

There is a growing consensus that life-threatening cardiac arrhythmias like ventricular tachycardia (VT) or ventricular fibrillation (VF) arise because of the formation of spiral waves of electrical activation in cardiac tissue; unbroken spiral waves are associated with VT and broken ones with VF. Several experimental studies have shown that inhomogeneities in cardiac tissue can have dramatic effects on such spiral waves. In this thesis we try to understand these experimental results by carrying out detailed and systematic studies of the interaction of spiral waves with different types of inhomogeneities in mathematical models for cardiac tissue. In Chapter 1 we begin with a general introduction to cardiac arrhythmias, the cardiac conduction system, and the connection between electrical activation waves in cardiac tissue and cardiac arrhythmias. As we have noted above, VT and VF are believed to be associated with spiral waves of electrical activation on cardiac tissue; such spiral waves form because cardiac tissue is an excitable medium. Thus we give an overview of excitable media, in which sub-threshold perturbations decay but super-threshold perturbations lead to an action potential that consists of a rapid stage of depolarization of cardiac cells followed by a slow phase of repolarization. During this repolarization phase the cells are refractory. We then give an overview of earlier studies of the effects of inhomogeneities in cardiac tissue; and we end with a brief description of the principal problems we study here. Chapter 2 describes the models we use in our work. We start with a general introduction to the cable equation and then discuss the Hodgkin-Huxley-formalism for the transport of ions across a cell membrane through voltage-gated ion channels. We then describe in detail the three models that we use for cardiac tissue, which are, in order of increasing complexity, the Panfilov model, the Luo Rudy Phase I (LRI) model, and the reduced Priebe Beuckelmann (RPB)model. We then give the numerical schemes we use for solving these model equations and the initial conditions that lead to the formation of spiral waves. For all these models we give representative results from our simulations and compare the states with spiral turbulence. In Chapter 3 we investigate the effects of conduction inhomogeneities (obstacles) in the three models introduced in Chapter 2. We outline first the experimental results that have provided the motivation for our study. We then discuss how we introduce obstacles in our simulations of the Panffilov, LRI, and RPB models for cardiac tissue. Next we present the results of our numerical studies of the effects, on spiral-wave dynamics, of the sizes, shapes, and positions of the obstacles. Our Principal result is that spiral-wave dynamics in these models depends sensitively on the position of the obstacle. We find, in particular, that, merely by changing the position of a conduction inhomogeneity, we may convert spiral turbulence (the analogue in our models of VF) to a single rotating spiral (the analogue of VT) anchored to the obstacle or vice versa; even more exciting is the possibility that, at the boundary between these two types of behaviour, we find a quiescent state Q with no spiral waves. Thus our study obtains all the possible qualitative behaviours found in experiments, namely, (1) VF might persist even in the presence of an obstacle, (2) it might be suppressed partially and become VT, or (3) it might be eliminated completely. In Chapter 4 we extend our work on conduction inhomogeneities (Chapter 3) to ionic inhomogeneities. Unlike conduction inhomogeneities, ionic inhomogeneities allow the conduction of activation waves. We find, nevertheless, that they too can lead to the anchoring of spiral waves or even the complete elimination of spiral-wave turbulence. Since spiral waves can enter the region in which there is an ionic inhomogeneity, their behaviours in the presence of such an inhomogeneity are richer than those with conduction inhomogeneities. We find, in particular, that a single spiral wave anchored at an ionic inhomogeneity can show temporal evolution that may be periodic, quasiperiodic, or even chaotic. In the last case the spiral wave shows a chaotic pattern inside the ionic inhomogeneity and a regular one outside it. Defibrillation is the control of arrhythmias such as VF. Most often defibrillation is effected electrically by administering a shock, either externally or via an internally implanted defibrillator. The development of low-amplitude defibrillation schemes, which minimise the deleterious effects of the applied shock, is a major challenge in the treatment of cardiac arrhythmias. Numerical studies of models for cardiac tissue provide us with convenient means of studying the elimination of spiral-wave turbulence by the application of external electrical stimuli; this is the numerical analogue of defibrillation. Over the years some low-amplitude defibrillation schemes have been suggested on the basis of such numerical studies. In Chapter 5 we discuss two such schemes that have been shown to suppress spiral-wave turbulence in two-dimensional models for cardiac tissue and also scroll-wave turbulence in three-dimensional models. One of these schemes uses local electrical pacing, typically in the centre of the simulation domain; the other applies the external electrical stimuli over a mesh. We study the efficacy of these schemes in the presence of conduction inhomogeneities. We find, in particular, that the local-pacing scheme, though effective in a homogeneous simulation domain, fails to control spiral turbulence in the presence of an obstacle and, indeed, might even facilitate spiral-wave break up. By contrast, the second scheme, which uses a mesh, succeeds in eliminating spiral-wave turbulence even in the presence of an obstacle. We end with some concluding remarks about the possible experimental implications of our study in Chapter 6.

