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Magnetic Resonance Phase Velocity Mapping of Cardiac DyssynchronyDelfino, Jana G. 24 May 2007 (has links)
Cardiac resynchronization therapy (CRT) has recently emerged as an effective treatment option for heart failure patients with dyssynchrony. Patients have traditionally been chosen for CRT based on a prolonged QRS interval. However, this selection method is far from ideal, as approximately 30% of those receiving CRT do not show any clinical improvement.
Tissue Doppler imaging (TDI) suggests that one of the best predictors of response to CRT is the underlying level of mechanical dyssynchrony in the myocardial wall prior to CRT. As a result, there has been growing interest in direct imaging of the myocardial wall. Because myocardial contraction is a complex, three-dimensional movement, providing an accurate picture of myocardial wall motion can be challenging. Echocardiography initially emerged as the modality of choice, but the long list of limitations (limited echocardiographic windows, one direction of motion, poor reproducibility) has fostered interest in exploring the use of MR for myocardial wall imaging. Although MR presents some unique drawbacks (expensive equipment, longer imaging times), it is able to overcome many of the limitations of TDI. In particular, Phase Velocity Mapping (MR PVM) can provide a complete, three-directional description of motion throughout the entire myocardial wall at high spatial and temporal resolution.
The overall goal of this project was to develop a patient-selection method for CRT based on myocardial wall velocities acquired with MR PVM. First the image acquisition and post-processing protocols for MR PVM imaging of myocardial tissue were developed. A myocardial motion phantom was used to verify the accuracy of, and optimize the acquisition parameters for, the developed MR PVM sequence. Excellent correlation was demonstrated between longitudinal myocardial velocity curves acquired with the optimized MR PVM sequence and Tissue Doppler velocities. A database describing the normal myocardial contraction pattern was constructed. A small group of dyssynchrony patients was compared to the normal database, and several areas of delayed contraction were identified in the patients. Furthermore, significantly higher levels of dyssynchrony were detected in the patients than the normal volunteers. Finally, a method for computing transmural, endocardial, and epicardial, radial strains and strain rates from MR PVM velocity data was developed
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Patient Ventilator Dyssynchrony: Types, Frequency and Patterns in Critically Ill AdultsMellott, Karen 01 January 2010 (has links)
Patient ventilator dyssynchrony (PVD) occurs frequently, but little is known about the types, frequency and patterns of PVD for longer than 30 minutes. Deeper levels of sedation are associated with PVD. Evaluation of ventilator graphics and the ability to identify PVD should assist clinicians to optimize patient ventilator interactions and promote earlier interventions. The purpose of this study was to identify the different types, frequency and patterns of PVD in critically ill adults and determine the effect of sedation level on PVD. Thirty medical and surgical ICU adult patients were enrolled; 27 were used for analysis. Pressure/time and flow/ time waveform data were collected using the Noninvasive Cardiac Output monitor for up to 90 minutes per subject. Blinded waveform analysis was performed. Sedation level was measured every 20 minutes. A Dyssynchrony Index (DI) and PVD Type Indices were used to describe PVD frequency. Lag analysis was used to detect associated patterns of PVD. PVD occurred during all phases of ventilated breaths and during each of the ventilatory modes used. Heretofore undocumented dyssynchrony in the form of patient gasp PVD, active triggers and combined PVDs were found. The most common type of PVD was Ineffective Trigger (63%), followed by Premature Termination-Flow (17%), Premature Termination (9%), Multiple Trigger (1%), Flow (0.87%) and Delayed Termination (0.09%). The overall frequency of dyssynchronous breaths in the sample was 23% of total breaths analyzed, however 93% of subjects experienced at least one incident of PVD. The overall median DI (Interquartile Range [IQR]) was 4% (1% - 9%) with Ineffective Trigger Index having the highest median index (1.78%). The high DI group (6 subjects, 22%) had a DI (IQR) of 61% (42% - 85%). Seventy seven percent of subjects experienced multiple types of PVD. Premature Termination was followed by Multiple Triggers starting at 3 seconds, but Delayed Termination was followed by Ineffective Triggers, starting at 30 seconds. Clinicians need to recognize PVD, since this is a critical step in evaluating patient ventilator interaction and providing subsequent intervention. PVD interpretation is complex requiring clinicians to clearly understand the operational function of ventilator modes and waveform alterations that occur.
