Abstract
Background:
Cardiac resynchronization therapy (CRT) is the recommended treatment by leading global guidelines. However, 30%-40% of selected patients are non-responders.
Objective:
To develop an echocardiographic model to predict cardiac death or transplantation (Tx) 1 year after CRT.
Method:
Observational, prospective study, with the inclusion of 116 patients, aged 64.89 ± 11.18 years, 69.8% male, 68,1% in NYHA FC III and 31,9% in FC IV, 71.55% with left bundle-branch block, and median ejection fraction (EF) of 29%. Evaluations were made in the pre‑implantation period and 6-12 months after that, and correlated with cardiac mortality/Tx at the end of follow-up. Cox and logistic regression analyses were performed with ROC and Kaplan-Meier curves. The model was internally validated by bootstrapping.
Results:
There were 29 (25%) deaths/Tx during follow-up of 34.09 ± 17.9 months. Cardiac mortality/Tx was 16.3%. In the multivariate Cox model, EF < 30%, grade III/IV diastolic dysfunction and grade III mitral regurgitation at 6‑12 months were independently related to increased cardiac mortality or Tx, with hazard ratios of 3.1, 4.63 and 7.11, respectively. The area under the ROC curve was 0.78.
Conclusion:
EF lower than 30%, severe diastolic dysfunction and severe mitral regurgitation indicate poor prognosis 1 year after CRT. The combination of two of those variables indicate the need for other treatment options.
Keywords:
Heart Failure/ mortality; Echocardiography; Pacemaker, Artificial; Cardiac Resynchronization Therapy; Risk Factors
Resumo
Fundamento:
A terapia de ressincronização cardíaca (TRC) é um tratamento recomendado pelas principais diretrizes mundiais. Entretanto, 30%-40% dos pacientes selecionados não respondem ao tratamento.
Objetivo:
Elaborar um modelo ecocardiográfico preditor de risco de óbito cardíaco ou transplante (Tx) após 1 ano da TRC.
Método:
Estudo observacional, prospectivo, com inclusão de 116 pacientes, sendo 69,8% do sexo masculino, com idade de 64,89 ± 11,18 anos, CF III (68,1%) e IV ambulatorial (31,9%), bloqueio de ramo esquerdo em 71,55%, e mediana da fração de ejeção (FE) de 29%. Avaliações foram feitas no período pré-implante e 6-12 meses após, e correlacionadas com mortalidade cardíaca/Tx no final do seguimento. Foram realizadas análises de regressão de Cox e logística, com a curva ROC e de sobrevida de Kaplan-Meier. O modelo foi validado internamente pelo “bootstrapping”.
Resultados:
Ocorreram 29 (25%) óbitos/Tx durante o seguimento de 34,09 ± 17,9 meses. A mortalidade cardíaca/Tx foi de 16,3 %. No modelo multivariado de Cox, as variáveis FE < 30%, disfunção diastólica grau III/IV e regurgitação mitral grau III, aferidas com 6-12 meses, relacionaram-se independentemente a aumento de mortalidade cardíaca ou Tx, com razões de risco de 3,1, 4,63 e 7,11, respectivamente. A área sob a curva ROC foi de 0,78.
Conclusão:
FE menor que 30%, disfunção diastólica grave e regurgitação mitral severa indicam pior prognóstico após 1 ano da TRC, devendo ser consideradas outras opções terapêuticas na presença da combinação de duas dessas variáveis.
Palavras-chave:
Insuficiência Cardíaca / mortalidade; Ecocardiografia; Marca-Passo Artificial; Terapia de Ressincronização Cardíaca; Fatores de Risco
Introduction
Scientific evidence places cardiac resynchronization therapy (CRT) as class I in the major guidelines of pacemaking and congestive heart failure (CHF) for patients on optimal clinical treatment, with New York Heart Association (NYHA) functional class (FC) II, III or ambulatory IV CHF, ejection fraction (EF) ≤35%, and intraventricular conduction disorder, mainly of the left bundle branch11 Bochi EA, Braga FG, Ferreira SM, Rohde LE, Oliveira WA, Almeida DR, et al; Sociedade Brasileira de Cardiologia. III Brazilian Guideline on chronic heart failure. Arq Bras Cardiol. 2009;93(1 Suppl 1):3-70.,22 Tracy CM, Epstein AE, Darbar D, Dimarco JP, Dunbar SB, Estes NA 3rd, et al. 2012 ACCF/AHA/HRS focused update of the 2008 guidelines for device-based therapy of cardiac rhythm abnormalities: a report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines. J Am Coll Cardiol. 2012;60(14):1297-313..