Turbulence

Spiral Turbulence

Fluid Mechanics

Cardiac Tissue

Tissues

Chest Tissues

Cardiac Arrhythmias

Ventricular Tissue - Inhomogeneities

Cardiac Tissues - Models

Biomedical Engineering

Inhomogeneity

Panfilov Model

Ventricular Fibrillation (VF)

Spiral-Wave Turbulence

Ventricular Tachycardia (VT)

Biophysics

Caractéristiques et origine fonctionnelle des propriétés fréquentielles du noeud auriculoventriculaire

Tadros, Rafik

06 1900

Le nœud auriculoventriculaire (AV) joue un rôle vital dans le cœur normal et pathologique. Il connecte les oreillettes aux ventricules et, grâce à sa conduction lente, génère un délai entre les contractions auriculaire et ventriculaire permettant d’optimiser le pompage sanguin. Sa conduction lente et sa longue période réfractaire font du nœud AV un filtre d’impulsions auriculaires lors de tachyarythmies assurant ainsi une fréquence ventriculaire plus lente favorable au débit cardiaque. L’optimisation de ce filtrage est une cible dans le traitement de ces arythmies. Malgré ce rôle vital et de nombreuses études, le nœud AV demeure l’objet de plusieurs controverses qui en rendent la compréhension laborieuse. Nos études expérimentales sur des préparations isolées de cœurs de lapin visent à apporter des solutions à certains des problèmes qui limitent la compréhension des propriétés fréquentielles du nœud AV. Le premier problème concerne la définition de la propriété de récupération nodale. On s’accorde généralement sur la dépendance du temps de conduction nodale (intervalle auriculo-Hissien, AH) du temps de récupération qui le précède mais un débat presque centenaire persiste sur la façon de mesurer ce temps de récupération. Selon que l’on utilise à cette fin la longueur du cycle auriculaire (AA) ou l’intervalle His-auriculaire précédent (HA), la même réponse nodale montre des caractéristiques différentes, un paradoxe à ce jour inexpliqué. Le temps de conduction nodale augmente aussi avec le degré et la durée d'une fréquence rapide, un phénomène appelé fatigue. Or, les caractéristiques de la fatigue mesurée varient avec l’indice de récupération utilisé (AA vs. HA). De plus, une troisième propriété appelée facilitation qui entraîne un raccourcissement du temps de conduction diffère aussi avec l’indice de récupération utilisé. Pour établir l’origine de ce problème, nous avons déterminé les différences entre les courbes de récupération (AH compilé en fonction du AA ou HA) pour 30 états fonctionnels nodaux différents. Ces conditions étaient obtenues à l’aide de protocoles permettant la variation du cycle de base (BCL) et du cycle prétest (PTCL), deux paramètres connus pour altérer la fonction nodale. Nous avons pu établir que pour chaque état fonctionnel, la forme de la courbe de récupération et le niveau de fatigue étaient les mêmes pour les deux indices de récupération. Ceci s’applique aussi aux données obtenues à des BCL et PTCL égaux comme dans les protocoles de stimulation prématurée conventionnels couramment utilisés. Nos résultats ont établi pour la première fois que les propriétés nodales de récupération et de fatigue sont indépendantes de l’indice de récupération utilisé. Nos données montrent aussi que les différences entre les courbes de récupération en fonction de l’indice utilisé proviennent d’effets associés aux variations du PTCL. Notre deuxième étude établit à partir des mêmes données pourquoi les variations du PTCL altèrent différemment les courbes de récupération selon l’indice utilisé. Nous avons démontré que ces différences augmentaient en proportion directe avec l’augmentation du temps de conduction au battement prétest. Cette augmentation cause un déplacement systématique de la courbe construite avec l’intervalle AA vers la droite et de celle construite avec l’intervalle HA vers la gauche. Ce résultat met en évidence l’importance de tenir compte des changements du temps de conduction prétest dans l’évaluation de la fonction nodale, un paramètre négligé dans la plupart des études. Ce résultat montre aussi que chacun des deux indices a des limites dans sa capacité d’évaluer le temps de récupération nodale réel lorsque le temps de conduction prétest varie. Lorsque ces limites sont ignorées, comme c’est habituellement le cas, elles entraînent un biais dans l’évaluation des effets de fatigue et de facilitation. Une autre grande difficulté dans l’évaluation des propriétés fréquentielles du nœud AV concerne son état réfractaire. Deux indices sont utilisés pour évaluer la durée de la période réfractaire nodale. Le premier est la période réfractaire efficace (ERPN) définie comme l’intervalle AA le plus long qui n’est pas conduit par le nœud. Le deuxième est la période réfractaire fonctionnelle (FRPN) qui correspond à l’intervalle minimum entre deux activations mesurées à la sortie du nœud. Paradoxalement et pour des raisons obscures, l’ERPN augmente alors que la FRPN diminue avec l’augmentation de la fréquence cardiaque. De plus, ces effets varient grandement avec les sujets, les espèces et l’âge. À partir des mêmes données que pour les deux autres études, nous avons cherché dans la troisième étude l’origine des variations fréquentielles de l’ERPN et de la FRPN. Le raccourcissement du BCL prolonge l’ERPN mais n’affecte pas la FRPN. L’allongement de l’ERPN provient principalement d’un allongement du temps de conduction prétest. Un PTCL court en comparaison avec un BCL court allonge encore plus substantiellement le temps de conduction prétest mais raccourcit en même temps l’intervalle His-auriculaire, ces deux effets opposés s’additionnent pour produire un allongement net de l’ERPN. Le raccourcissement de l’intervalle His-auriculaire par le PTCL court est aussi entièrement responsable pour le raccourcissement de la FRPN. Nous avons aussi établi que, lorsque la composante du temps de conduction prétest est retirée de l’ERPN, un lien linéaire existe entre la FRPN et l’ERPN à cause de leur dépendance commune de l’intervalle His-auriculaire. Le raccourcissement combiné du BCL et du PTCL produit des effets nets prévisibles à partir de leurs effets individuels. Ces effets reproduisent ceux obtenus lors de protocoles prématurés conventionnels. Ces observations supportent un nouveau schème fonctionnel des variations fréquentielles de l’ERPN et de la FRPN à partir des effets distincts du BCL et du PTCL. Elles établissent aussi un nouveau lien entre les variations fréquentielles de l’ERPN et de la FRPN. En conclusion, la modulation fréquentielle de la fonction du nœud AV provient de la combinaison d’effets concurrents cumulatifs liés au cycle de base et non-cumulatifs liés au cycle prétest. Ces effets peuvent être interprétés de façon consistante indépendamment de l’indice de récupération en tenant compte des changements du temps de conduction au battement prétest. Les effets fréquentiels disparates sur l’ERPN et la FRPN sont aussi grandement liés aux changements du temps de conduction prétest. Lorsque