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A translational approach to dyssynchronyKirkwood, Graeme January 2014 (has links)
Normal cardiac function is dependent on a healthy conduction system to maintain coordinated and synchronised activity. In the presence of heart failure, dyssynchronous ventricular activation due to left bundle branch block or right ventricular pacing can result in worsening symptoms and increased mortality; cardiac resynchronisation therapy in the form of biventricular pacing has therefore become an established and effective treatment. However, it also appears that right ventricular pacing can be a cause of heart failure in some individuals, even when there is no evidence of associated pre-existing cardiac disease. A better understanding of the processes leading to dyssynchrony-induced cardiomyopathy will allow better identification and treatment of patients who are at risk, and will contribute to our knowledge about heart failure in general. This PhD adopted a translational approach to cardiac dyssynchrony, by developing a novel model of atrial-synchronous ventricular pacing in adult Welsh Mountain sheep. The right ventricle was paced from the apex continuously for 3 months at a rate that was determined by the intrinsic atrial rate; this allowed the ventricular activation pattern to be altered without changing the heart rate. In parallel, a previously-developed model of rapid ventricular pacing was studied. In this model, the heart was paced continuously at a fixed rate of 210 bpm, which led to the development of symptomatic heart failure. In vivo parameters were characterised using standard clinical techniques of electrocardiography and echocardiography. Autonomic nervous system activity was investigated by examining the heart rate responses to pharmacological blockade using atropine and propranolol, and to beta-adrenergic stimulation using dobutamine. Heart rate variability was analysed in the time and frequency domains. In vitro, patch clamping studies were performed on ventricular myocytes isolated through enzymatic digestion from the interventricular septum and left ventricular free wall. Using the perforated patch current clamp technique at 37 C, action potential duration was measured and the associated triggered calcium transient was analysed using the calcium-sensitive fluorescent indicator Fura-2AM.Heart failure was associated with in vivo evidence of autonomic dysfunction, including a 38 % increase in the resting heart rate, blunting of the heart rate response to dobutamine, and almost complete loss of vagal tonic heart rate control. This pattern was not present in dyssynchrony. At a cellular level, normal sheep had heterogeneity of action potential duration, which was longer in the septum than the free wall. Heart failure disrupted this pattern, and was also associated with approximately a 40 % reduction in the magnitude of the calcium transient in both the septum and the free wall. Dyssynchrony was associated with a similar reduction in the calcium transient, but this was isolated to the free wall. RV apical pacing therefore induced a phenotype that resembled a localised cardiomyopathy, but without the associated autonomic dysfunction of the heart failure model. However, it was possible to identify a subgroup within these subjects that displayed a pattern of autonomic changes similar to those seen in heart failure, and this appeared to be associated with the most profound cellular changes. This raises the possibility that early dyssynchrony-induced cardiomyopathy may manifest as changes in the autonomic profile, which may be detectable in clinical practice.
