Your search keyword '"Nyolczas, Noémi"' showing total 21 results

1. [The role of complex patient education program in heart failure care].

Author

Bánfi-Bacsárdi F, Boldizsár EM, Gergely GT, Forrai Z, Kazay Á, Füzesi T, Hanuska LF, Schäffer PP, Pilecky D, Vámos M, Gavallér Z, Keresztes K, Dékány M, Andréka P, Piróth Z, Nyolczas N, and Muk B

Subjects

Humans, Male, Female, Middle Aged, Health Knowledge, Attitudes, Practice, Surveys and Questionnaires, Hungary, Heart Failure therapy, Patient Education as Topic, Self Care

Published

2024

2. [Rapid up-titration of guide-directed medical therapy after a heart failure hospitalisation].

Author

Gergely GT, Bánfi-Bacsárdi F, Komáromi A, Pilecky D, Boldizsár EM, Flegler D, Kazay Á, Füzesi T, Forrai Z, Vértes V, Sayour VN, Andréka P, Piróth Z, Nyolczas N, and Muk B

Subjects

Humans, Male, Female, Aged, Middle Aged, Retrospective Studies, Pilot Projects, Adult, Stroke Volume drug effects, Natriuretic Peptide, Brain blood, Heart Failure drug therapy, Heart Failure physiopathology, Hospitalization

Published

2024

3. [The changes in the pharmacotherapy of heart failure with reduced ejection fraction and its effect on prognosis: experience in the Hungarian clinical practice].

Author

Muk B, Pilecky D, Bánfi-Bacsárdi F, Füzesi T, Gergely GT, Komáromi A, Papp E, Szőnyi MD, Forrai Z, Kazay Á, Solymossi B, Vámos M, Andréka P, Piróth Z, and Nyolczas N

Subjects

Humans, Male, Hungary, Female, Retrospective Studies, Prognosis, Middle Aged, Aged, Sodium-Glucose Transporter 2 Inhibitors therapeutic use, Adrenergic beta-Antagonists therapeutic use, Angiotensin-Converting Enzyme Inhibitors therapeutic use, Heart Failure drug therapy, Heart Failure physiopathology, Heart Failure mortality, Stroke Volume drug effects

Published

2024

4. Incidence and predictors of heart failure with improved ejection fraction category in a HFrEF patient population.

Author

Solymossi B, Muk B, Sepp R, Habon T, Borbély A, Heltai K, Majoros Z, Járai Z, Vágány D, Szatmári Á, Sziliczei E, Bánfi-Bacsárdi F, and Nyolczas N

Subjects

Humans, Female, Male, Stroke Volume, Incidence, Prognosis, Risk Factors, Heart Failure

Abstract

Aims: The aim of the study was to assess the incidence and predictive factors of the development of heart failure with improved ejection fraction (HFimpEF) category during a 1 year follow-up period in a heart failure with reduced ejection fraction (HFrEF) patient population managed in a heart failure outpatient clinic., Methods and Results: The study evaluated data from patients enrolled in the Hungarian Heart Failure Registry (HHFR). The incidence and predictive factors of the development of the HFimpEF category after 1 year follow-up were assessed in the group of patients who had HFrEF at baseline. We evaluated the incidence and predictors of the development of HFimpEF after a 1 year follow-up in relation to time since diagnosis of HFrEF in patients diagnosed within 3 months, between 3 months and 1 year, and beyond 1 year. The predictive factors of the development of HFimpEF were analysed using univariate and multivariate logistic regression analysis. Of the 833 HFrEF patients enrolled in the HHFR, the development of HFimpEF was observed in 162 patients (19.5%) during 1 year follow-up. In the whole patient population, independent predictors of the development of HFimpEF were female gender [odds ratio (OR): 1.73; 95% confidence interval (CI): 1.01-2.96; P < 0.05], non-ischaemic aetiology (OR: 1.95; 95% CI: 1.15-3.30; P < 0.05), and left ventricular end-diastolic diameter (LVEDD) <60 mm (OR: 2.04; 95% CI: 1.18-3.51; P < 0.05). The 1 year incidence of HFimpEF decreased in relation to time since diagnosis of HFrEF. The incidence of HFimpEF was 27.1% in patients diagnosed within 3 months, 18.4% in patients diagnosed between 3 months and 1 year, and 12.2% in patients diagnosed beyond 1 year. Non-ischaemic aetiology (OR: 4.76; 95% CI: 1.83-12.4; P < 0.01) and QRS width (OR: 0.81; 95% CI: 0.71-0.94; P < 0.01) for patients diagnosed within 3 months, LVEDD (OR: 0.54; 95% CI: 0.32-0.90; P < 0.05) and left atrial diameter ≤45 mm (OR: 5.44; 95% CI: 1.45-20.4; P < 0.05) for patients diagnosed between 3 months and 1 year, and LVEDD < 67 mm (OR: 2.71; 95% CI: 1.07-6.88; P < 0.05) for patients diagnosed beyond 1 year were found to be independent predictive factors., Conclusions: In our study, in this HFrEF patient population managed in a heart failure outpatient clinic, the 1 year incidence of HFimpEF was found to be ~20%. The 1 year incidence of HFimpEF decreased in relation to time since diagnosis of HFrEF. The most important predictors of the development of HFimpEF were female sex, non-ischaemic aetiology, narrower QRS width, and smaller diameter of the left ventricle and left atrium., (© 2023 The Authors. ESC Heart Failure published by John Wiley & Sons Ltd on behalf of European Society of Cardiology.)

Published

2024

5. The effect of kidney function on guideline-directed medical therapy implementation and prognosis in heart failure with reduced ejection fraction.