l’analyse tient compte de ce facteur, l’ERPN et la FRPN montrent des variations parallèles fortement liées à celles de l’intervalle His-auriculaire. Le nouveau schème fonctionnel des propriétés fréquentielles du nœud AV supporté par nos données aidera à mieux cibler les études sur les mécanismes cellulaires contrôlant la modulation fréquentielle nodale. Nos données pourraient aider à l’interprétation et au contrôle des réponses nodales diverses associées aux tachyarythmies supraventriculaires et à leur traitement pharmacologique. En bref, nos travaux supportent une compréhension factuelle améliorée du comportement fréquentiel du nœud AV, un domaine aux applications multiples en rythmologie cardiaque. / The atrioventricular (AV) node is the sole electrical connection between atria and ventricles, and is of utmost importance in both normal and perturbed cardiac function. Through slow conduction, it generates a delay between atrial and ventricular systoles, thereby optimising cardiac output. The AV node also has a long refractory period which confers it a filtering role during supraventricular tachyarrhythmias. Because of this ventricular rate watchdog role, the AV node has become a primary therapeutic target in atrial fibrillation, a frequent arrhythmia with major clinical burden. Not withstanding intense research, understanding of AV nodal function remains restrained by many controversies, some of which have persisted for almost a century. Major obstacles concern the definition of nodal recovery time and nodal refractoriness. The objective of our studies is to untangle some of these controversies regarding rate-dependent AV nodal function in an experimental model of superfused rabbit heart preparations. Our first study concerns the definition of AV nodal recovery time used to assess rate-dependent nodal function. The dependence of conduction time through the node (atrio-His interval; AH) on time elapsed since last activation i.e., recovery time (RT), is a well accepted fact but its assessment is controversial for nearly a century. This problem arises from the fact that the nodal recovery function shows different characteristics depending upon whether RT is assessed from the preceding atrial cycle length (AA) or His-atrial (HA) interval. Moreover, the rate- and time-dependent increase in AH, known as fatigue, also shows different characteristics depending on RT index used. Furthermore, the third rate-dependent AV nodal property known as facilitation and that tends to shorten AH with penultimate cycle length, is obviously present or virtually absent when studying it with HA or AA index, respectively. Our first study sought to identify the source of this paradoxical apparent dependence of nodal rate-dependent properties on selected RT index. For this purpose, we varied two known independent modulators of AV nodal function, the basic (BCL) and pretest cycle length (PTCL), in 30 different combinations and assessed how the resulting 30 nodal functional states alter the recovery and the fatigue property as assessed with both recovery indexes. We found that, for each functional state, the shape of the nodal recovery curve and the level of fatigue was identical regardless of selected recovery index. We thus documented for the first time that recovery and fatigue properties are consistent whether assessed with HA or AA. However, we also found that PTCL effects appeared different on the two recovery curve formats. In a second study, using the same data, we investigated the origin of PTCL related variations of nodal recovery curves constructed with different recovery indexes. We found that PTCL shortening induced rightward AA curve shifts and leftward HA curve shifts proportional to the increase in pretest conduction time. Moreover, these curve shifts affected all data points equally. This finding suggests that both AA and HA indexes are biased by increases in pretest conduction time. These increases appeared to delay nodal recovery for an identical AA, and to hasten nodal recovery for an identical HA. Uncontrolled changes in pretest conduction time during fast rates thus produce apparent different effects depending on nodal recovery index. Taking into account changes in pretest conduction time results in unified rate-dependent nodal conduction properties regardless of chosen recovery index. Another major problem in AV nodal physiology relates to rate-dependent changes in nodal refractoriness. Two indexes of nodal refractoriness, effective (ERPN) and functional (FRPN) refractory periods, are commonly determined. ERPN and FRPN correspond to the longest AA resulting in nodal block and shortest interval between successive His bundle activations, respectively. For unclear reasons, increasing rate typically results in ERPN prolongation but FRPN shortening, and these effects vary greatly with individuals, ages and species. In a third study, we assessed the functional origin of rate-induced changes in ERPN and FRPN. BCL shortening prolonged ERPN but did not significantly affect FRPN. This ERPN prolongation mainly arose from an increase in pretest conduction time. PTCL shortening also prolonged the pretest conduction time and hence ERPN, but this prolongation was partly counterbalanced by a decrease in the His-atrial subinterval at ERPN. Similar PTCL-induced His-atrial shortening also fully accounted for FRPN shortening. Notably, we found that when ERPN is corrected for the increase in pretest conduction time, ERPN and FRPN vary in parallel according to their respective His-atrial subintervals. Combined BCL and PTCL shortening, including those corresponding to standard commonly used protocols, result in net changes in refractory measures predictable from the sum of their individual effects. These observations not only support a new functional scheme for rate-dependent AV nodal refractoriness but also establish a relationship between ERPN and FRPN which, for a long time, were thought to reflect different nodal properties. In conclusion, rate-dependent AV nodal function reflect the net sum of concurrent yet independent cumulative and non-cumulative effects arising from BCL and PTCL changes, respectively. Nodal recovery and fatigue properties are independent of recovery index. Rate-induced non-cumulative variations in nodal recovery curves originate from changes in pretest conduction time and reflect current limitations of recovery indexes to precisely measure exact nodal recovery time. Changes in pretest conduction time also explain opposite rate-induced changes in ERPN and FRPN. When these changes are taken into account, FRPN and ERPN vary in parallel with heart rate and largely depend on His-atrial interval. These data support a new functional model of rate-dependent nodal conduction and refractoriness, which may help guide studies on underlying cellular and ionic mechanisms as well as on nodal behaviour during supraventricular tachyarrhythmias.

