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"GRUPI, César José"
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Reproducibility for Heart Rate Variability Analysis during 6-Min Walk Test in Patients with Heart Failure and Agreement between Devices
Heart rate variability (HRV) analysis is a useful method to assess abnormal functioning in the autonomic nervous system and to predict cardiac events in patients with heart failure (HF). HRV measurements with heart rate monitors have been validated with an electrocardiograph in healthy subjects but not in patients with HF. We explored the reproducibility of HRV in two consecutive six-minute walk tests (6MW), 60-minute apart, using a heart rate monitor (PolarS810i) and a portable electrocardiograph (called Holter) in 50 HF patients (mean age 59 years, NYHA II, left ventricular ejection fraction ~35%). The reproducibility for each device was analysed using a paired t-test or the Wilcoxon signed-rank test. Additionally, we assessed the agreement between the two devices based on the HRV indices at rest, during the 6MW and during recovery using concordance correlation coefficients (CCC), 95% confidence intervals and Bland-Altman plots. The test-retest for the HRV analyses was reproducible using Holter and PolarS810i at rest but not during recovery. In the second 6MW, patients showed significant increases in rMSSD and walking distance. The PolarS810i measurements had remarkably high concordance correlation [0.86
Journal Article
Dysregulation of Autonomic Nervous System in Chagas’ Heart Disease Is Associated with Altered Adipocytokines Levels
Chagas disease (CD) induces autonomic dysfunction and inflammatory activity, which may promote metabolic abnormalities. We studied metabolism and his correlation with Autonomic Nervous System (ANS) and inflammation in CD.
Sixty subjects were divided into 4 groups: control group (CG), IF (indeterminate form) group; ECG group (ECG abnormalities and normal left ventricular systolic function), and LVD group (left ventricular sistolic dysfunction). Levels of adiponectin, leptin, insulin, interleukin-6 (IL-6), and tumor necrosis factor-alpha (TNF-alpha) were assayed in serum samples by ELISA. ANS was assessed by heart rate variability in frequency domain in 24-hour Holter and postural tilt test (rest and orthostatic position). High frequency (HFr) component values were used to estimate parasympathetic activity and low frequency (LFr) component, sympathetic activity. Analyzes were made of the correlations of each of the metabolic parameters (leptin and adiponectin) with the inflammatory cytokines (interleukin-6 and TNF- alpha) and with the ANS assessment measurements. No significant differences were observed in leptin and insulin levels. Adiponectin was higher in ECG and LVD groups: [CG = 4766.5 (5529.5), IF = 4003.5 (2482.5), ECG = 8376.5 (8388.5), LVD = 8798 (4188.0) ng/mL, p<0.001)]. IL-6 and TNF-alpha were higher in LVD group: [IL-6: CG = 1.85 (6.41); IF = 1.58 (1.91); ECG = 1.0 (1.57); LVD= 31.44 (72.19) pg/ml; p = 0.001. TNF-alpha: CG = 22.57 (88.2); IF = 19.31 (33.16); ECG = 12.45 (3.07); LVD = 75.15 (278.57) pg/ml; p = 0.04]. Adiponectin levels had a positive association with the HFr component (r = 0.539; p = 0.038) and an inverse association with the LFr component (r = - 0.539; p = 0.038) in ECG group. Leptin levels had a negative association with the HFr component (r= - 0.632; p = 0.011) and a positive association with the LFr component (r = 0.632; p = 0.011) in LVD group.
We found increased adiponectin levels in Chagas' heart disease with systolic dysfunction and in patients with ECG abnormalities and normal systolic function at rest. Adipocytokines levels (adiponectin and leptin) were associated with ANS parameters in Chagas' heart disease.
Journal Article
Premature atrial and ventricular complexes in outpatients referred from a primary care facility
Premature complexes are common electrocardiographic findings in daily clinical practice that require further evaluation. Investigation may sometimes be complex and expensive. The aim of our study was to analyze variables associated with premature beats identified in outpatients referred from a primary care facility.