However, 30%-40% of the patients submitted to CRT might not have a favorable outcome, requiring surgical treatment, with high risks and costs, and no clinical, hemodynamic or survival benefits33 Saxon LA, Ellenbogen KA. Resynchronization therapy for the treatment of heart failure. Circulation. 2003;108(9):1044-8.,44 Bax JJ, Bleeker GB, Marwick TH, Molhoek SG, Boersma E, Steendijk P, et al. Left ventricular dyssynchrony predicts response and prognosis after cardiac resynchronization therapy. J Am Coll Cardiol. 2004;44(9):1834-40..
Several studies have been aimed at identifying predictors of response to CRT, but with different patterns of definition of response, using mainly comparisons with the end-systolic volume (ESV) and FC improvement55 Yu CM, Bleeker GB, Fung JW, Schalij MJ, Zhang Q, van der Wall EE, et al. Left ventricular reverse remodeling but not clinical improvement predicts long-term survival after cardiac resynchronization therapy. Circulation. 2005;112(11):1580-6.. However, patients considered to be responders according to the analysis of ventricular volumes have no correlation with the clinical improvement observed, the walking test or the quality of life. That discrepancy is not a surprise, considering that CRT acts via several hemodynamic and neuro-humoral pathways66 Cleland JG, Ghio S. The determinants of clinical outcome and clinical response to CRT are not the same. Heart Fail Rev. 2012;17(6):755-66..
The effects of CRT involve changes in the systolic or diastolic mitral regurgitation grade, diastolic dysfunction grade, systolic function and dyssynchrony. Therefore, a prognostic assessment or response definition using only one variable, such as left ventricular ESV, lacks accuracy.
Thus, multifactorial indices or scores77 Foley PW, Leyva F, Frenneaux MP. What is treatment success in cardiac resynchronization therapy? Europace. 2009;11(Suppl 5):v58-65. are required to more accurately identify predictors of better survival and to designate real responders. Those indices should involve a higher number of variables, with greater sensitivity and specificity.
This study aimed at developing an echocardiographic model to predict the risk of cardiac death or transplantation (Tx) after CRT.
Methods
This is a prospective, observational study, assessing 116 patients with multisite pacemaker implanted at a university-affiliated tertiary hospital. Assessments were performed in the pre-implantation period (1st analysis) and at 1 year after implantation (2nd analysis). Table 1shows the characteristics of the study population.
Most right ventricular electrodes were positioned in the apical region (84%), and a larger distance was kept between the left ventricular and right ventricular electrodes. The models used were St. Jude Medical, Biotronik, Medtronic, and Guidant in 92, 12, 10, and 2 patients, respectively. Two patients received implantations via mini-thoracotomy. The number of patients selected was based on previous studies with similar outcomes.
Drug doses were modified during the follow-up at the discretion of the attending physicians (3 specialists on cardiac stimulation belonging to the same team), responsible for all clinical and surgical procedures. Six echocardiographic variables considered to be of easy acquisition in daily practice and of clinical usefulness were selected for analysis.