Électrophysiologie

Noeud auriculoventriculaire

Fréquence cardiaque

Tachycardie supraventriculaire

Récupération

Fatigue

Facilitation

Conduction

Période réfractaire

Propriétés fréquentielles

Electrophysiology

Atrioventricular node

Heart rate

Supraventricular tachycardia

Recovery

Fatigue

Facilitation

Conduction

Refractory period

Rate-dependent properties

Dynamique spatio-temporelle de circuits de réentrée chez le sujet humain et dans un modèle d'infarctus du myocarde chez le chien

Hélie, François

January 2002

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal

Tachycardie ventriculaire

Circuits de réentrée

Dynamique spatio-temporelle

dV/dt

Infarctus du myocarde

Préparations canines

Procainamide

Lidocaine

Ventricular tachycardia

Reentrant circuits

Spatio-temporal dynamics

dV/dt

Myocardial infarction

Canine preparations

Procainamide

Lidocaine

Caractérisation locale de la propagation de l’onde d’activation cardiaque pour l’aide au diagnostic des tachycardies atriales et ventriculaires : application à l’imagerie électrocardiographique non-invasive / Local characterization of cardiac activation wavefront propagation to aid diagnosis of atrial and ventricular tachycardias : application for non-invasive electrocardiographic imaging

Dallet, Corentin

23 November 2017

Les tachycardies ventriculaires (TV) et atriales (TA) sont les arythmies les plus fréquemment diagnostiquées en clinique. En vue d’ablater les tissus pathologiques, deux techniques de diagnostic sont utilisées : la cartographie électro-anatomique pour un diagnostic précis à l’aide d’électrogrammes (EGM) mesurés par cathéters intracardiaques et repérés sur la géométrie tridimensionnelle (3-D) de la cavité étudiée ; et l’imagerie électrocardiographique non-invasive (ECGi) pour une vision globale de l’arythmie, avec des EGM reconstruits mathématiquement à partir des électrocardiogrammes et des géométries cardio-thoraciques 3-D obtenues par CT-Scan. Les TV et TA sont alors diagnostiquées en étudiant les cartes d’activation qui sont des représentations des temps de passage locaux de l’onde d’activation sur la géométrie 3-D cardiaque. Cependant, les zones de ralentissement favorisant les TV et TA, et leurs motifs de propagation spécifiques n’y sont pas facilement identifiables. Ainsi, la caractérisation locale de la propagation de l’onde d’activation peut être utile pour améliorer le diagnostic. L’objet de cette thèse est le développement d’une méthode de caractérisation locale de la propagation de l’onde d’activation. Pour cela, un champ vectoriel de vitesse est estimé et analysé. La méthode a en premier lieu été validée sur des données simulées issues de modélisation, puis appliquée 1) à des données cliniques issues de l’ECGi pour la localisation des cicatrices d’infarctus et pour améliorer le diagnostic des TA; et 2) sur des données obtenues par cartographie électro-anatomique pour caractériser les zones pathogènes. / Ventricular (VT) and atrial (AT) tachycardias are some of the most common clinical cardiac arrhythmias. For ablation of tachycardia substrates, two clinical diagnosis methods are used : electro-anatomical mapping for an accurate diagnosis using electrograms (EGMs) acquired with intracardiac catheters and localized on the three-dimensional (3-D) mesh of the studied cavities ; and non-invasive electrocardiographic imaging (ECGi) for a global view of the arrhythmia, with EGMs mathematically reconstructed from body surface electrocardiograms and the 3-D cardio-thoracic meshes obtained with CT-scan. VT and AT are diagnosed studying activation time maps ; that are 3-D representations of the transit time of the activation wavefront on the cardiac mesh. Nevertheless, slow conduction areas, a well-known pro-arrhythmic feature for tachycardias, and the tachycardias specific propagation patterns are not easily identifiable with these maps. Hence, local characterization of the activation wavefront propagation can be helpful for improving VT and AT diagnosis. The purpose of this thesis is to develop a method to locally characterize the activation wavefront propagation. For that, a conduction velocity vector field is estimated and analyzed. The method was first validated on a simulated database from computer models, then applied to 1) a clinical database obtained from ECGi to localize infarct tissues and improve AT diagnosis ; and 2) a clinical database acquired with electro-anatomical mapping systems to define pathological areas.