Author

Bánfi-Bacsárdi F, Pilecky D, Vámos M, Majoros Z, Török GM, Borsányi TD, Dékány M, Solymossi B, Andréka P, Duray GZ, Kiss RG, Nyolczas N, and Muk B

Subjects

Humans, Angiotensin Receptor Antagonists, Stroke Volume, Angiotensin-Converting Enzyme Inhibitors, Prognosis, Kidney, Heart Failure diagnosis, Heart Failure drug therapy

Abstract

Background: Kidney dysfunction (KD) is a main limiting factor of applying guideline-directed medical therapy (GDMT) and reaching the recommended target doses (TD) in heart failure (HF) with reduced ejection fraction (HFrEF)., Hypothesis: We aimed to assess the success of optimization, long-term applicability, and adherence of neurohormonal antagonist triple therapy (TT:RASi [ACEi/ARB/ARNI] + βB + MRA) according to the KD after a HF hospitalization and to investigate its impact on prognosis., Methods: The data of 247 real-world, consecutive patients were analyzed who were hospitalized in 2019-2021 for HFrEF and then were followed-up for 1 year. The application and the ratio of reached TD of TT at hospital discharge and at 1 year were assessed comparing KD categories (eGFR: ≥90, 60-89, 45-59, 30-44, <30 mL/min/1.73 m 2 ). Moreover, 1-year all-cause mortality and rehospitalization rates in KD subgroups were investigated., Results: Majority of the patients received TT at hospital discharge (77%) and at 1 year (73%). More severe KD led to a lower application ratio (p < .05) of TT (92%, 88%, 80%, 73%, 31%) at discharge and at 1 year (81%, 76%, 76%, 68%, 40%). Patients with more severe KD were less likely (p < .05) to receive TD of MRA (81%, 68%, 78%, 61%, 52%) at discharge and a RASi (53%, 49%, 45%, 21%, 27%) at 1 year. One-year all-cause mortality (14%, 15%, 16%, 33%, 48%, p < .001), the ratio of all-cause rehospitalizations (30%, 35%, 40%, 43%, 52%, p = .028), and rehospitalizations for HF (8%, 13%, 18%, 20%, 38%, p = .001) were significantly higher in more severe KD categories., Conclusions: KD unfavorably affects the application of TT in HFrEF, however poorer mortality and rehospitalization rates among them highlight the role of the conscious implementation and up-titration of GDMT., (© 2024 The Authors. Clinical Cardiology published by Wiley Periodicals, LLC.)

Published

2024

6. [The effect of kidney function on the optimization of medical therapy and on mortality in heart failure with reduced ejection fraction].

Author

Bánfi-Bacsárdi F, Vámos M, Majoros Z, Török G, Pilecky D, Duray GZ, Kiss RG, Nyolczas N, and Muk B

Subjects

Humans, Retrospective Studies, Angiotensin Receptor Antagonists therapeutic use, Stroke Volume, Angiotensin-Converting Enzyme Inhibitors therapeutic use, Kidney, Heart Failure drug therapy, Kidney Diseases

Abstract

Introduction: Renal dysfunction is a main limiting factor of applying and up-titrating guideline-directed medical therapy (GDMT) among patients with heart failure with reduced ejection fraction (HFrEF)., Objective: Our retrospective monocentric observational study aimed to analyse the application ratio of combined neurohormonal antagonist therapy (RASi: ACEI/ARB/ARNI + βB + MRA) and 12-month all-cause mortality differences in terms of renal dysfunction among HFrEF patients hospitalized for heart failure., Method: We retrospectively analysed the cohort of consecutive HFrEF patients, hospitalized at the Heart Failure Unit of our tertiary cardiological centre in 2019-2021. The application ratio of discharge triple therapy (TT) in five groups established on admission eGFR parameters, representing severity of renal dysfunction (eGFR≥90, eGFR = 60-89, eGFR = 45-59, eGFR = 30-44, eGFR<30 ml/min/1.73 m2) was investigated with chi-square test, while 12-month mortality differences were analysed with Kaplan-Meier method and log-rank test., Results: 257 patients were included. Median eGFR was 57 (39-75) ml/min/1.73 m2, 54% of patients had eGFR<60 ml/min/1.73 m2. The proportion of patients in eGFR≥90, 60-89, 45-59, 30-44, <30 ml/min/1.73 m2 subgroups was 12%, 34%, 18%, 21%, 15%, respectively. 2% of patients were on dialysis. Even though the application rate of TT was notably high (77%) in the total cohort, more severe renal dysfunction led to a significantly lower implementation rate of TT (94%, 86%, 91%, 70%, 34%; p<0.0001): the application rate of RASi (100%, 98%, 96%, 89%, 50%, p<0.0001), βB (94%, 88%, 96%, 79%, 68%; p = 0.003) and MRA therapy (97%, 99%, 98%, 94%, 82%; p = 0.001) differed significantly. 12-month all-cause mortality was 23% in the whole cohort. Mortality rates were higher in more severe renal dysfunction (3%, 15%, 22%, 31%, 46%; p<0.0001)., Conclusion: Even though the proportion of patients on TT in the whole cohort was remarkably high, renal dysfunction led to a significantly lower application ratio of TT, associating with worse survival. Our results highlight that despite renal dysfunction the application of HFrEF cornerstone pharmacotherapy is essential. Orv Hetil. 2023; 164(35): 1387-1396.

Published

2023

7. The Optimization of Guideline-Directed Medical Therapy during Hospitalization among Patients with Heart Failure with Reduced Ejection Fraction in Daily Clinical Practice.