Echocardiographic Parameters
The echocardiographic parameters were analyzed according to the Brazilian88 Camarozano A, Rabischoffsky A, Maciel BC, Brindeiro Filho D, Horowitz ES, Pena JL, et al; Sociedade Brasileira de Cardiologia. Diretrizes das indicações da ecocardiografia. Arq Bras Cardiol. 2009;93(6 supl. 3):e265-e302. and North-American guidelines for echocardiography99 Gottdiener JS, Bednarz J, Devereux R, Gardin J, Klein A, Manning WJ, et al. American Society of Echocardiography recommendations for use of echocardiography in clinical trials. J Am Soc Echocardiogr. 2004;17(10):1086-119.. All echocardiographies were performed by 3 experienced echocardiographers, one of whom was responsible for 70% of the examinations. The GE Vivid 7 Ultrasound System (GE Healthcare, Fairfield, CT, USA) with a 3.5-MHz transducer was used. The echocardiographers, who were blinded to the previous clinical and echocardiographic findings of the patients, had experience with that type of patient.
The systolic function was analyzed by using the Simpson method, in the two- and four-chamber two-dimensional mode, followed by the mean. The ventricular diameters were obtained in M mode, according to the guideline recommendations99 Gottdiener JS, Bednarz J, Devereux R, Gardin J, Klein A, Manning WJ, et al. American Society of Echocardiography recommendations for use of echocardiography in clinical trials. J Am Soc Echocardiogr. 2004;17(10):1086-119..
The diastolic function was assessed by using mitral flow (at rest and after Valsalva maneuver), tissue Doppler and flow propagation speed on color M-mode. The diastolic dysfunction was classified into four grades as follows: I, mild; II, moderate or pseudonormal; III, accentuated or with restrictive dysfunction; and IV, severe or with irreversible restrictive dysfunction1010 Nagueh SF, Appleton CP, Gillebert TC, Marino PN, Oh JK, Smiseth OA, et al. Recommendations for the evaluation of left ventricular diastolic function by echocardiography. Eur J Echocardiogr. 2009;10(2):165-93..
The grade of mitral regurgitation was assessed by use of color Doppler, according to the left atrial filling percentage. In mild reflow, that percentage was below 20%; in moderate, between 20% and 40%; percentages greater than those indicated significant reflow. In that practical context, the Coanda effect was interpreted as moderate reflow when restricted to the atrial lateral wall, and accentuated, when extended to the upper pole of the left atrium.
All patients provided written informed consent, and the study was approved by the Ethics Committee of the hospital.
Statistical Analysis
The Shapiro-Wilk test was used to check the normality of the distribution of the variables. Ejection fraction and left ventricular diastolic diameter (LVDD) did not have a normal distribution.
The categorical variables were presented as frequencies and percentages, and the continuous variables, as means and standard deviations or medians. The categorical variables were compared by using the Mac-Nemar, Stuart-Maxwell or chi-square tests. The Student t test was used to compare the distributions of normal, continuous variables, while the Wilcoxon/Mann-Whitney test, to compare continuous variables without normal distribution. The distributions were considered significantly different for p values lower than 0.05.
The univariate relationship between the echocardiographic variables and cardiac death or Tx was assessed by use of Kaplan-Meier survival curve, log-rank test and Cox regression. The continuous variables were assessed by use of Cox regression in the search for a cutoff point.
A Cox multiple regression model was developed in the first year after CRT to assess the independent contribution of each significant echocardiographic variable previously selected in the Cox univariate model. Variables with a p value < 10% were considered potential confounders. Each variable was included in the multivariate model according to hazard descending order, being excluded when p ≥ 5%.
Logistic regression analysis was performed, using hazard1111 Boidol J, Sredniawa B, Kowalski O, Szulik M, Mazurek M, Sokal A, et al. Many response criteria are poor predictors of outcomes after cardiac resynchronization therapy: validation using data from the randomized trial. Europace. 2013;15(6):835-44. as an independent variable to measure the risk, and cardiac death/Tx as a dependent variable. The accuracy of the models was assessed by using the ROC curve, with sensitivity and specificity. The model was elaborated by dividing the hazard scores into risk categories according to the number of existing variables and classified as low (class A), intermediate (class B) and high risk (class C). To elaborate the scores, the hazard of individual variables was divided by the highest hazard of the model, multiplied by 100 and rounded to the nearest highest algorithm.