We performed a cross-sectional study of 407 outpatients (aged 55.8±11years; 56% women) who were followed by general practitioners and were referred for resting 12-lead electrocardiograms for a routine clinical follow-up. After signing informed consent, patients answered a questionnaire and underwent physical examinations, laboratory diagnostics, transthoracic echocardiograms and 24-hour Holter monitoring to evaluate for the presence of premature complexes. After the univariate analyses, logistic regression analyses were performed with adjustment for age, sex, and cardiovascular diseases.
Premature complexes distribution revealed that they were frequent but with low density. Premature atrial complexes (≥ 4/hours) were associated with age (Odds Ratio (OD) = 1.030, Confidence Interval (CI) 95% = 1.002 ─ 1.059, p = 0.029), brain natriuretic peptide (BNP) levels > 20mg/dL (OR = 4.489, 95%CI = 1.918 ─ 10.507, p = 0.0005), intraventricular blocks (OR = 4.184, 95%CI = 1.816 ─ 9.406, p = 0.0005) and left atrial diameter (OR = 1.065, 95%CI = 1.001 ─ 1.134, p = 0.046). Premature ventricular complexes (≥ 5/hour) were related to age (OR = 1.032, 95%CI = 1.010 ─ 1.054, p = 0.004), the use of calcium channel blockers (OR = 2.248, 95%CI = 1.019 ─ 4.954, p = 0.045), HDL-cholesterol levels (OR = 0.971, 95%CI = 0.951 ─ 0.992, p = 0.007), BNP levels > 20mg/dL (OR = 2.079, 95%CI = 0.991 ─ 0.998, p = 0.033), heart rate (OR = 1.019, 95%CI = 1.001 ─ 1.038, p = 0.041), left ventricular hypertrophy (OR = 2.292, 95%CI = 1.402 ─ 3.746, p = 0.001) and left ventricular ejection fraction (OR = 0.938, 95%CI = 0.900 ─ 0.978, p = 0.002).
Premature complexes had low density and were associated with BNP levels > 20mg/dL, lower levels of HDL-cholesterol, left atrial enlargement and ventricular hypertrophy. The identification of premature complexes on 24-hour Holter monitor recordings of outpatients in a primary public healthcare setting was associated with uncontrolled cardiovascular risk factors that may be addressed with medical advice and therapy in a primary care setting.
Journal Article
Biventricular imaging markers to predict outcomes in non‐compaction cardiomyopathy: a machine learning study
Aims Left ventricular non‐compaction cardiomyopathy (LVNC) is a genetic heart disease, with heart failure, arrhythmias, and embolic events as main clinical manifestations. The goal of this study was to analyse a large set of echocardiographic (echo) and cardiac magnetic resonance imaging (CMRI) parameters using machine learning (ML) techniques to find imaging predictors of clinical outcomes in a long‐term follow‐up of LVNC patients. Methods and results Patients with echo and/or CMRI criteria of LVNC, followed from January 2011 to December 2017 in the heart failure section of a tertiary referral cardiologic hospital, were enrolled in a retrospective study. Two‐dimensional colour Doppler echocardiography and subsequent CMRI were carried out. Twenty‐four hour Holter monitoring was also performed in all patients. Death, cardiac transplantation, heart failure hospitalization, aborted sudden cardiac death, complex ventricular arrhythmias (sustained and non‐sustained ventricular tachycardia), and embolisms (i.e. stroke, pulmonary thromboembolism and/or peripheral arterial embolism) were registered and were referred to as major adverse cardiovascular events (MACEs) in this study. Recruited for the study were 108 LVNC patients, aged 38.3 ± 15.5 years, 48.1% men, diagnosed by echo and CMRI criteria. They were followed for 5.8 ± 3.9 years, and MACEs were registered. CMRI and echo parameters were analysed via a supervised ML methodology. Forty‐seven (43.5%) patients had at least one MACE. The best performance of imaging variables was achieved by combining four parameters: left ventricular (LV) ejection fraction (by CMRI), right ventricular (RV) end‐systolic volume (by CMRI), RV systolic dysfunction (by echo), and RV lower diameter (by CMRI) with accuracy, sensitivity, and specificity rates of 75.5%, 77%, 75%, respectively. Conclusions Our findings show the importance of biventricular assessment to detect the severity of this cardiomyopathy and to plan for early clinical intervention. In addition, this study shows that even patients with normal LV function and negative late gadolinium enhancement had MACE. ML is a promising tool for analysing a large set of parameters to stratify and predict prognosis in LVNC patients.