Author

Bánfi-Bacsárdi F, Muk B, Pilecky D, Duray GZ, Kiss RG, and Nyolczas N

Subjects

Humans, Angiotensin Receptor Antagonists therapeutic use, Retrospective Studies, Stroke Volume, Angiotensin-Converting Enzyme Inhibitors therapeutic use, Hospitalization, Heart Failure drug therapy, Ventricular Dysfunction, Left drug therapy

Abstract

Introduction: Hospitalization due to heart failure (HF) progression is associated with poor prognosis. This highlights the role of the implementation of guideline-directed medical therapy (GDMT) in improving the morbidity and mortality of patients with heart failure with reduced ejection fraction (HFrEF). There are limited data about the intrahospital applicability of GDMT in real-world circumstances. We aimed to assess retrospectively the use of cornerstone GDMT including RASi (ACEI/ARB/ARNI), βB, MRA, and SGLT2i treatment in a consecutive real-world HFrEF patient population admitted with signs and symptoms of HF to the HF Unit of a Hungarian tertiary cardiac center between 2019 and 2021. The independent predictors of therapy optimization and the applicability of new HFrEF medication (ARNI, SGLT2i, vericiguat) were also investigated., Methods: Statistical comparison of admission and discharge medication was accomplished with Fisher's exact test. The independent predictors of the introduction of triple therapy (RASi + βB + MRA) were analyzed using univariate and multivariate logistic regression. The proportion of patients eligible for vericiguat based on the inclusion and exclusion criteria of the VICTORIA trial was also investigated, as well as the number of patients suitable for ARNI and SGLT2i, taking into account the contraindications of application contained in the ESC 2021 HF Guidelines., Results: 238 patients were included. During hospitalization, the use of RASi (69% vs. 89%) (ACEI/ARBs [58% vs. 70%], ARNI [10% vs. 19%]), βBs (69% vs. 85%), and MRAs (61% vs. 95%) increased significantly (p < 0.05) compared to at admission, and the use of SGLT2i (3% vs. 11%) also rose (p = 0.0005). The application ratio of triple (RASi + βB + MRA; 43% vs. 77%) and quadruple (RASi + βB + MRA + SGLT2i; 2% vs. 11%) therapy increased as well (p < 0.0001). The independent predictors of discharge application of triple therapy revealed through multivariate logistic regression analysis were age, duration of hospitalization, eGFR, NTproBNP, and presence of diabetes mellitus. Sixty-eight percent of the cohort would have been suitable for vericiguat, 83% for ARNI, and 84% for SGLT2i., Conclusion: High rates of application of disease-modifying drugs are achievable among hospitalized HFrEF patients in severe clinical condition; thus, awareness of the need for their initiation must be raised., (© 2022 S. Karger AG, Basel.)

Published

2023

8. Proportion of Patients Eligible for Cardiac Contractility Modulation: Real-Life Data from a Single-Center Heart Failure Clinic.

Author

Pilecky D, Muk B, Majoros Z, Vágány D, Kósa K, Szabó M, Szögi E, Dékány M, Kiss RG, and Nyolczas N

Subjects

Cohort Studies, Humans, Retrospective Studies, Stroke Volume, Treatment Outcome, Heart Failure therapy, Ventricular Function, Left

Abstract

Introduction: Based on recently published randomized controlled trials, cardiac contractility modulation (CCM) seems to be an effective device-based therapeutic option in symptomatic chronic heart failure (HF) (CHF). The aim of the current study was to estimate what proportion of patients with CHF and left ventricular ejection fraction (LVEF) <50% could be eligible for CCM based on the inclusion criteria of the FIX-HF-5C trial., Methods: Consecutive patients referred and followed up at our HF clinic due to HF with reduced or mid-range LVEF were retrospectively assessed. After a treatment optimization period of 3-6 months, the inclusion criteria of the FIX-HF-5C trial (New York Heart Association (NYHA) class III/IV, 25% ≤ LVEF ≤45%, QRS <130 ms, and sinus rhythm) were applied to determine the number of patients eligible for CCM., Results: Of the 640 patients who were involved, the proportion of highly symptomatic patients in NYHA class III/IV decreased from 77.0% (n = 493) at baseline to 18.6% (n = 119) after the treatment optimization period (p < 0.001). Mean LVEF increased significantly from 29.0 ± 7.9% to 36.3 ± 9.9% (p < 0.001), while the proportion of patients with 25% ≤ LVEF ≤45% increased from 69.7% (n = 446) to 73.3% (n = 469) (p < 0.001). QRS duration was below 130 ms in 63.1% of patients, while 30.0% of patients had persistent or permanent atrial fibrillation. We found that the eligibility criteria for CCM therapy based on the FIX-HF-5C study were fulfilled for 23.0% (n = 147) of patients at baseline and 5.2% (n = 33) after treatment optimization., Conclusion: This single-center cohort study showed that 5% of patients with CHF and impaired LVEF immediately after treatment optimization fulfilled the inclusion criteria of the FIX-HF-5C study and would be candidates for CCM., (© 2021 S. Karger AG, Basel.)

Published

2021

9. The impact of serum concentration-guided digoxin therapy on mortality of heart failure patients: A long-term follow-up, propensity-matched cohort study.

Author

Muk B, Vámos M, Bógyi P, Szabó B, Dékány M, Vágány D, Majoros Z, Borsányi T, Duray GZ, Kiss RG, and Nyolczas N

Subjects

Cardiotonic Agents pharmacokinetics, Female, Follow-Up Studies, Heart Failure blood, Heart Failure mortality, Humans, Hungary epidemiology, Male, Middle Aged, Retrospective Studies, Survival Rate trends, Time Factors, Treatment Outcome, Digoxin pharmacokinetics, Heart Failure drug therapy, Propensity Score, Stroke Volume physiology

Abstract

Background: Recently published studies suggested that digoxin may increase mortality in heart failure with reduced ejection fraction (HFrEF). However, in the vast majority of former trials serum digoxin concentration (SDC) was not measured and therapy was not SDC-guided., Aim: To assess the impact of SDC-guided digoxin therapy on mortality in HFrEF patients., Methods: Data of 580 HFrEF patients were retrospectively analyzed. In patients on digoxin, SDC was measured every 3 months and digoxin dosage was SDC-guided (target SDC: 0.5-0.9 ng/mL). All-cause mortality of digoxin users and nonusers was compared after propensity score matching (PSM)., Results: After 7.1 ± 4.7 years follow-up period (FUP) all-cause mortality of digoxin users (n = 180) was significantly higher than nonusers (n = 297) (propensity-adjusted HR = 1.430; 95% CI = 1.134-1.804; P = .003). Patients having SDC of 0.9 to 1.1 ng/mL (n = 60) or > 1.1 ng/mL (n = 44) at any time during the FUP had an increased risk of all-cause mortality (HR = 1.750; 95% CI = 1.257-2.436, P = .001 and HR = 1.687; 95% CI = 1.153-2.466, P = .007), while patients having a maximal SDC < 0.9 ng/mL (n = 76) had similar mortality risk (HR = 1.139; 95% CI = 0.827-1.570, P = .426), compared to digoxin nonusers., Conclusions: According to our propensity-matched analysis, SDC-guided digoxin therapy was associated with increased all-cause mortality in optimally treated HFrEF patients, especially with SDC ≥0.9 ng/mL. These results reinforce the expert opinion that digoxin in HFrEF can only be used among carefully selected patients with close SDC monitoring., (© 2020 The Authors. Clinical Cardiology published by Wiley Periodicals LLC.)