To assess the proportional hazards associated with the predictors, Schoenfeld test was used. Bootstraping was used for the internal validation of the model, with confidence interval for the estimated hazard, generating 10,000 random samples of size 60, without replacing the original data set. For each 10,000 artificial samples, the hazards corresponding to each covariable were estimated. The values were ordinated for each covariable, the 95% confidence interval being observed.
Data were assessed by using the Stata/SE software, version 12.1 (StataCorp LP, College Station, TX, USA), and the “R” software (R Foundation for Statistical Computing, Vienna, Austria).
Results
In the 34.09 ± 17.9 months of follow-up, 29 patients died, accounting for a total mortality of 25%. Cardiac mortality/Tx was 16.3%, corresponding to 19 patients, 6 of whom underwent Tx during the study period, 5 due to refractory CHF and 1 due to arrhythmic storm. Of the 6 transplanted patients, 3 died due to advanced disease when undergoing Tx.
In the Cox multivariate model, the variables EF < 30%, diastolic dysfunction and mitral regurgitation were independently related to increased cardiac mortality/Tx, with hazard ratios of 3.1, 4.63 and 7.11, respectively (Table 2).
The significant variables in the multivariate model were also significant separately in the Kaplan-Meier model, when compared by using log-rank test (p < 0.001) (Figures 1-3). The analysis of the model by using the ROC curve showed an area under the curve (AUC) of 0.785, with sensitivity of 56.2%, specificity of 94.1% and accuracy of 88.2%.
Kaplan-Meier curve for the variable ejection fraction (EF) dichotomized between > 30% and ≤30% at the 2nd phase of the analysis (1 year) exclusively with the echocardiographic variables, p < 0.001, compared by using log-rank test.
Kaplan-Meier curve for the variable diastolic dysfunction (grades I and II compared to grades III and IV) at the 2nd phase of the analysis (1 year), with p < 0.001, compared by using log-rank test.
Kaplan-Meier curve for the variable mitral regurgitation (MR), comparing the grades mild, moderate and severe at the 2nd phase of the analysis (1 year), with p > 0.001, by using log-rank test.
For the models proposed, all variables were assessed for compliance with the proportional hazards assumption by using the Schoenfeld test (Table 3), with results confirming the model adjustment for the variables proposed. The 95% confidence interval was obtained and confirmed the statistical significance of the estimates of the proportions. Thus, the model was validated by bootstraping and showed no lack of adjustment or exaggerated sensitivity of data.
From the combination of those variables, we elaborated a model and score with 3 classes as follows: class A (low risk for cardiac death/Tx), corresponding to the absence of the significant variables from multivariate analysis, implying an event-free rate (EFR) of 97.5% in 30 months. The presence of 1 variable (class B) implied an EFR of 83.1% in 30 months, and the combination of 2 or 3 variables (class C) implied an EFR of 38.5% in 30 months (Figure 4 and Table 4).
Model with the echocardiographic variables at the first year: Class A – no variable (low risk of cardiac death or transplantation); Class B – presence of 1 variable (intermediate risk); class C (high risk) – presence of 2 or 3 variables (ejection fraction < 30%, grades III and IV diastolic dysfunction compared to grades I and II, and grade III mitral regurgitation compared to grades II and I). Class A implies an event-free rate (EFR) of 97.5% in 30 months, Class B implies an EFR of 83.1%, and Class C, an EFR of 38.5% in 30 months.
Discussion
Three important echocardiographic variables (grade III mitral regurgitation1212 Vidal B, Delgado V, Mont L, Poyatos S, Silva E, Angeles Castel M, et al. Decreased likelihood of response to cardiac resynchronization in patients with severe heart failure. Eur J Heart Fail. 2010;12(3):283-7., grade III/IV diastolic dysfunction1313 Aksoy H, Okutucu S, Kaya EB, Deveci OS, Evranos B, Aytemir K, et al. Clinical and echocardiographic correlates of improvement in left ventricular diastolic function after cardiac resynchronization therapy. Europace. 2010;12(9):1256-61., and EF ≤30%), when present 1 year after CRT, were predictors of cardiac death or Tx in this echocardiographic model.