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Etude de la mécanique ventriculaire en échographie : modélisation de l'asynchronisme mécanique / Myocardial deformation study by echocardiographyLim, Pascal 16 December 2010 (has links)
Introduction : La resynchronisation cardiaque (CRT) améliore les patients insuffisants cardiaques, symptomatiques malgré un traitement médical optimal et présentant un élargissement du QRS>120ms. Cependant, un tiers des patients ne répondent pas à cette thérapie. L'objet de cette thèse est d'identifier les mécanismes déterminant la réponse à la CRT. Méthode: Dans un premier temps, nous avons apprécié la précision des méthodes de quantification de la contraction myocardique utilisées pour caractériser l'asynchronisme. Ensuite, nous avons évalué les facteurs liés à l'asynchronisme et à la réponse à la CRT (fibrose, nécrose myocardique, réserve contractile). De plus, nous avons développé et validé un nouvel indice permettant d'évaluer les conséquences « énergétiques » de l'asynchronisme sur la contraction myocardique. Résultats: Nous avons démontré que le strain longitudinal en speckle tracking était supérieur au Doppler tissulaire pour évaluer la déformation et l'asynchronisme myocardique et qu'il était mieux corrélé au pronostic des patients insuffisants cardiaques. Ensuite nous avons mis en évidence que le retard de contraction mécanique n'était pas lié simplement à un bloc de conduction électrique mais qu'il était observé pour l'ensemble des segments myocardiques nécrosés. De plus ces zones de fibrose et de nécrose évaluées en échographie de stress influencent la réponse à la CRT. Ces résultats suggèrent l'importance de considérer le retard de contraction et la contractilité résiduelle pour prédire la réponse à la CRT. A partir de cette hypothèse, nous avons validé un indice unique associant l'asynchronisme et la contractilité résiduelle pour évaluer la perte d'énergie contractile liée au retard de contraction. Conclusion : Les travaux réalisés ont permis de développer des outils pour mieux apprécier les conséquences de l'asynchronisme myocardique. / Background: Randomized studies demonstrated that Cardiac Resynchronization Therapy (CRT) improves symptoms and survival in heart failure patients with wide QRS duration that remains symptomatic despite optimal medical treatments. However, up to 40% of patients did not response to CRT. The purpose of this work was to investigate the underlying mechanisms of mechanical cardiac dyssynchrony to optimize the identification of responder to CRT. Methods: The first part of our study was to identify the accurate echocardiography method for quantifying of myocardial deformation and dyssynchrony (Tissue Doppler Imaging and Speckle tracking analysis). Next, we studied factors (myocardial scar and contractile reserve) interacting with myocardial dyssynchrony and response to CRT. Then, we developed and validated a mathematical model (strain delay index) to assess the wasted energy related to myocardial dyssynchrony. Results: First we demonstrated that longitudinal strain computed from spec kle tracking analysis was superior to tissue Doppler imaging in assessing myocardial dyssynchrony and function with a better correlation with outcome in heart failure patients. Next, we showed that mechanical dyssynchrony was not specific of electrical delay but was prevalent in scar segments. In addition, using dobutamine stress echocardiography, we demonstrated that contractile reserve in delayed segments greatly impacts on response to CRT. Then, we proposed and validated a mathematical model, the strain delay index for assessing the wasted energy related to mechanical dyssynchrony. Conclusion: The mathematical model proposed in the present study to assess the impact of dyssynchrony on myocardial contractility allows a better identification of responder to CRT.
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Prospective left ventricular lead targeting in cardiac resynchronisation therapyKhan, Fakhar Zaman January 2014 (has links)
No description available.
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The clinical value of total isovolumic timeBajraktari, Gani January 2014 (has links)