Published

2020

10. Combination of Hydralazine and Isosorbide-Dinitrate in the Treatment of Patients with Heart Failure with Reduced Ejection Fraction.

Author

Nyolczas N, Dékány M, Muk B, and Szabó B

Subjects

Clinical Trials as Topic, Drug Interactions, Humans, Hydralazine therapeutic use, Isosorbide Dinitrate therapeutic use, Heart Failure drug therapy, Heart Failure physiopathology, Hydralazine pharmacology, Isosorbide Dinitrate pharmacology, Stroke Volume drug effects

Abstract

The use of direct acting vasodilators (the combination of hydralazine and isosorbide dinitrate -Hy+ISDN-) in heart failure with reduced ejection fraction (HFrEF) is supported by evidence, but rarely used.However, treatment with Hy+ISDN is guideline-recommended for HFrEF patients who cannot receive either angiotensin-converting enzyme inhibitors or angiotensin receptor blockers due to intolerance or contraindication, and in self-identified African-American HFrEF patients who are symptomatic despite optimal neurohumoral therapy.The Hy+ISDN combination has arterial and venous vasodilating properties. It can decrease preload and afterload, decrease left ventricular end-diastolic diameter and the volume of mitral regurgitation, reduce left atrial and left ventricular wall tension, decrease pulmonary artery pressure and pulmonary arterial wedge pressure, increase stroke volume, and improve left ventricular ejection fraction, as well as induce left ventricular reverse remodelling. Furthermore, Hy+ISDN combination has antioxidant property, it affects endothelial dysfunction beneficially and improves NO bioavailability. Because of these benefits, this combination can improve the signs and symptoms of heart failure, exercise capacity and quality of life, and, most importantly, reduce morbidity and mortality in well-defined subgroups of HFrEF patients.Accordingly, this therapeutic option can in many cases play an essential role in the treatment of HFrEF.

Published

2018

11. Cardiopoietic cell therapy for advanced ischaemic heart failure: results at 39 weeks of the prospective, randomized, double blind, sham-controlled CHART-1 clinical trial.

Author

Bartunek J, Terzic A, Davison BA, Filippatos GS, Radovanovic S, Beleslin B, Merkely B, Musialek P, Wojakowski W, Andreka P, Horvath IG, Katz A, Dolatabadi D, El Nakadi B, Arandjelovic A, Edes I, Seferovic PM, Obradovic S, Vanderheyden M, Jagic N, Petrov I, Atar S, Halabi M, Gelev VL, Shochat MK, Kasprzak JD, Sanz-Ruiz R, Heyndrickx GR, Nyolczas N, Legrand V, Guédès A, Heyse A, Moccetti T, Fernandez-Aviles F, Jimenez-Quevedo P, Bayes-Genis A, Hernandez-Garcia JM, Ribichini F, Gruchala M, Waldman SA, Teerlink JR, Gersh BJ, Povsic TJ, Henry TD, Metra M, Hajjar RJ, Tendera M, Behfar A, Alexandre B, Seron A, Stough WG, Sherman W, Cotter G, and Wijns W

Subjects

Adult, Aged, Double-Blind Method, Female, Humans, Male, Middle Aged, Prospective Studies, Treatment Outcome, Young Adult, Heart Failure therapy, Mesenchymal Stem Cell Transplantation methods, Myocardial Ischemia therapy

Abstract

Aims: Cardiopoietic cells, produced through cardiogenic conditioning of patients' mesenchymal stem cells, have shown preliminary efficacy. The Congestive Heart Failure Cardiopoietic Regenerative Therapy (CHART-1) trial aimed to validate cardiopoiesis-based biotherapy in a larger heart failure cohort., Methods and Results: This multinational, randomized, double-blind, sham-controlled study was conducted in 39 hospitals. Patients with symptomatic ischaemic heart failure on guideline-directed therapy (n = 484) were screened; n = 348 underwent bone marrow harvest and mesenchymal stem cell expansion. Those achieving > 24 million mesenchymal stem cells (n = 315) were randomized to cardiopoietic cells delivered endomyocardially with a retention-enhanced catheter (n = 157) or sham procedure (n = 158). Procedures were performed as randomized in 271 patients (n = 120 cardiopoietic cells, n = 151 sham). The primary efficacy endpoint was a Finkelstein-Schoenfeld hierarchical composite (all-cause mortality, worsening heart failure, Minnesota Living with Heart Failure Questionnaire score, 6-min walk distance, left ventricular end-systolic volume, and ejection fraction) at 39 weeks. The primary outcome was neutral (Mann-Whitney estimator 0.54, 95% confidence interval [CI] 0.47-0.61 [value > 0.5 favours cell treatment], P = 0.27). Exploratory analyses suggested a benefit of cell treatment on the primary composite in patients with baseline left ventricular end-diastolic volume 200-370 mL (60% of patients) (Mann-Whitney estimator 0.61, 95% CI 0.52-0.70, P = 0.015). No difference was observed in serious adverse events. One (0.9%) cardiopoietic cell patient and 9 (5.4%) sham patients experienced aborted or sudden cardiac death., Conclusion: The primary endpoint was neutral, with safety demonstrated across the cohort. Further evaluation of cardiopoietic cell therapy in patients with elevated end-diastolic volume is warranted., (© The Author 2016. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2017

12. [Hungarian Heart Failure Registry 2015-2016. Preliminary results].