The model was developed in a high-risk population, which had a median EF of 29%, LVDD of 70 mm, severe diastolic dysfunction in 42% of the sample, moderate or severe mitral regurgitation in 45.6%, and hospitalization due to CHF in the past year in 64%.
The overall mortality rate in this study was 25% (29/116) in 34 ± 17 months, while, Yu et al55 Yu CM, Bleeker GB, Fung JW, Schalij MJ, Zhang Q, van der Wall EE, et al. Left ventricular reverse remodeling but not clinical improvement predicts long-term survival after cardiac resynchronization therapy. Circulation. 2005;112(11):1580-6., in a study including patients with EF of 40% and FC II, therefore at lower risk, have reported an overall mortality rate of 15.6% in 24 months. The CARE-HF study, with a follow-up of 29.4 months, has reported a mortality rate of 30% in the group without intervention as compared to 20% in the group undergoing CRT1414 Cleland JG, Daubert JC, Erdmann E, Freemantle N, Gras D, Kappenberger L, et al. The effect of cardiac resynchronization on morbidity and mortality in heart failure. N Engl J Med. 2005;352(15):1539-49.. The COMPANION study, in a 24-month follow-up, has reported a mortality rate of 21% (131/617) in the group undergoing CRT as compared to 25% (77/308) in the control group1515 Bristow MR, Saxon LA, Boehmer J, Krueger S, Kass DA, De Marco T, et al. Cardiac-resynchronization therapy with or without an implantable defibrillator in advanced chronic heart failure. N Engl J Med. 2004;350(21):2140-50.. Therefore, the mortality rate in our study is within the range reported in large studies.
In a CARE-HF substudy1616 Cleland J, Freemantle N, Ghio S, Fruhwald F, Shankar A, Marijanowski M, et al. Predicting the long-term effects of cardiac resynchronization therapy on mortality from baseline variables and the early response a report from the CARE-HF (Cardiac Resynchronization in Heart Failure) Trial. J Am Coll Cardiol. 2008;52(6):438-45., severe mitral regurgitation at 3 months was a predictor of total mortality, while in the study by Cabrera-Bueno et al., it was a predictor of worse clinical outcome and smaller reverse remodeling1717 Cabrera-Bueno F, Molina-Mora MJ, Alzueta J, Pena-Hernandez J, Jimenez-Navarro M, Fernandez-Pastor J, et al. Persistence of secondary mitral regurgitation and response to cardiac resynchronization therapy. Eur J Echocardiogr. 2010;11(2):131-7.. An Insync ICD substudy has not confirmed those findings for moderate mitral regurgitation1818 Boriani G, Gasparini M, Landolina M, Lunati M, Biffi M, Santini M, et al. Impact of mitral regurgitation on the outcome of patients treated with CRT-D: data from the InSync ICD Italian Registry. Pacing Clin Electrophysiol. 2012;35(2):146-54.. Verheart et al1919 Verhaert D, Popovic Z, De S, Puntawangkoon C, Wolski K, Wilkoff B, et al. Impact of mitral regurgitation on reverse remodeling and outcome in patients undergoing cardiac resynchronization therapy. Circ Cardiovasc Imaging. 2012;5(1):21., in a study with 266 patients, have reported earlier significant ventricular remodeling in the group with moderate to severe mitral regurgitation. Regarding our study’s population, 46% had moderate to severe mitral regurgitation before implantation as compared to 28.5% in the first year (p < 0.008 ), showing the beneficial effect of CRT in reducing mitral regurgitation and the high risk of severe mitral regurgitation 1 year after CRT.