The objective of this thesis is to evaluate the use of Doppler echocardiography markers ofglobal dyssynchrony [total isovolumic time (t-IVT)] in the following 6 studies: 1) Its prognostic role in predicting cardiac events in patients undergoing CABG surgery,compared with conventional global systolic and diastolic measurements. 2) Its additional value in predicting six minute walk test (6-MWT) in patients with leftventricular (LV) ejection fraction (EF) <45%. 3) Its prognostic value in comparison with other clinical, biochemical and echocardiographicvariables in patients with chronic systolic heart failure (HF). 4) The relationship between 6-MWT and cardiac function measurements in a consecutivegroup of patients, irrespective of EF and to identify predictors of exercise capacity. 5) To investigate the effect of age on LV t-IVT and Tei index compared with conventionalsystolic and diastolic parameters. 6) To assess potential additional value of markers of global LV dyssynchrony in predictingcardiac resynchronization therapy (CRT) response in HF patients. Study I Methods: This study included 74 patients before routine CABG who were followed up for18±12 months. Results: At follow-up, 29 patients were hospitalized for a cardiac event or died. LV-ESD wasgreater (P=0.003), fractional shortening (FS) lower (p<0.001), E:A ratio and Tei index higher(all P<0.001), and t-IVT longer (P<0.001) in patients with events. Low FS [0.66 (0.50–0.87),P<0.001], high E:A ratio [l4.13 (1.17–14.60), P=0.028], large LV-ESD [0.19 (0.05–0.84),P=0.029], and long t-IVT [1.37 (1.02–1.84), P=0.035] predicted events and deaths. Conclusion: Despite satisfactory surgical revascularization, long t-IVT and systolicdysfunction suggest persistent ventricular dyssynchrony that contributes to post-CABGcardiac events. Study II Methods: We studied 77 patients (60±12 year, and 33.3% females) with stable HF using 6-MWT.iii Results: E’ wave (r=0.61, p<0.001), E/e’ ratio (r=-0.49, p<0.001), t-IVT (r=-0.44, p<0.001),Tei index (r=-0.43, p<0.001) and NYHA class (r=-0.53, p<0.001) had the highest correlationwith the 6-MWT distance. In multivariate analysis, only E/e’ ratio [0.800 (0.665-0.961),p=0.017], and t-IVT [0.769 (0.619-0.955), p=0.018] independently predicted poor 6-MWTperformance (<300m). Conclusions: In HF, the higher the filling pressures and the more dyssynchronous the LV, thepoorer is the patient’s exercise capacity. Study III Methods: We studied 107 systolic HF patients; age 68±12 year, 25% females and measuredplasma NT-pro-BNP. Results: Over a follow-up period of 3718 months, t-IVT ≥12.3 sec/min, mean E/Em ratio≥10, log NT-pro-BNP levels ≥2.47 pg/ml and LV EF ≤32.5% predicted clinical events. Theaddition of t-IVT and NT-pro-BNP to conventional clinical and echocardiographic variablessignificantly improved the χ2 for the prediction of outcome from 33.1 to 38.0, (p<0.001). Conclusions: Prolonged t-IVT adds to the prognostic stratification of patients with systolicHF. Study IV Methods: We studied 147 HF patients (61±11 year, 50.3% male) with 6-MWT.Results: The 6-MWT correlated with t-IVT (r=-0.49, p<0.001) and Tei index (r=-0.43,p<0.001) but not with any of the other clinical or echocardiographic parameters. Group Ipatients (<300m) had lower Hb (p=0.02), lower EF (p=0.003), larger left atrium (p=0.02),thicker septum (p=0.02), lower A wave (p=0.01) and lateral wall a’ (p=0.047), longerisovolumic relaxation time (r=0.003) and longer t-IVT (p= 0.03), compared with Group II(>300m). Only t-IVT ratio [1.257 (1.071-1.476), p=0.005], LV EF [0.947 (0.903-0.993),p=0.02], and E/A ratio [0.553 (0.315-0.972), p=0.04] independently predicted poor 6-MWTperformance. Conclusion: In HF, the limited 6-MWT is related mostly to severity of global LVdyssynchrony, more than EF or raised filling pressures. Study V Methods: We studied 47 healthy individuals (age 62±12 year, 24 female), arbitrarilyclassified into: M (middle age), S (seniors), and E (elderly). Results: Age strongly correlated with t-IVT (r=0.8, p<0.001) and with Tei index (r=0.7,p<0.001), E/A ratio (r=-0.6, p<0.001), but not with global or segmental systolic function measurements or QRS duration. The normal upper limit of the t-IVT (95% CI) for the three groups was 8.3 s/min, 10.5 s/min and 14.5 s/min, respectively, being shorter in the S compared with the E group (p=0.001). T-IVT correlated with A wave (r=0.66, p<0.001), E/Aratio (r=-0.56, p<0.001), septal e’ (r=-0.49, p=0.001) and septal a’ (r=0.4, p=0.006), but notwith QRS. Conclusions: In normals, age is associated with exaggerated LV global dyssynchrony anddiastolic function disturbances, but systolic function remains unaffected. Study VI Methods: We studied 103 HF patients (67±12 year, 82.5% male) recruited for CRTtreatment. Results: Prolonged t-IVT [0.878 (0.802-0.962), p=0.005], long QRS duration [0.978 (0.960-0.996), p=0.02] and high tricuspid regurgitation pressure drop (TRPD) [1.047 (1.001-1.096),p=0.046] independently predicted response to CRT. A t-IVT ≥11.6 s/min was 67% sensitiveand 62% specific (AUC 0.69, p=0.001) in predicting CRT response. Respective values for aQRS ≥ 151ms were 66% and 62% (AUC 0.65, p=0.01). Combining the two variables had asensitivity of 67% but higher specificity of 88% in predicting CRT response. In atrialfibrillation (AF) patients, only prolonged t-IVT ≥11 s/min [0.690 (0.509-0.937), p=0.03]independently predicted CRT response with a sensitivity of 69% and specificity of 79% (AUC0.78, p=0.015). Conclusion: Combining prolonged t-IVT and broad QRS had higher specificity in predictingresponse to CRT, with the former the sole predictor of response in AF patients.