Traitement du signal

Cardiologie

Tachycardie

Vitesse de conduction

Outils d’aide au diagnostic clinique

Cartographie électro-anatomique

Signal processing

Cardiology

Tachycardia

Conduction velocity

Clinical tools to aid diagnosis

Electro-anatomical mapping

O eletrocardiograma de alta resolução no domínio do tempo em portadores de insuficiência cardíaca congestiva / The signal-averaged electrocardiogram in pacients with congestive heart failure

Ernani de Sousa Grell

20 February 2003

Foi avaliada a incidência de potencial tardio pelo eletrocardiograma de alta resolução no domínio do tempo em portadores de insuficiência cardíaca congestiva de diferentes etiologias com o objetivo de se estudarem as correlações clínicas e prognósticas entre pacientes com potencial tardio presente e ausente na referida patologia. Foram estudados 288 pacientes com insuficiência cardíaca congestiva, de idades entre 16 a 70 anos (média 51,51; desvio padrão 11,24), 215 do sexo masculino (74,65%) e 73 do sexo feminino (25,35%). As etiologias da insuficiência cardíaca congestiva foram: a cardiopatia hipertensiva em 78 pacientes (27,08%); a cardiopatia isquêmica em 65 (22,57%); a Doença de Chagas em 42 (14,58%); a valvopatia em 12 (4,17%); a cardiomiopatia alcoólica em 9 (3,13%); a cardiomiopatia periparto em 6 (2,08%); a miocardite viral em 3 (1,04%). Em 73 pacientes (25,35%), a etiologia não foi identificada e a cardiomiopatia dilatada foi considerada idiopática. Foram estudados a idade, o sexo, a etiologia da insuficiência cardíaca, as variáveis do eletrocardiograma (área eletricamente inativa e bloqueios de ramo), do ecocardiograma transtorácico (diâmetro do átrio esquerdo, diâmetro sistólico e diastólico do ventrículo esquerdo), da ergoespirometria (consumo máximo de oxigênio) e do eletrocardiograma de longa duração (taquicardia ventricular não sustentada e taquicardia ventricular sustentada). No eletrocardiograma de alta resolução, foram estudadas a duração do QRS standard, a duração do QRS filtrado, a duração do sinal abaixo de 40µV e a voltagem da raiz quadrada dos últimos 40ms. Foi considerado o potencial tardio presente na vigência de dois ou mais dos seguintes critérios: Duração do QRS filtrado >= 114ms; duração do sinal abaixo de 40µV >= 38ms; voltagem da raiz quadrada dos últimos 40ms <= 20µV. Para a análise estatística, foram empregados: o teste de Fisher, para o caso de comparações entre duas variáveis categóricas com 2 categorias cada uma; o teste t-Student, para o caso de comparações entre as médias dos dois grupos para variáveis contínuas; o teste de Man-Whitney (não paramétrico), para o caso de comparações entre os dois grupos quando as variáveis eram provenientes de contagens (número de ocorrências); ANOVA (análise de variância), para o caso de comparações entre mais de dois grupos no caso de variáveis contínuas. Não se observou correlação estatística entre a presença de potencial tardio e as etiologias que levaram à insuficiência cardíaca. Houve correlação entre a duração do QRS standard e a duração do QRS filtrado com a Doença de Chagas e a cardiomiopatia dilatada idiopática. O potencial tardio mostrou correlação significativa com: bloqueios de ramo, duração do QRS maior ou igual a 120ms, consumo máximo de oxigênio, taquicardia ventricular não sustentada, taquicardia ventricular sustentada, morte súbita e mortalidade total. Ao correlacionarmos a presença de potencial tardio com uma má evolução (taquicardia ventricular sustentada, morte súbita e morte por evolução da insuficiência cardíaca) e uma boa evolução (nenhuma das complicações anteriores), foi encontrado diferença significativa no grupo que apresentava potencial tardio presente. Concluímos que pacientes com insuficiência cardíaca congestiva e portadores de potencial tardio presente ao eletrocardiograma de alta resolução têm achado estatisticamente significativo quanto à taquicardia ventricular sustentada e à morte súbita e uma má evolução em relação aos pacientes com potencial tardio ausente. / The incidence of late potential was evaluated by the signal-averaged electrocardiogram in the time domain in patients with congestive heart failure of different etiologies with the goal of studying the clinical and prognostic correlation among patients with the presence and the absence of late potential in the related pathology. 