Diastolic dysfunction has shown to play a role in CRT, but with no value as an independent predictor of response in most studies. One physiopathological mechanism known to relate to the clinical improvement and better outcome of those patients concerns the reduction in diastolic dysfunction grade2020 Verbrugge FH, Verhaert D, Grieten L, Dupont M, Rivero-Ayerza M, De Vusser P, et al. Revisiting diastolic filling time as mechanistic insight for response to cardiac resynchronization therapy. Europace. 2013;15(12):1747-56.. In that study, 41.5% of the patients had severe diastolic dysfunction (grades III and IV), while in the first and second years, only 13.5% and 21.4%, respectively. This can explain the clinical improvement of some patients with no correlation with remodeling or increase in EF2121 Agacdiken A, Vural A, Ural D, Sahin T, Kozdag G, Kahraman G, et al. Effect of cardiac resynchronization therapy on left ventricular diastolic filling pattern in responder and nonresponder patients. Pacing Clin Electrophysiol. 2005;28(7):654-60.. In our study, 41.5% of the patients had grade III/IV diastolic dysfunction, and 13.5% in the follow-up (p < 0.001). That differs from the findings of Salukhe et al2222 Salukhe TV, Francis DP, Clague JR, Sutton R, Poole-Wilson P, Henein MY. Chronic heart failure patients with restrictive LV filling pattern have significantly less benefit from cardiac resynchronization therapy than patients with late LV filling pattern. Int J Cardiol. 2005;100(1):5-12., who have reported neither clinical improvement nor remodeling in patients with severe diastolic dysfunction.
An EF ≤30% 1 year after CRT implicated a 3.1-fold increase in the risk of cardiac death/Tx. The MIRACLE study2323 St John Sutton MG, Plappert T, Abraham WT, Smith AL, DeLurgio DB, Leon AR, et al. Effect of cardiac resynchronization therapy on left ventricular size and function in chronic heart failure. Circulation. 2003;107(15):1985-90. has reported a total 5.9% increase in EF in 6 months, and the CARE-HF study2424 Cleland JG, Daubert J-C, Erdmann E, Freemantle N, Gras D, Kappenberger L, et al. Longer-term effects of cardiac resynchronization therapy on mortality in heart failure [the CArdiac REsynchronization-Heart Failure (CARE-HF) trial extension phase]. Eur Heart J. 2006;27(16):1928-32. has reported a 6.9% increase in 18 months, while, in our study, the median EF was 29% before implantation, 33% 1 year after, and 35% 2 years after implantation. Linde et al2525 Linde C, Daubert C, Abraham WT, St John Sutton M, Ghio S, Hassager C, et al; REsynchronization reVErses Remodeling in Systolic left vEntricular dysfunction (REVERSE) Study Group. Impact of ejection fraction on the clinical response to cardiac resynchronization therapy in mild heart failure. Circ Heart Fail. 2013;6(6):1180-9., in a REVERSE study subanalysis, have shown that a baseline EF < 30%, as compared to values of 30%-40%, related favorably to post-CRT survival, via an index comprising clinical and echocardiographic variables, while Kronborg et al2626 Kronborg MB, Mortensen PT, Kirkfeldt RE, Nielsen JC. Very long term follow-up of cardiac resynchronization therapy: clinical outcome and predictors of mortality. Eur J Heart Fail. 2008;10(8):796-801. have shown that a baseline EF < 22.5% increased post-CRT mortality. In a previous study, we observed that a baseline EF < 25% correlated with worse cardiac outcome, which was not maintained after 1 year when assessed with other clinical variables2727 Rocha EA, Pereira FT, Abreu JS, Lima JW, Monteiro MP, Rocha Neto AC, et al. Development and validation of predictive models of cardiac mortality and transplantation in resynchronization therapy. Arq Bras Cardiol. 2015; in press..
In a study2828 Pereira FT, Rocha EA, Monteiro MP, Rocha Neto AC, Daher EF, Rodrigues Sobrinho CR, et al. Long-term follow-up of patients with chronic Chagas disease and implantable cardioverter-defibrillator. Pacing Clin Electrophysiol. 2014;37(6):751-6. with 65 chagasic patients with implantable automatic defibrillators, on a 40 ± 26.8-month follow-up, we observed annual mortality of 6.1% and no sudden death. In multivariate analysis, an EF < 30% and low educational level were predictors of worse prognosis2828 Pereira FT, Rocha EA, Monteiro MP, Rocha Neto AC, Daher EF, Rodrigues Sobrinho CR, et al. Long-term follow-up of patients with chronic Chagas disease and implantable cardioverter-defibrillator. Pacing Clin Electrophysiol. 2014;37(6):751-6.. The present study had 11.2% of chagasic patients. In another study by our team, Chagas disease was related to an increase in the risk of death only on univariate analysis, probably exceeded by right ventricular dysfunction, a variable not assessed in this study2727 Rocha EA, Pereira FT, Abreu JS, Lima JW, Monteiro MP, Rocha Neto AC, et al. Development and validation of predictive models of cardiac mortality and transplantation in resynchronization therapy. Arq Bras Cardiol. 2015; in press..