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Statistical atlases of cardiac motion and deformation for the characterization of CRT respondersDuchateau, Nicolas Guillem 28 February 2012 (has links)
The definition of optimal selection criteria for maximizing the response rate to Cardiac Resynchronization Therapy (CRT) is still an issue under active debate. Recent clinical approaches propose a classification of patients into classes of mechanisms that could lead to heart failure and study their response to the therapy. In this line of research, the computation of a metric between the motion and deformation patterns of a given subject and well identified classes of CRT responders is considered in this thesis, as the basis of a new strategy to compute patient selection indexes. The thesis proposes first an improved design for the construction of statistical atlases of myocardial motion and deformation, and applies it to the characterization of populations of patients involved in CRT. The added-value of our approach is highlighted in a clinical study, applying the methodology to a large population of patients with a given pattern of dyssynchrony (septal flash) and understanding the link between its correction and CRT response. Finally, we propose a method to extend the analysis to the comparison of individuals to reference populations, either healthy or pathological, using manifold learning techniques to model a disease as progressive deviations from normality along a manifold structure, and demonstrate the potential of our method for inter-subject comparison in CRT patients. / La definición de un criterio óptimo para mejorar la respuesta a la Terapia de Resincronización Cardíaca (TRC) sigue siendo un debate abierto. Estudio clínicos recientemente publicados proponen clasificar pacientes
según diversos mecanismos patofisiológicos que pueden inducir insuficiencia cardíaca y estudian su respuesta a la terapia. Siguiendo esta línea de investigación, esta tesis considera el cálculo de una distancia entre los patrones de movimiento y deformación de un individuo y las clases de respondedores a la TRC, siendo la base de una nueva estrategia para calcular índices para seleccionar pacientes. Esta tesis presenta primero un método para construir un atlas estadístico de movimiento y deformación miocárdica, y su aplicación posterior a la caracterización de poblaciones de potenciales candidatos a la TRC. El valor añadido de nuestro método se enfatiza en un estudio clínico, en el cual se aplica la metodología a una gran población de pacientes con un patrón específico de disincronía cardíaca (llamado septal flash), y se relaciona su corrección y la respuesta a la TRC. Finalmente, se
extiende el método para comparar individuos a una población de referencia, sana o patológica, usando técnicas de manifold learning para representar una patología como una desviación progresiva de la normalidad, con una estructura no lineal específica, y se demuestra el potencial de nuestro método para comparar entre sí candidatos a la TRC.
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Alterations in Cardiac Motions of the Failing Heart during Direct Mechanical Ventricular ActuationSchmitt, Benjamin Allyn 03 June 2021 (has links)
No description available.