Author

Nyolczas N, Heltai K, Borbély A, Habon T, Járai Z, Sziliczei E, Stadler P, Faludi R, Herczeg B, Papp E, Lakatos F, Nagy K, Katona A, Kovács I, Tomcsányi J, Nagy A, and Sepp R

Subjects

Adult, Aged, Disease Management, Female, Guideline Adherence, Humans, Male, Middle Aged, Practice Guidelines as Topic, Societies, Medical, Cardiology standards, Heart Failure epidemiology, Heart Failure therapy, Registries statistics & numerical data

Abstract

Heart failure is associated with a poor prognosis despite significant advances in the pharmacological and device therapy and incurs very high cost because of frequent hospitalizations. Therefore, professional high-quality care is essential for both patients and the healthcare system. The best way to evaluate the quality of care for a particular disease is the use of disease-specific registries. Until now, there has not been a registry evaluating characteristics and management of heart failure patients in Hungary. For that reason, the Hungarian Society of Cardiology initiated the set-up of the Hungarian Heart Failure Registry. The Aim of this paper is to present the goals, methods and first year results of the Hungarian Heart Failure Registry. The goal of the Registry is to create a modern, web-based database that summarizes the data of large number of patients who are currently or were previously admitted to hospital or who are currently or were previously patients in an outpatient department due to severe heart failure (NYHA III-IV). Currently 17 cardiology departments participate in the development of the Registry. The planned number of patients is 2000. Initially follow-up was planned for one year (pilot study). After the evaluation of the relevant experiences of the pilot study, long-term follow-up is planned. The Registry collects information about the type of heart failure (heart failure with reduced - LVEF≤45% - vs. preserved - LVEF>45% - ejection fraction), etiology, co-morbidities, diagnostic methods, treatment as well as morbidity and mortality. After the first year, assessing the baseline parameters of 698 patients enrolled in the Registry we found that the majority of patients (87.8%) has heart failure with reduced ejection fraction and in 39.8% of the patients heart failure has an ischaemic origin. The most frequent co-morbidity was hypertension followed by diabetes, renal insufficiency and COPD. The patients were treated with ACE inhibitors or ARBs in 94.4%, with beta blockers in 95.9%, and mineralocorticoid receptor antagonists in 73.9%. The mean dose of neurohormonal antagonists was higher than half of the target dose defined by current guidelines. The use of cardiac resynchronisation therapy was 11.7% and implantable cardioverter defibrillator was 25.8%. The pharmacological and device therapy of patients who were enrolled in the Registry until now was fit the current guidelines' recommendations. This, however, does not mean that the management of heart failure is without problems in our country but that high quality patient care is available with adequate heart failure treatment in cardiology departments dedicated to heart failure care. Orv. Hetil., 2017, 158(3), 94-100.

Published

2017

13. [Novelties in the pharmacological treatment of chronic heart failure].

Author

Nyolczas N

Subjects

Adrenergic beta-Antagonists therapeutic use, Angiotensin II Type 1 Receptor Blockers therapeutic use, Angiotensin-Converting Enzyme Inhibitors therapeutic use, Chronic Disease, Health Planning Guidelines, Heart Failure prevention & control, Humans, Professional Role, Societies, Medical standards, Cardiology standards, Heart Failure drug therapy, Practice Guidelines as Topic

Abstract

Recently, results of several novel clinical trials on the pharmacological treatment of chronic heart failure have been published. In addition, the new European Society of Cardiology guidelines for the diagnosis and treatment of acute and chronic heart failure and a focused update by the ACC/AHA/HFSA on new pharmacological therapy for heart failure has been reported in 2016. This paper intends to provide an overview of the current state of the pharmacological treatment of chronic heart failure in the light of the new guidelines which incorporate the results of the new clinical trials. Orv. Hetil., 2016, 157(38), 1517-1521.

Published

2016

14. [Measurement of natriuretic peptides in heart failure: the good laboratory and clinical practice].

Author

Kovács LG, Nyolczas N, Habon T, Sepp R, Piroth Z, Hajas Á, Boncz I, Tomcsányi J, Kappelmayer J, and Merkely B

Subjects

Acute Disease, Ambulatory Care methods, Ambulatory Care standards, Biomarkers blood, Chronic Disease, Diagnosis, Differential, Heart Failure blood, Heart Failure complications, Heart Failure drug therapy, Heart Failure economics, Humans, Hungary, Natriuretic Peptide, Brain blood, Patient Admission, Patient Discharge, Peptide Fragments blood, Prognosis, Reagent Kits, Diagnostic standards, Respiratory Tract Diseases diagnosis, Severity of Illness Index, Treatment Outcome, Blood Chemical Analysis economics, Blood Chemical Analysis methods, Blood Chemical Analysis standards, Direct Service Costs, Dyspnea etiology, Heart Failure diagnosis, Natriuretic Peptides blood

Abstract

Cardiac natriuretic peptides (BNP, NT-proBNP) play a pivotal role in cardiovascular homeostasis, mainly due to their roles in vasodilatation, natriuresis, diuresis and due to their antiproliferative properties. Proper measurement of the natriuretic peptide levels may help differentiate between respiratory and cardiac forms of dyspnea, diagnose early forms of heart failure, evaluate severity of heart failure (prognosis) and monitor the efficacy of therapy. In many countries natriuretic peptide levels are being used as one of the earliest diagnostics tools to evaluate the involvement of the heart. Current theoretical and clinical data confirm the importance of natriuretic peptides in routine healthcare. These roles are clearly described in international recommendations and guidelines. In the current review the authors discuss the problems of the measurement of natriuretic peptides in Hungary, including several aspects related to laboratory medicine, cardiology and health economy.