The models were properly assessed by using proportionality tests and were internally validated, which increases the value of the data presented.
Patients with at least 2 variables related with worse prognosis 1 year after CRT (grade III mitral regurgitation, grade III/IV diastolic dysfunction and EF ≤30%) should be assessed early in the search for other therapeutic options, such as electrode implantation in another left ventricular position, multisite left ventricular stimulation, mitral valve surgery, earlier cardiac Tx or artificial heart, considering the high cardiac mortality or need for emergency Tx of that population.
Limitations
This was a single-center study with a small sample and no intra- and inter-observer variability analysis between the echocardiographers. Several important echocardiographic variables were excluded.
Conclusion
An EF < 30%, severe diastolic dysfunction and severe mitral regurgitation 1 year after CRT indicate worse prognosis, and other therapeutic options should be considered in the presence of 2 of those variables.
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Sources of FundingThis study was funded by Capes and Funcap.
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Study AssociationThis article is part of the thesis of Doctoral submitted by Eduardo Arrais Rocha, from Universidade de São Paulo e Universidade Federal do Ceará.
Acknowledgements
We thank professors José Wellington O. Lima, Luis Gustavo Bastos Pinho and Juvêncio Santos Nobre for statistical guidance, and Dr. Ítalo Martins, coordinator of the post-graduation program of the inter-institutional doctorate (Dinter).
References
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1Bochi EA, Braga FG, Ferreira SM, Rohde LE, Oliveira WA, Almeida DR, et al; Sociedade Brasileira de Cardiologia. III Brazilian Guideline on chronic heart failure. Arq Bras Cardiol. 2009;93(1 Suppl 1):3-70.
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2Tracy CM, Epstein AE, Darbar D, Dimarco JP, Dunbar SB, Estes NA 3rd, et al. 2012 ACCF/AHA/HRS focused update of the 2008 guidelines for device-based therapy of cardiac rhythm abnormalities: a report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines. J Am Coll Cardiol. 2012;60(14):1297-313.
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3Saxon LA, Ellenbogen KA. Resynchronization therapy for the treatment of heart failure. Circulation. 2003;108(9):1044-8.
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4Bax JJ, Bleeker GB, Marwick TH, Molhoek SG, Boersma E, Steendijk P, et al. Left ventricular dyssynchrony predicts response and prognosis after cardiac resynchronization therapy. J Am Coll Cardiol. 2004;44(9):1834-40.
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5Yu CM, Bleeker GB, Fung JW, Schalij MJ, Zhang Q, van der Wall EE, et al. Left ventricular reverse remodeling but not clinical improvement predicts long-term survival after cardiac resynchronization therapy. Circulation. 2005;112(11):1580-6.
-
6Cleland JG, Ghio S. The determinants of clinical outcome and clinical response to CRT are not the same. Heart Fail Rev. 2012;17(6):755-66.
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7Foley PW, Leyva F, Frenneaux MP. What is treatment success in cardiac resynchronization therapy? Europace. 2009;11(Suppl 5):v58-65.
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8Camarozano A, Rabischoffsky A, Maciel BC, Brindeiro Filho D, Horowitz ES, Pena JL, et al; Sociedade Brasileira de Cardiologia. Diretrizes das indicações da ecocardiografia. Arq Bras Cardiol. 2009;93(6 supl. 3):e265-e302.