Journal Article
Monitor de Eventos Arrítmicos do Marcapasso: Comparaçao com Monitorizaçao Contínua (Holter)
Introduçao: o Holter é o método diagnóstico com maior sensibilidade e especificidade para determinar os eventos arrítmicos. O uso do próprio sistema de estimulaçao como instrumento confiável de diagnóstico de arritmias cardíacas tem sido pouco relatado na literatura. Objetivo: analisar comparativamente os registros dos eventos arrítmicos realizados pelo marcapasso e Holter de 24 horas. Métodos: foram analisados 43 portadores de marcapasso Guidant da linha Pulsar Max câmara única e dupla, com idade variando entre 45 a 90 anos (média 71 anos) no período de janeiro de 2001 até junho de 2002. Todos os pacientes foram submetidos à monitorizaçao pelo Holter de 24 horas e aos registros simultâneos pelo marcapasso. Foram analisados e comparados os seguintes parâmetros: registro de taquicardias atriais e ventriculares, número de batimentos estimulados e presença de extra-sístoles. Resultados: a correlaçao entre os eventos registrados pelo Holter e marcapasso foi encontrada somente em relaçao ao número de batimentos cardíacos estimulados e à presença de extra-sístoles (pConclusao: o marcapasso possui um sistema de armazenamento de eventos arrítmicos considerado eficiente apenas para documentaçao de números de extra-sístole e batimentos estimulados.
Journal Article
Eletrocardiograma de Longa Duraçao: o Sistema Holter - Parte III
A eletrocardiografia ambulatorial é um método nao-invasivo utilizado na prática clínica para detectar, documentar e caracterizar ocorrências de comportamento anormal da atividade elétrica cardíaca durante as atividades diárias rotineiras. Como tais anormalidades ocorrem raramente, o eletrocardiograma deve ser registrado por longos períodos de tempo. Desde a introduçao, em 1961 por Norman Holter, os sistemas de eletrocardiografia ambulatorial tem sido desenvolvidos com uma ampla variedade de fidelidade de registro, peso e tamanho dos equipamentos, capacidades de análise e formatos de relatórios. Existem três tipos básicos de gravadores: gravadores contínuos, intermitentes (gravador de eventos) e gravadores de análise em tempo real. Gravadores contínuos possuem um gravador analógico para capturar o eletrocardiograma continuadamente e tipicamente registram na fita dois ou três canais do eletrocardiograma por 24 horas. Gravadores intermitentes registram somente um limitado número de curtos segmentos de dados; sua proposta é a de capturar o comportamento elétrico anormal quando o paciente apresenta o sintoma para o qual o estudo foi indicado. Os registros intermitentes podem ser transmitidos por telefone no momento da ocorrência do evento, ou os dados podem ser armazenados e transmitidos posteriormente. Os gravadores com análise em tempo real avaliam o eletrocardiograma continuamente. Os sinais eletrocardiográficos recebidos, ao invés de serem armazenados em uma fita analógica, sao digitalizados e armazenados em memória sólida. Utilizando-se do sistema Holter, podemos também investigar: arritmias, efeito terapêutico de drogas ou procedimentos, marcapassos e desfibriladores, doença cardíaca isquêmica e variabilidade da freqüência cardíaca. As indicaçoes gerais para a eletrocardiografia ambulatorial seguem as recomendaçoes da Força Tarefa ACP/ACC/AHA e sao discutidas neste artigo.