Published

2015

15. A komplex betegoktatási program szerepe a szívelégtelenségben szenvedő betegek gondozásában.

Author

Bánfi-Bacsárdi, Fanni, Boldizsár, Elizabet Mirjam, Gergely, G. Tamás, Forrai, Zsolt, Kazay, Ádám, Füzesi, Tamás, Hanuska, Laura Fanni, Schäffer, Pál Péter, Pilecky, Dávid, Vámos, Máté, Gavallér, Zita, Keresztes, Katalin, Dékány, Miklós, Andréka, Péter, Piróth, Zsolt, Nyolczas, Noémi, and Muk, Balázs

Abstract

Copyright of Hungarian Medical Journal / Orvosi Hetilap is the property of Akademiai Kiado and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

16. The Impact of Specialised Heart Failure Outpatient Care on the Long-Term Application of Guideline-Directed Medical Therapy and on Prognosis in Heart Failure with Reduced Ejection Fraction.

Author

Muk, Balázs, Bánfi-Bacsárdi, Fanni, Vámos, Máté, Pilecky, Dávid, Majoros, Zsuzsanna, Török, Gábor Márton, Vágány, Dénes, Polgár, Balázs, Solymossi, Balázs, Borsányi, Tünde Dóra, Andréka, Péter, Duray, Gábor Zoltán, Kiss, Róbert Gábor, Dékány, Miklós, and Nyolczas, Noémi

Subjects

HEART failure, PROGNOSIS, OUTPATIENT medical care, VENTRICULAR ejection fraction, LONG-term health care, PROPORTIONAL hazards models

Abstract

(1) Background: Besides the use of guideline-directed medical therapy (GDMT), multidisciplinary heart failure (HF) outpatient care (HFOC) is of strategic importance in HFrEF. (2) Methods: Data from 257 hospitalised HFrEF patients between 2019 and 2021 were retrospectively analysed. Application and target doses of GDMT were compared between HFOC and non-HFOC patients at discharge and at 1 year. 1-year all-cause mortality (ACM) and rehospitalisation (ACH) rates were compared using the Cox proportional hazard model. The effect of HFOC on GDMT and on prognosis after propensity score matching (PSM) of 168 patients and the independent predictors of 1-year ACM and ACH were also evaluated. (3) Results: At 1 year, the application of RASi, MRA and triple therapy (TT: RASi + βB + MRA) was higher (p < 0.05) in the HFOC group, as was the proportion of target doses of ARNI, βB, MRA and TT. After PSM, the composite of 1-year ACM or ACH was more favourable with HFOC (propensity-adjusted HR = 0.625, 95% CI = 0.401–0.974, p = 0.038). Independent predictors of 1-year ACM were age, systolic blood pressure, application of TT and HFOC, while 1-year ACH was influenced by the application of TT. (4) Conclusions: HFOC may positively impact GDMT use and prognosis in HFrEF even within the first year of its initiation. [ABSTRACT FROM AUTHOR]

Published

2024

17. Cardiopoietic cell therapy for advanced ischemic heart failure : results at 39 weeks of the prospective, randomized, double blind, sham-controlled CHART-1 clinical trial