288 patients with congestive heart failure were studied, from 16 to 70 years old (average 51,51; standard deviation 11,24), 215 of males (74.65%) and 73 of females (25.35%). The etiologies of the congestive heart failure were: the hypertensive cardiomyopathy in 78 patients (27.08%); the ischemic cardiomyopathy in 65 (22.57%); the Chagas disease in 42 (14.58%); the valvopathy in 12 (4.17%); the alcoholic heart disease in 9 (3.13%); the delivery cardiomyopathy in 6 (2.08%); the viral myocarditis in 3 (1.04%). In 73 patients (25.35%); the etiology was not identified and the dilated cardiomyopathy was considered idiopathic. The age, sex, and etiology of the cardiac failure, the variable of the electrocardiogram (electric inactive area and bundle branch block), of the transthoracic echocardiogram (left atrium diameter, systolic and diastolic diameter of the left ventricle), of the cardiopulmonary exercise test (maximum consumption of oxygen) and of the Holter monitoring (nonsustained ventricular tachycardia and ventricular tachycardia) have been studied. In the signal-averaged electrocardiogram, the standard QRS duration, the filtered QRS duration, the filtered QRS complex below 40µV and the root mean square voltage of the terminal 40ms were studied. The late potential was considered in the existance of two or more of the following criteria: the filtered QRS duration >= 114ms; the filtered QRS complex bellow 40µV >= 38ms; the root mean square voltage of the terminal 40ms <= 20µV. For the statistic analysis, the Fisher test was used for the case of comparison between two specific variables, each one with 2 categories; the test t-Student was used for the case of comparison between the average of the two groups for continuous variables; the Man-Whitney test, for the case of comparison between the two groups when the variables were proceeding from counting (number of occurrences); the ANOVA (variance analysis), for the case of contrast between more than two groups in the case of continuous variables. Statistic correlation was not observed in the presence of late potential and the etiologies that had to the heart failure. There was correlation between the standard QRS duration and the filtered QRS duration with the Chagas disease and the idiopathic dilated cardiomyopathy. The late potential showed remarkable correlation with bundle branch block, duration of the largest or equal to 120ms QRS, maximum consumption of oxygen, nonsustained ventricular tachycardia, sustained ventricular tachycardia, sudden death and total mortality. When correlating the presence of late potential with a bad evolution (sustained ventricular tachycardia, sudden death and death by evolution of the heart failure) and a good evolution (none of the previous complications), relevant difference was found in the group that presented late potential. To conclude, patients with congestive heart failure and carrying late potential shown by the signal-averaged electrocardiogram have statistically relevant findings in the sustained ventricular tachycardia and the sudden death and a bad evolution in relation to the patients with absent late potential.

Eletrocardiografia/métodos

Ergometria/métodos

Fatores de risco

Prognóstico

Seguimentos

Taquicardia ventricular/métodos

Eletrocardiography/methods

Ergometry/methods

Heart failure/ethiology

Heart failure/mortality

Prognosis

Risk factors

Tachycardia ventricular/methods

Ventricular Arrhythmias Complicating Coronary Artery Disease: Recent Trends, Risk Associated with Serum Glucose Levels, and Psychological Impact

Tran, Hoang V.

18 June 2018

Introduction: Ventricular arrhythmias (VAs) are common after an acute coronary syndrome (ACS) and are associated with worse clinical outcomes. However, little is known about recent trends in their occurrence, their association with serum glucose levels, and their psychological impact in ACS setting. Methods: We examined 25-year (1986-2011) trends in the incidence rates (IRs) and hospital case-fatality rates (CFRs) of VAs, and the association between serum glucose levels and VAs in patients with an acute myocardial infarction (AMI) in the Worcester Heart Attack Study. Lastly, we examined the relationship between in-hospital occurrence of VAs and 12-month progression of depression and anxiety among hospital survivors of an ACS in the longitudinal TRACE-CORE study. Results: We found the IRs declined for several major VAs between 1986 and 2011while the hospital CFRs declined in both patients with and without VAs over this period. Elevated serum glucose levels at hospital admission were associated with a higher risk of developing in-hospital VAs. Occurrence of VAs, however, was not associated with worsening progression of symptoms of depression and/or anxiety over a 12-month follow-up period in patients discharged after an ACS. Conclusions: The burden and impact of VAs in patients with an AMI has declined over time. Elevated serum glucose levels at hospital admission may serve as a predictor for in-hospital occurrence of serious cardiac arrhythmias. In-hospital occurrence of VAs may not be associated with worsening progression of symptoms of depression and anxiety in patients with an ACS.