Journal Article
Eletrocardiograma de Longa Duraçao: o Sistema Holter - Parte II
A eletrocardiografia ambulatorial é um método nao-invasivo utilizado na prática clínica para detectar, documentar e caracterizar ocorrências de comportamento anormal da atividade elétrica cardíaca durante as atividades diárias rotineiras. Como tais anormalidades ocorrem raramente, o eletrocardiograma deve ser registrado por longos períodos de tempo. Desde a introduçao, em 1961 por Norman Holter, os sistemas de eletrocardiografia ambulatorial tem sido desenvolvidos com uma ampla variedade de fidelidade de registro, peso e tamanho dos equipamentos, capacidades de análise e formatos de relatórios. Existem três tipos básicos de gravadores: gravadores contínuos, intermitentes (gravador de eventos) e gravadores de análise em tempo real. Gravadores contínuos possuem um gravador analógico para capturar o eletrocardiograma continuadamente e tipicamente registram na fita dois ou três canais do eletrocardiograma por 24 horas. Gravadores intermitentes registram somente um limitado número de curtos segmentos de dados; sua proposta é a de capturar o comportamento elétrico anormal quando o paciente apresenta o sintoma para o qual o estudo foi indicado. Os registros intermitentes podem ser transmitidos por telefone no momento da ocorrência do evento, ou os dados podem ser armazenados e transmitidos posteriormente. Os gravadores com análise em tempo real avaliam o eletrocardiograma continuamente. Os sinais eletrocardiográficos recebidos, ao invés de serem armazenados em uma fita analógica, sao digitalizados e armazenados em memória sólida. Utilizando-se do sistema Holter, podemos também investigar: arritmias, efeito terapêutico de drogas ou procedimentos, marcapassos e desfibriladores, doença cardíaca isquêmica e variabilidade da freqüência cardíaca. As indicaçoes gerais para a eletrocardiografia ambulatorial seguem as recomendaçoes da Força Tarefa ACP/ACC/AHA e sao discutidas neste artigo.
Journal Article
Eletrocardiograma de Longa Duraçao: o Sistema Holter - Parte I
A eletrocardiografia ambulatorial é um método nao-invasivo, utilizado na prática clínica para detectar, documentar e caracterizar ocorrências de comportamento anormal da atividade elétrica cardíaca durante as atividades diárias rotineiras. Como tais anormalidades ocorrem raramente, o eletrocardiograma deve ser registrado por longos períodos de tempo. Desde a introduçao, em 1961, por Norman Holter, os sistemas de eletrocardiografia ambulatorial têm sido desenvolvidos com uma ampla variedade de fidelidade de registro, peso e tamanho dos equipamentos, de capacidade de análise e de formato de relatórios. Existem três tipos básicos de gravadores: contínuos, intermitentes (gravador de eventos) e gravadores de análise em tempo real. Os contínuos possuem um gravador analógico para capturar o eletrocardiograma continuadamente e tipicamente registram na fita dois ou três canais do eletrocardiograma por 24 horas. Os intermitentes registram somente um número limitado de curtos segmentos de dados; sua proposta é capturar o comportamento elétrico anormal quando o paciente apresenta o sintoma para o qual o estudo foi indicado. Os registros intermitentes podem ser transmitidos por telefone no momento da ocorrência do evento, ou os dados podem ser armazenados e transmitidos posteriormente. Os gravadores com análise em tempo real avaliam o eletrocardiograma continuamente. Os sinais eletrocardiográficos recebidos, ao invés de serem armazenados em uma fita analógica, sao digitalizados e armazenados em memória sólida. Utilizando o sistema Holter, podemos também investigar as arritmias, o efeito terapêutico de drogas ou procedimentos, marcapassos e desfibriladores, a doença cardíaca isquêmica e a variabilidade da freqüência cardíaca. As indicaçoes gerais para a eletrocardiografia ambulatorial seguem as recomendaçoes da Força Tarefa ACP/ACC/AHA e sao discutidas neste artigo.