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Efeitos da terapia de ressincronização cardíaca no remodelamento ventricular reverso de pacientes com cardiopatia dilatada não isquêmica: avaliação pela ecocardiografia tridimensional / Effects of cardiac resynchronization therapy on left ventricular reverse remodeling in patients with non ischemic dilated myocardiopathy: evaluation by three dimensional echocardiographyHotta, Viviane Tiemi 18 June 2010 (has links)
Introdução: A terapia de ressincronização cardíaca (TRC) tem se mostrado como um tratamento eficaz no tratamento de pacientes com insuficiência cardíaca (IC) grave e distúrbio da condução ventricular. A ecocardiografia tridimensional (Eco 3D) consiste em uma nova modalidade diagnóstica com resultados promissores para a identificação da dissincronia cardíaca e avaliação dos resultados da TRC. Objetivos: Estudar os efeitos da TRC no remodelamento reverso do ventrículo esquerdo (VE), em pacientes com miocardiopatia não isquêmica, insuficiência cardíaca e distúrbio da condução intraventricular, por meio da ecocardiografia tridimensional em tempo real. Métodos: De janeiro de 2007 a junho de 2009, foram avaliados 24 pacientes com miocardiopatia dilatada não isquêmica, IC classe funcional (CF) III ou IV (NYHA), com tratamento medicamentoso otimizado, QRS > 120 ms ao eletrocardiograma, e fração de ejeção do ventrículo esquerdo (FEVE) < 0,35 submetidos à TRC. Os pacientes foram avaliados antes, três e seis meses após TRC pela CF (NYHA), qualidade de vida pelo escore de Minnesota (MLHFQ), eletrocardiograma (intervalo PR e duração do QRS), ecocardiograma bidimensional (volumes diastólico VDVE, e sistólico VSVE, do ventrículo esquerdo, fração de ejeção ventricular esquerda - FEVE), Doppler tecidual (TDI) (avaliação da dissincronia cardíaca) e análise tridimensional (VDVE, VSVE, FEVE e dissincronia pela análise do SDI systolic dyssynchrony index). Foi considerado remodelamento reverso redução > 15% do VSVE após a TRC. As diferenças das médias das variáveis contínuas foram analisadas com o teste T não pareado, entre os grupos respondedor e não respondedor, depois de satisfeita a condição de normalidade. Antes da TRC, foi realizada uma análise univariada das características clínicas, eletrocardiográficas e ecocardiográficas para a construção de um modelo de regressão logística. Resultados: 9/24(38%) dos pacientes analisados apresentaram remodelamento ventricular reverso após TRC. O grupo respondedor apresentou menores volumes ventriculares (VDVE: 230 + 35 ml vs 316 + 10 ml, p = 0,045; VSVE: 178 + 30 ml vs 238 + 10 ml, p = 0,047), avaliados pelo método de Simpson, além de maior dissincronia cardíaca, avaliada pelo Eco 3D (SDI:13 + 3% vs 9 + 3%, p = 0,005) e pelo TDI (138 + 31 ms vs 102 + 37 ms, p = 0,026). Após a análise de regressão logística, o SDI (SDI > 11%) foi o único fator independente na predição de remodelamento reverso, seis meses após a TRC (sensibilidade:0,78; especificidade:0,79). Conclusões: O Eco 3D foi eficaz na detecção do remodelamento reverso do VE após a TRC, por meio da detecção da redução dos volumes ventriculares esquerdos (VDVE, VSVE) e da melhora da FEVE. O SDI foi o único preditor independente de remodelamento reverso após a TRC. Apresentaram menor taxa de resposta seis meses após a TRC, os pacientes com maiores volumes ventriculares esquerdos e menor fração de ejeção ventricular esquerda. A TRC melhorou a CF (NYHA) de IC e a qualidade de vida pelo escore de Minnesota / Introduction: Cardiac resynchronization therapy (CRT) consists of an effective treatment for patients with severe heart failure and ventricular conduction disturbance. Three dimensional echocardiography (3D Echo) is a new diagnostic modality with promising results in the identification of cardiac dyssynchrony and for the evaluation of CRT results. Objectives: To evaluate the effects of CRT in the left ventricular (LV) reverse remodeling in patients with non ischemic dilated myocardiopathy, heart failure and intraventricular conduction disturbance by using three dimensional echocardiography. Methods: From January, 2007 to June, 2009, twenty-four consecutive patients with heart failure, sinus rhythm, QRS > 120 ms, and Functional Class III or IV (NYHA), despite optimized medical treatment and left ventricular ejection fraction (LVEF) < 0,35, underwent CRT. All patients were