Ventricular tachycardia

ventricular fibrillation

ventricular arrhythmia

incidence

mortality

fatality

rate

trend

depression

anxiety

acute myocardial infarction

acute coronary syndrome

hyperglycemia

glucose

Cardiology

Circulatory and Respiratory Physiology

Clinical Epidemiology

Endocrinology, Diabetes, and Metabolism

Epidemiology

Internal Medicine

Psychiatric and Mental Health

Psychiatry

Psychoanalysis and Psychotherapy

Amélioration des techniques d’ablation pour le traitement des arythmies cardiaques : nouvelles modalités diagnostiques et thérapeutiques par ultrasons / Diagnostic and therapeutic ultrasound techniques to improve ablation of cardiac arrhythmias

Bessière, Francis

06 November 2019

A la croisée des chemins entre médecine et physique des ultrasons, ce travail de thèse s’est intéressé à l’apport de solutions diagnostiques et de thérapeutiques novatrices dans le domaine de l’électrophysiologie cardiaque. Un système capable de délivrer des ultrasons focalisés dans le cœur par voie transoesophagienne sous guidage par ultrasons a été développé et testé in vivo chez 6 porcs. Les tirs HIFU ont été délivrés sur les oreillettes et les ventricules. Lors de l'autopsie, une analyse visuelle a démontré la présence de lésions thermiques dans les zones ciblées chez 3 animaux. Ces lésions ont été confirmées par analyse histologique (taille moyenne: 5,5 mm2 x 11 mm2). Aucune lésion thermique œsophagienne n'a été observée. Un animal a présenté une bradycardie due à un bloc auriculo-ventriculaire, ce qui a permis de confirmer une réelle interaction entre les tirs HIFU et le tissu nodal cardiaque. Nous avons cependant observé un manque de précision, principalement lié aux mouvements cardiaques ainsi qu’aux structures anatomiques situées entre les zones ciblées et le transducteur de thérapie. Ces difficultés ont été principalement reliées à l’anatomie du modèle porcin, loin de celle de l’être humain. La recherche d'un meilleur modèle a conduit à des tests d'imagerie concluants sur des babouins.Des expériences supplémentaires ont été conduites afin d'améliorer la cartographie des arythmies ventriculaires et le suivi de la formation de lésions pendant l'ablation.Des expériences ont été menées sur les ventricules gauches de quatre coeurs de porcs en mode travaillant. Le protocole visait à démontrer que différents modèles d'activation mécanique pouvaient être observés, que le ventricule soit en rythme sinusal, stimulé depuis l'épicarde ou l'endocarde. Des acquisitions d’imagerie de déformation électromécanique (EWI) ont été enregistrées sur les faces antérieures, latérales et postérieures du ventricule gauche. Les boucles ont été ensuite analysées à l’aveugle par deux lecteurs indépendants.Les interprétations des séquences EWI étaient correctes dans 89% des cas. Le taux de concordance globale entre les deux lecteurs était de 83%. Dans un ventricule stimulé, l'origine du front d'onde était focale et provenait de l'endocarde ou de l'épicarde stimulé. En rythme sinusal, le front d'onde était activé depuis tout l'endocarde, en direction de l'épicarde, à une vitesse de 1,7 ± 0,28 m.s-1. Les vitesses du front d'onde ont été mesurées respectivement lorsque l'endocarde ou l'épicarde étaient stimulés à une vitesse de 1,1 ± 0,35 m.s -1 et 1,3 ± 0,34 m.s-1 (p = NS). Nous avons aussi démontré sur des échantillons ex-vivo que l'imagerie trans oesophagienne par analyse des ondes de cisaillement (élastographie) pouvait cartographier l'étendue des lésions HIFU. Des tirs HIFU ont été réalisés à l'aide de la sonde trans oesophagienne sur des échantillons de blancs de poulet (n = 3), puis sur un modèle porcin ex vivo d'oreillette (gauche, n = 2) et de ventricule gauche (n = 1). L’élastographie a fourni des cartes de rigidité des tissus avant et après l'ablation. Les zones des lésions ont été obtenues par analyse et quantification des changements de couleur des tissus puis ont été comparées aux images par élastographie. Dans le blanc de poulet, la rigidité est passée en moyenne de 4.8±1.1 kPa à 20.5±10.0 kPa (ratio 5.0±3.2). Dans le ventricule gauche, la rigidité est passée en moyenne de 21.2±3.3kPa à 73.8±13.9kPa (ratio 3.7±1.2). Dans l’oreillette gauche, la rigidité est passée en moyenne de 12.2±4.3 kPa à 30.3±10.3 (ratio 3.2±2.0). En histologie, la taille des lésions variait de 0.1 à 1.5 cm2 dans la zone du plan d'imagerie. Les caractéristiques morphométriques étaient similaires entre histologie et élastographie / At the crossroads of medicine and physics, this work aimed to provide innovative diagnostic and therapeutic tools based on ultrasound, in the field of cardiac electrophysiology. A system capable of delivering HIFU into the heart by a transesophageal route using ultrasound (US) imaging guidance was developed and tested in vivo in six male pigs. HIFU exposures were performed on atria and ventricles. At the time of autopsy, visual inspection identified thermal lesions in the targeted areas in three of the animals. These lesions were confirmed by histologic analysis (mean size: 5.5 mm2 x 11mm2). No esophageal thermal injury was observed. One animal presented with bradycardia due to an atrio-ventricular block, which provides real-time confirmation of an interaction between HIFU and the electrical circuits of the heart. There was still a lack of accuracy, mainly related to cardiac motion, and to anatomical structures in between the targets and the transducer. It was mainly related to the in vivo model and its anatomy, far from the human’s. The search for a better model led to conclusive imaging tests on baboons. Additional experiments were conduced in order to improve the mapping of ventricular arrhythmias and the monitoring of lesion formation during ablation. First, experiments were conducted on left ventricles of four isolated working mode swine hearts. The protocol aimed at demonstrating that different patterns of mechanical activation could be observed whether the ventricle was in sinus rhythm, paced from the epicardium, or from the endocardium. Electromechanical wave imaging (EWI) acquisitions were recorded on the anterior, lateral, and posterior segments of the left ventricle. Loop records were blindly assigned to two readers. EWI sequences interpretations were correct in 89% of cases. The overall agreement rate between the two readers was 83%. When in a paced ventricle, the origin of the wave front was focal and originating from the endocardium or the epicardium. In sinus rhythm, wave front was global and activated within the entire endocardium towards the epicardium at a speed of 1.7±0.28 m.s-1. Wave front speeds were respectively measured when the endocardium or the epicardium were paced at a speed of 1.1 ± 0.35 m.s-1 vs 1.3±0.34 m.s-1 (p=NS). Lastly, we investigated the feasibility of a dual therapy and imaging approach with the same transoesophageal device. We demonstrated on ex-vivo samples that transoesophageal shear wave imaging (SWE) can map the extent of the HIFU lesions. HIFU ablation was performed with the transoesophageal probe on ex-vivo chicken breast samples (n=3), then atrium (left, n=2) and ventricle (left n=1, right n=1) of swine heart tissues. SWE provided stiffness maps of the tissues before and after ablation. Areas of the lesions were obtained by tissue color change with gross pathology and compared to SWE. Shear modulus of the ablated zones increased from 4.8±1.1 kPa to 20.5+/-10.0 kPa (ratio 5.0±3.2) in the chicken breast, from 12.2±4.3 kPa to 30.3±10.3 (ratio 3.2±2.0) in the atria and from 21.2±3.3kPa to 73.8±13.9kPa (ratio 3.7±1.2) in the ventricles. On gross pathology, the size of the lesions ranged from 0.1 to 1.5cm2 in the imaging plane area and morphometric characteristics were fitting with elasticity-estimated depths and widths of the lesions