Journal Article
Cardiac Arrhythmias and Atrioventricular Block in a Cohort of Asymptomatic Individuals without Heart Disease
Aims: To evaluate cardiac arrhythmias and rhythm disturbances on 24 h ambulatory electrocardiographic monitoring in a cohort of asymptomatic healthy individuals with normal clinical examination. Methods and Results: 625 asymptomatic healthy individuals, in the age range 15–83 (mean 42, SD 11.9) years; 276 (44.2%) men and 349 (55.8%) women were submitted to 24-hour ambulatory electrocardiographic monitoring. Statistical analysis was performed with likelihood ratio test and automatic backward logistic regression. The frequency of atrial arrhythmias (p < 0.0001; OR 1.059; 95% CI 1.050–1068) and of ventricular arrhythmias (p < 0.0001; OR 1.023; 95% CI 1.017–1.029) increased for each age increase of 1 year; neither atrial nor ventricular arrhythmias demonstrated a statistically significant difference relative to gender. Transient second-degree atrioventricular block (Mobitz I) was observed in 14 (2.2%) individuals and was more frequent in individuals with resting heart rate <60 bpm (p = 0.006; OR 6.7, 95% CI 1.7–25.5). Conclusion: The frequency of atrial and ventricular arrhythmias increased with age and did not demonstrate a significant difference relative to gender. Transient atrioventricular block was more frequent in individuals with lower resting heart rate.
Journal Article
Dysregulation of Autonomic Nervous System in Chagas' Heart Disease Is Associated with Altered Adipocytokines Levels: e0131447
Background Chagas disease (CD) induces autonomic dysfunction and inflammatory activity, which may promote metabolic abnormalities. We studied metabolism and his correlation with Autonomic Nervous System (ANS) and inflammation in CD. Methods and Results Sixty subjects were divided into 4 groups: control group (CG), IF (indeterminate form) group; ECG group (ECG abnormalities and normal left ventricular systolic function), and LVD group (left ventricular sistolic dysfunction). Levels of adiponectin, leptin, insulin, interleukin-6 (IL-6), and tumor necrosis factor-alpha (TNF-alpha) were assayed in serum samples by ELISA. ANS was assessed by heart rate variability in frequency domain in 24-hour Holter and postural tilt test (rest and orthostatic position). High frequency (HFr) component values were used to estimate parasympathetic activity and low frequency (LFr) component, sympathetic activity. Analyzes were made of the correlations of each of the metabolic parameters (leptin and adiponectin) with the inflammatory cytokines (interleukin-6 and TNF- alpha) and with the ANS assessment measurements. No significant differences were observed in leptin and insulin levels. Adiponectin was higher in ECG and LVD groups: [CG = 4766.5 (5529.5), IF = 4003.5 (2482.5), ECG = 8376.5 (8388.5), LVD = 8798 (4188.0) ng/mL, p<0.001)]. IL-6 and TNF-alpha were higher in LVD group: [IL-6: CG = 1.85 (6.41); IF = 1.58 (1.91); ECG = 1.0 (1.57); LVD= 31.44 (72.19) pg/ml; p = 0.001. TNF-alpha: CG = 22.57 (88.2); IF = 19.31 (33.16); ECG = 12.45 (3.07); LVD = 75.15 (278.57) pg/ml; p = 0.04]. Adiponectin levels had a positive association with the HFr component (r = 0.539; p = 0.038) and an inverse association with the LFr component (r = - 0.539; p = 0.038) in ECG group. Leptin levels had a negative association with the HFr component (r= - 0.632; p = 0.011) and a positive association with the LFr component (r = 0.632; p = 0.011) in LVD group. Conclusions We found increased adiponectin levels in Chagas' heart disease with systolic dysfunction and in patients with ECG abnormalities and normal systolic function at rest. Adipocytokines levels (adiponectin and leptin) were associated with ANS parameters in Chagas' heart disease.
Journal Article