assessed regarding Functional Class (NYHA), and the quality of life was evaluated using the Minnesota Living with Heart Failure Questionnaire (MLHFQ). All patients were submitted to an electrocardiogram, two dimensional echocardiography (2D Echo) including the evaluation of cardiac dyssynchrony by Tissue Doppler Imaging (TDI) and 3D Echo (SDI - systolic dyssynchrony index), before, three and six months after CRT. Left ventricular reverse remodeling was defined as a reduction of at least 15% of the left ventricular systolic volume (LVSV) after CRT. The difference between the mean of the continuous variables were compared by students T test, after being tested for normality. Before CRT, it was performed a univariate analysis of clinical, electrocardiographic and echocardiographic baseline characteristics of the patients for the construction of a logistic regression model. Results: 9/24 (38%) of the patients presented with left ventricular reverse remodeling six months after CRT. Patients who presented LV reverse remodeling had smaller left ventricular volumes estimated by Simpsons rule (LV diastolic volume (LVDV): 230 + 35 ml vs 316 + 10 ml, p = 0,045; LVSV: 178 + 30 ml vs 238 + 10 ml, p = 0,047) and greater cardiac dyssynchrony detected by 3D Echo (SDI: 13 + 3% vs 9 + 3%, p = 0,005) and by TDI (138 + 31 ms vs 102 + 37 ms, p = 0,026). After logistic regression analysis, the best predictors of left ventricular reverse remodeling after CRT were the cardiac dyssynchrony indexes evaluated by TDI (twelve segments) and SDI, but SDI (SDI > 11%) was the only independent factor in the prediction of left ventricular reverse remodeling six months after CRT (sensitivity of 0,78 and specificity of 0,79). Conclusions: 3D Echo was effective in the detection of left ventricular reverse remodeling after CRT, by detecting the reduction in left ventricular volumes (LVDV, LVSV) and the increase in LVEF. SDI was the only independent predictor of LV reverse remodeling after CRT. Patients with larger LV volumes, and smaller LVEF were more prone to not respond six months after CRT. CRT improved Functional Class (NYHA) and quality of life evaluated by MLHFQ
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Efeitos da terapia de ressincronização cardíaca no remodelamento ventricular reverso de pacientes com cardiopatia dilatada não isquêmica: avaliação pela ecocardiografia tridimensional / Effects of cardiac resynchronization therapy on left ventricular reverse remodeling in patients with non ischemic dilated myocardiopathy: evaluation by three dimensional echocardiographyViviane Tiemi Hotta 18 June 2010 (has links)
Introdução: A terapia de ressincronização cardíaca (TRC) tem se mostrado como um tratamento eficaz no tratamento de pacientes com insuficiência cardíaca (IC) grave e distúrbio da condução ventricular. A ecocardiografia tridimensional (Eco 3D) consiste em uma nova modalidade diagnóstica com resultados promissores para a identificação da dissincronia cardíaca e avaliação dos resultados da TRC. Objetivos: Estudar os efeitos da TRC no remodelamento reverso do ventrículo esquerdo (VE), em pacientes com miocardiopatia não isquêmica, insuficiência cardíaca e distúrbio da condução intraventricular, por meio da ecocardiografia tridimensional em tempo real. Métodos: De janeiro de 2007 a junho de 2009, foram avaliados 24 pacientes com miocardiopatia dilatada não isquêmica, IC classe funcional (CF) III ou IV (NYHA), com tratamento medicamentoso otimizado, QRS > 120 ms ao eletrocardiograma, e fração de ejeção do ventrículo esquerdo (FEVE) < 0,35 submetidos à TRC. Os pacientes foram avaliados antes, três e seis meses após TRC pela CF (NYHA), qualidade de vida pelo escore de Minnesota (MLHFQ), eletrocardiograma (intervalo PR e duração do QRS), ecocardiograma bidimensional (volumes diastólico VDVE, e sistólico VSVE, do ventrículo esquerdo, fração de ejeção ventricular esquerda - FEVE), Doppler tecidual (TDI) (avaliação da dissincronia cardíaca) e análise tridimensional (VDVE, VSVE, FEVE e dissincronia pela análise do SDI systolic dyssynchrony index). Foi considerado remodelamento reverso redução > 15% do VSVE após a TRC. As diferenças das médias das variáveis contínuas foram analisadas com o teste T não pareado, entre os grupos respondedor e não respondedor, depois de satisfeita a condição de normalidade. Antes da TRC, foi realizada uma