Arythmie

Ablation

Ultrasons focalisés

Cartographie

Élastographie

Tachycardie ventriculaire

Arrhythmia

Ablation

Mapping

Electro mechanical wave imaging

Elastography

Ventricular tachycardia

Shear wave imaging

High intensity focussed ultrasound

610

Efficacy and Safety of Intravenous and Oral Nadolol for Supraventricular Tachycardia in Children

Mehta, A V., Chidambaram, B

01 March 1992

The efficacy and safety of oral nadolol in supraventricular tachycardia were evaluated prospectively in 27 children (median age 5.5 years). Fifteen patients had an unsuccessful trial of digoxin therapy. Intravenous nadolol was given to seven patients during electrophysiologic study; five of these had an excellent response and two had a partial response (25% decrease in tachycardia rate). Six of these patients had a similar response to oral nadolol. Twelve patients received both propranolol and nadolol. Among six patients, intravenous propranolol was successful in four and unsuccessful in two; all six had a similar response to oral nadolol. With oral propranolol, tachycardia was well controlled in four patients and persistent in two; five of five patients had a similar response to oral nadolol. Twenty-six patients were treated with oral nadolol; the arrhythmia was well controlled in 23, 2 had recurrent tachycardia and 1 patient had tachycardia at a 25% slower rate. The effective dose of nadolol ranged between 0.5 and 2.5 mg/kg body weight once daily (median dose 1 mg/kg per day). During follow-up (3 to 36 months), compliance and tolerance were excellent; excluding 2 patients with reactive airway disease who developed wheezing, only 3 (12%) of 24 had side effects necessitating a change in drug therapy. Once a day nadolol is a safe and effective agent in the management of supraventricular tachycardia in children. Its long-term efficacy can be predicted by the short-term response to intravenous nadolol or propranolol during programmed electrophysiologic study.

administration

oral

adolescent

child

preschool

drug evaluation

drug therapy

combination

female

humans

infant

infusions

intravenous

male

nadolol (administration & dosage

adverse effects

therapeutic use)

propranolol (administration & dosage

therapeutic use)

prospective studies

tachycardia

supraventricular (drug therapy)

treatment outcome

Pediatrics