Author

Bartunek, Jozef, Terzic, Andre, Davison, Beth A, Filippatos, Gerasimos S, Radovanovic, Slavica, Beleslin, Branko, Merkely, Bela, Musialek, Piotr, Wojakowski, Wojciech, Andreka, Peter, Horvath, Ivan G, Katz, Amos, Dolatabadi, Dariouch, El Nakadi, Badih, Arandjelovic, Aleksandra, Edes, Istvan, Seferovic, Petar M, Obradovic, Slobodan, Vanderheyden, Marc, Jagic, Nikola, Petrov, Ivo, Atar, Shaul, Halabi, Majdi, Gelev, Valeri L, Shochat, Michael K, Kasprzak, Jaroslaw D, Sanz Ruiz, Ricardo, Heyndrickx, Guy R, Nyolczas, Noémi, Legrand, Victor, Guédès, Antoine, Heyse, Alex, Moccetti, Tiziano, Fernandez Aviles, Francisco, Jimenez Quevedo, Pilar, Bayes Genis, Antoni, Hernandez Garcia, Jose Maria, Ribichini, Flavio, Gruchala, Marcin, Waldman, Scott A, Teerlink, John R, Gersh, Bernard J, Povsic, Thomas J, Henry, Timothy D, Metra, Marco, Hajjar, Roger J, Tendera, Michal, Behfar, Atta, Alexandre, Bertrand, Seron, Aymeric, Stough, Wendy Gattis, Sherman, Warren, Cotter, Gad, Wijns, W. i. l. l. i. a. m. Collaborators Clinical investigators, Dens, sites Belgium: Ziekenhuis Oost Limburg: J., Dupont, M., Mullens, W., Janssens, M., Dolatabadi, Hoˆpital Civil de Charleroi: D., De Bruyne, Y., Lalmand, J., Dubois, P., El Nakadi, B., Aminian, A., De Vuyst, E., Gurnet, P., Gujic, M., Blankoff, I., Guedes, CHU Mont Godinne UCL: A., Gabriel, L., Seldrum, S., Doyen, C., Andre´, M., Heyse, AZ Glorieux: A., Van Durme, F., Verschuere, J., Legrand, Domaine Universitaire du Sart Tilman: V., Gach, O., D’Orio, V., Davin, L., Lancellotti, P., Baudoux, E., Ancion, A., Dulgheru, R., Vanderheyden, OLV Ziekenhuis Aalst – Cardiologie: M., Bartunek, J., Wijns, W., Verstreken, S., Penicka, . M., Gelev, P. Meeus Bulgaria: Tokuda Hospital Sofia: V., Zheleva Kichukova, I., Parapunova, R., Melamed, R., Sardovski, S., Radev, O., Yordanov, A., Radinov, A., Nenov, D., Amine, I., Petrov, City Hospital Clinic Cardiology Center: I., Kichukov, K., Nikitasov, L., Stankov, Z., Stoyanov, H., Tasheva Dimitrova, I., Angelova, M., Dimitrov, E., Minchev, M., Garvanski, I., Botev, C., Polomski, P., Alexandrovska University Hospital, Vassilev, Sofia: D., Karamfiloff, K., Tarnovska Kadreva, R., Vladimirova, L., Dimitrov, G., Hadzhiev, E., Tzvetkova, G., Andreka, . M. Atanasova Hungary: Gottsegen Gyo¨ rgy Orszagos Kardiologiai Inte´zet: P., Fontos, G., Fabian, J., Csepregi, A., Uzonyi, G., Gelei, A., Edes, Debreceni Egyetem Orvos e´s Ege´szse´gtudomanyi Centrum Altalanos Orvostudomanyi Kar Kardiologia Inte´zet: I., Balogh, L., Vajda, G., Darago, A., Gergely, S., Fulop, T., Jenei, C., Horvath, Pe´csi Tudomanyegyetem Klinikai Ko¨zpont Szıvgyogyaszati Klinika: I., Magyari, B., Nagy, A., Cziraki, A., Faludi, R., Kittka, B., Alizadeh, H., Merkely, Semmelweis Egyetem Varosmajori Szıv e´s Ergyogyaszati Klinika: B., Geller, L., Farkas, P., Szombath, G., Foldes, G., Skopal, J., Kovacs, A., Kosztin, A., Gara, E., Sydo, N., Nyolczas, MH Ege´szse´gu¨gyi Ko¨zpont Kardiologiai Osztaly: N., Kerecsen, G., Korda, A., Kiss, . M., Borsanyi, T., Polgar, B., Muk, B., Sharif, Z. Bari Ireland: HRB Clinical Research Facility: F., Atar, Y. M. Smyth Israel:Western Galilee Hospital: S., Shturman, A., Akria, L., Kilimnik, M., Brezins, M., Halabi, Ziv Medical Center: M., Dally, N., Goldberg, A., Aehab, K., Rosenfeld, I., Levinas, T., Saleem, D., Katz, Barzilai Medical Center: A., Plaev, T., Drogenikov, T., Nemetz, A., Barshay, Y., Jafari, J., Orlov, I., Nazareth Hospital EMMS: M. Omory, N. Kogan Nielsen, Shochat, Hillel Yaffe Medical Center: M., Shotan, A., Frimerman, A., Meisel, S., Asif, A., Sofer, O., Blondheim, D. S., Vazan, A., Metra, L. Arobov Italy: A. O. Spedali Civili di Brescia: M., Bonadei, I., Inama, L., Chiari, E., Lombardi, C., Magatelli, M., Russo, D., Lazzarini, V., Carubelli, V., Vassanelli, AOUI Verona – Borgo Trento Hospital: C., Ribichini, Flavio Luciano, Bergamini, C., Krampera, Mauro, Cicoria, M. A., Zanolla, L., Dalla Mura, D., Gambaro, A., Rossi, A., Pesarini Poland: Jagiellonian University Department of Cardiac, G., Musialek, Vascular Diseases at John Paul II Hospital in Krakow: P., Mazurek, A., Drabik, L., Ka˛dzielski, A., Walter, Z., Dzieciuch Rojek, M., Rubis, P., Plazak, . W., Tekieli, L., Podolec, J., Orczyk, W., Sutor, U., Zmudka, K., Olszowska, M., Podolec, P., Gruchala, Uniwersyteckie Centrum Kliniczne: M., Ciecwierz, D., Mielczarek, M., Burakowski, S., Chmielecki, M., Zielinska, M., Frankiewicz, A., Wdowczyk, J., Stopczynska, I., Bellwon, J., Mosakowska, K., Nadolna, R., Wroblewska, J., Rozmyslowska, M., Rynkiewicz, M., Marciniak, I., Raczak, G., Tarnawska, M., Taszner, M., Kasprzak, Bieganski Hospital: J., Plewka, M., Fiutowska, D., Rechcinski, T., Lipiec, P., Sobczak, M., Weijner Mik, P., Wraga, M., Krecki, R., Markiewicz, M., Haval Qawoq, D., Wojakowski, Gornosla˛skie Centrum Medyczne Sla˛skie j. Akademii Medycznej: W., Ciosek, J., Dworowy, S., Gaszewska Zurek, E., Ochala, A., Cybulski, W., Jadczyk, T., Wanha, W., Parma, Z., Kozlowski, M., Dzierzak, M., Markiewicz Serbia: Clinical Hospital Center Zvezdara, M., Arandjelovic, Cardiology Clinic: A., Sekularac, N., Boljevic, D., Bogdanovic, A., Zivkovic, S., Cvetinovic, N., Loncar, G., Clinical Centre of Serbia, Beleslin, Cardiology Clinic: B., Nedeljkovic, M., Trifunovic, D., Giga, V., Banovic, M., Nedeljkovic, I., Stepanovic, J., Vukcevic, V., Djordjevic Dikic, A., Dobric, M., Obrenovic Kircanski, B., Seferovic, Cardiology Clinic: P., Orlic, D., Tesic, M., Petrovic, O., Milinkovic, I., Simeunovic, D., Jagic, Clinical Center of Kragujevac: N., Tasic, M., Nikolic, D., Miloradovic, V., Djurdjevic, P., Sreckovic, M., Zornic, N., Clinical Hospital Center Bezanijska Kosa, Radovanovic, Cardiology Department: S., Saric, J., Hinic, S., Djokovic, A., Ðordevic, S., Bisenic, V., Markovic, O., Stamenkovic, S., Malenkovic, V., Tresnjak, J., Misic, G., Cotra, D., Tomovic, L., Vuckovic, V., Clinic of Emergency Internal Medicine, Obradovic, Military Medical Academy: S., Jovic, Z., Vukotic, S., Markovic, D., Djenic, N., Ristic Andjelkov, A., Bayes Genis, D. Ljubinka Spain: Hospital Universitario Germans Trias I. Pujol: A., Rodriguez Leor, O., Labata, C., Vallejo, N., Ferrer, E., Batlle, M., Fernandez Aviles, Hospital General Universitario Gregorio Mara~non: F., Sanz Ruiz, R., Casado, A., Loughlin, G., Zatarain, E., Anguita, J., Ferna ndez Santos, M. E., Pascual, C., Bermejo, J., Hernandez Garcia, Hospital Clinico Universitario Virgen de la Victoria: J. M., Jimenez Navarro, M., Dominguez, A., Carrasco, F., Mu~noz, A., Garcia Pinilla, J. M., Ruiz, J., Queipo de Llano, M. P., Hernandez, A., Fernandez, A., Jimenez Quevedo, Hospital Clinico San Carlos: P., Guerra, R., Biagioni, C., Gonzalez, R. A., Gomez deDiego, J. J., Mansson Broberg, L. Perez de Isla Sweden: Karolinska University Hospital: A., Sylve´n, C., Leblanc, K., Winter, R., Blomberg, P., Gunyeli, E., Ruck, A., Silva, C., Fo¨rstedt Switzerland: CardioCentro Ticino, J., Moccetti, Switzerland: T., Rossi, M., Pasotti, E., Petrova, I., Crljenica, C., Monti, C., Murzilli, R., Su¨rder, D., Moccetti, M., Turchetto, L., Locicero, V., Chiumiento, L., Maspoli, S., Mombelli, M., Anesini, A., Biggiogero, M., Ponti, G., Camporini, C., Polledri, S., Hill, G. Dolci United Kingdom: Kings College Hospital: J., Plymen, C., Amin Youssef, G., Mcdonagh, T., Drasar, E., Mijovic, A., Jouhra, F., Mcloman, D., Dworakowski, R., Webb, I., Byrne, J., and Potter, V.