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9Gottdiener JS, Bednarz J, Devereux R, Gardin J, Klein A, Manning WJ, et al. American Society of Echocardiography recommendations for use of echocardiography in clinical trials. J Am Soc Echocardiogr. 2004;17(10):1086-119.
-
10Nagueh SF, Appleton CP, Gillebert TC, Marino PN, Oh JK, Smiseth OA, et al. Recommendations for the evaluation of left ventricular diastolic function by echocardiography. Eur J Echocardiogr. 2009;10(2):165-93.
-
11Boidol J, Sredniawa B, Kowalski O, Szulik M, Mazurek M, Sokal A, et al. Many response criteria are poor predictors of outcomes after cardiac resynchronization therapy: validation using data from the randomized trial. Europace. 2013;15(6):835-44.
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12Vidal B, Delgado V, Mont L, Poyatos S, Silva E, Angeles Castel M, et al. Decreased likelihood of response to cardiac resynchronization in patients with severe heart failure. Eur J Heart Fail. 2010;12(3):283-7.
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13Aksoy H, Okutucu S, Kaya EB, Deveci OS, Evranos B, Aytemir K, et al. Clinical and echocardiographic correlates of improvement in left ventricular diastolic function after cardiac resynchronization therapy. Europace. 2010;12(9):1256-61.
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14Cleland JG, Daubert JC, Erdmann E, Freemantle N, Gras D, Kappenberger L, et al. The effect of cardiac resynchronization on morbidity and mortality in heart failure. N Engl J Med. 2005;352(15):1539-49.
-
15Bristow MR, Saxon LA, Boehmer J, Krueger S, Kass DA, De Marco T, et al. Cardiac-resynchronization therapy with or without an implantable defibrillator in advanced chronic heart failure. N Engl J Med. 2004;350(21):2140-50.
-
16Cleland J, Freemantle N, Ghio S, Fruhwald F, Shankar A, Marijanowski M, et al. Predicting the long-term effects of cardiac resynchronization therapy on mortality from baseline variables and the early response a report from the CARE-HF (Cardiac Resynchronization in Heart Failure) Trial. J Am Coll Cardiol. 2008;52(6):438-45.
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17Cabrera-Bueno F, Molina-Mora MJ, Alzueta J, Pena-Hernandez J, Jimenez-Navarro M, Fernandez-Pastor J, et al. Persistence of secondary mitral regurgitation and response to cardiac resynchronization therapy. Eur J Echocardiogr. 2010;11(2):131-7.
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18Boriani G, Gasparini M, Landolina M, Lunati M, Biffi M, Santini M, et al. Impact of mitral regurgitation on the outcome of patients treated with CRT-D: data from the InSync ICD Italian Registry. Pacing Clin Electrophysiol. 2012;35(2):146-54.
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19Verhaert D, Popovic Z, De S, Puntawangkoon C, Wolski K, Wilkoff B, et al. Impact of mitral regurgitation on reverse remodeling and outcome in patients undergoing cardiac resynchronization therapy. Circ Cardiovasc Imaging. 2012;5(1):21.
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20Verbrugge FH, Verhaert D, Grieten L, Dupont M, Rivero-Ayerza M, De Vusser P, et al. Revisiting diastolic filling time as mechanistic insight for response to cardiac resynchronization therapy. Europace. 2013;15(12):1747-56.
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21Agacdiken A, Vural A, Ural D, Sahin T, Kozdag G, Kahraman G, et al. Effect of cardiac resynchronization therapy on left ventricular diastolic filling pattern in responder and nonresponder patients. Pacing Clin Electrophysiol. 2005;28(7):654-60.
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22Salukhe TV, Francis DP, Clague JR, Sutton R, Poole-Wilson P, Henein MY. Chronic heart failure patients with restrictive LV filling pattern have significantly less benefit from cardiac resynchronization therapy than patients with late LV filling pattern. Int J Cardiol. 2005;100(1):5-12.
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Publication Dates
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Publication in this collection
04 Sept 2015 -
Date of issue
Dec 2015
History
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Received
11 May 2015 -
Reviewed
01 July 2015 -
Accepted
01 July 2015