análise univariada das características clínicas, eletrocardiográficas e ecocardiográficas para a construção de um modelo de regressão logística. Resultados: 9/24(38%) dos pacientes analisados apresentaram remodelamento ventricular reverso após TRC. O grupo respondedor apresentou menores volumes ventriculares (VDVE: 230 + 35 ml vs 316 + 10 ml, p = 0,045; VSVE: 178 + 30 ml vs 238 + 10 ml, p = 0,047), avaliados pelo método de Simpson, além de maior dissincronia cardíaca, avaliada pelo Eco 3D (SDI:13 + 3% vs 9 + 3%, p = 0,005) e pelo TDI (138 + 31 ms vs 102 + 37 ms, p = 0,026). Após a análise de regressão logística, o SDI (SDI > 11%) foi o único fator independente na predição de remodelamento reverso, seis meses após a TRC (sensibilidade:0,78; especificidade:0,79). Conclusões: O Eco 3D foi eficaz na detecção do remodelamento reverso do VE após a TRC, por meio da detecção da redução dos volumes ventriculares esquerdos (VDVE, VSVE) e da melhora da FEVE. O SDI foi o único preditor independente de remodelamento reverso após a TRC. Apresentaram menor taxa de resposta seis meses após a TRC, os pacientes com maiores volumes ventriculares esquerdos e menor fração de ejeção ventricular esquerda. A TRC melhorou a CF (NYHA) de IC e a qualidade de vida pelo escore de Minnesota / Introduction: Cardiac resynchronization therapy (CRT) consists of an effective treatment for patients with severe heart failure and ventricular conduction disturbance. Three dimensional echocardiography (3D Echo) is a new diagnostic modality with promising results in the identification of cardiac dyssynchrony and for the evaluation of CRT results. Objectives: To evaluate the effects of CRT in the left ventricular (LV) reverse remodeling in patients with non ischemic dilated myocardiopathy, heart failure and intraventricular conduction disturbance by using three dimensional echocardiography. Methods: From January, 2007 to June, 2009, twenty-four consecutive patients with heart failure, sinus rhythm, QRS > 120 ms, and Functional Class III or IV (NYHA), despite optimized medical treatment and left ventricular ejection fraction (LVEF) < 0,35, underwent CRT. All patients were assessed regarding Functional Class (NYHA), and the quality of life was evaluated using the Minnesota Living with Heart Failure Questionnaire (MLHFQ). All patients were submitted to an electrocardiogram, two dimensional echocardiography (2D Echo) including the evaluation of cardiac dyssynchrony by Tissue Doppler Imaging (TDI) and 3D Echo (SDI - systolic dyssynchrony index), before, three and six months after CRT. Left ventricular reverse remodeling was defined as a reduction of at least 15% of the left ventricular systolic volume (LVSV) after CRT. The difference between the mean of the continuous variables were compared by students T test, after being tested for normality. Before CRT, it was performed a univariate analysis of clinical, electrocardiographic and echocardiographic baseline characteristics of the patients for the construction of a logistic regression model. Results: 9/24 (38%) of the patients presented with left ventricular reverse remodeling six months after CRT. Patients who presented LV reverse remodeling had smaller left ventricular volumes estimated by Simpsons rule (LV diastolic volume (LVDV): 230 + 35 ml vs 316 + 10 ml, p = 0,045; LVSV: 178 + 30 ml vs 238 + 10 ml, p = 0,047) and greater cardiac dyssynchrony detected by 3D Echo (SDI: 13 + 3% vs 9 + 3%, p = 0,005) and by TDI (138 + 31 ms vs 102 + 37 ms, p = 0,026). After logistic regression analysis, the best predictors of left ventricular reverse remodeling after CRT were the cardiac dyssynchrony indexes evaluated by TDI (twelve segments) and SDI, but SDI (SDI > 11%) was the only independent factor in the prediction of left ventricular reverse remodeling six months after CRT (sensitivity of 0,78 and specificity of 0,79). Conclusions: 3D Echo was effective in the detection of left ventricular reverse remodeling after CRT, by detecting the reduction in left ventricular volumes (LVDV, LVSV) and the increase in LVEF. SDI was the only independent predictor of LV reverse remodeling after CRT. Patients with larger LV volumes, and smaller LVEF were more prone to not respond six months after CRT. CRT improved Functional Class (NYHA) and quality of life evaluated by MLHFQ
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