Subjects

0301 basic medicine, Male, Cardiopoiesis, Cardiovascular disease, Disease severity, Marker, Precision medicine, Regenerative medicine, Stem cell, Target population, Adult, Aged, Double-Blind Method, Female, Heart Failure, Humans, Mesenchymal Stem Cell Transplantation, Middle Aged, Myocardial Ischemia, Prospective Studies, Treatment Outcome, Young Adult, Cardiology and Cardiovascular Medicine, Cell- and Tissue-Based Therapy, mesenchymal stem-cells, 030204 cardiovascular system & hematology, Cardiorespiratory Medicine and Haematology, outcomes, Fast-Track Clinical Research, Sudden cardiac death, 0302 clinical medicine, Ischemia, cardiovascular disease, Clinical endpoint, target population, CHART Program, Ejection fraction, bone-marrow, Heart Failure/Cardiomyopathy, 3. Good health, Cohort, Cardiology, Fast Track, disease severity, delivery, medicine.medical_specialty, precision medicine, Clinical Sciences, regenerative medicine, 03 medical and health sciences, cardiopoiesis, Internal medicine, medicine, Adverse effect, marker, disease, business.industry, medicine.disease, mortality, Confidence interval, Clinical trial, stem cell, Editor's Choice, 030104 developmental biology, predictors, Cardiovascular System & Hematology, Heart failure, business

Abstract

Altres ajuts: This work was supported by Celyad, SA (Mont-Saint-Guibert, Belgium). Celyad has received research grants from the Walloon Region (Belgium, DG06 funding). Cardiopoietic cells, produced through cardiogenic conditioning of patients' mesenchymal stem cells, have shown preliminary efficacy. The Congestive Heart Failure Cardiopoietic Regenerative Therapy (CHART-1) trial aimed to validate cardiopoiesis-based biotherapy in a larger heart failure cohort. This multinational, randomized, double-blind, sham-controlled study was conducted in 39 hospitals. Patients with symptomatic ischaemic heart failure on guideline-directed therapy (n = 484) were screened; n = 348 underwent bone marrow harvest and mesenchymal stem cell expansion. Those achieving > 24 million mesenchymal stem cells (n = 315) were randomized to cardiopoietic cells delivered endomyocardially with a retention-enhanced catheter (n = 157) or sham procedure (n = 158). Procedures were performed as randomized in 271 patients (n = 120 cardiopoietic cells, n = 151 sham). The primary efficacy endpoint was a Finkelstein–Schoenfeld hierarchical composite (all-cause mortality, worsening heart failure, Minnesota Living with Heart Failure Questionnaire score, 6-min walk distance, left ventricular end-systolic volume, and ejection fraction) at 39 weeks. The primary outcome was neutral (Mann–Whitney estimator 0.54, 95% confidence interval [CI] 0.47–0.61 [value > 0.5 favours cell treatment], P = 0.27). Exploratory analyses suggested a benefit of cell treatment on the primary composite in patients with baseline left ventricular end-diastolic volume 200–370 mL (60% of patients) (Mann–Whitney estimator 0.61, 95% CI 0.52–0.70, P = 0.015). No difference was observed in serious adverse events. One (0.9%) cardiopoietic cell patient and 9 (5.4%) sham patients experienced aborted or sudden cardiac death. The primary endpoint was neutral, with safety demonstrated across the cohort. Further evaluation of cardiopoietic cell therapy in patients with elevated end-diastolic volume is warranted.

Published

2017

18. Cardiac Index by Transthoracic Echocardiography (CITE) study.

Author

Szabó, Barna, Marosi, Eszter Krisztina, Vargová, Katarina, and Nyolczas, Noémi

Subjects

HEART failure treatment, ECHOCARDIOGRAPHY, SEVERITY of illness index, HOSPITAL care, PATIENT readmissions, RETROSPECTIVE studies

Abstract

Aims: Left ventricular ejection fraction (LVEF) is the most frequently used parameter in the assessment of heart failure (HF). Cardiac index (CI) is considered a potential alternative to LVEF despite limited evidence. We aimed to assess and compare the predictive accuracy of LVEF and echocardiographically-assessed CI in HF patients. Methods and results: A single-centre, retrospective cohort study was conducted in patients hospitalized for acute HF from 2010–2016. Cox proportional hazard models including either LVEF or CI were created to predict all cause death, cardiovascular (CV) death, or first HF-readmission. Of 334 patients included in the analysis, 58.7% exhibited HF with reduced LVEF (HFrEF). Left ventricular ejection fraction did not show correlation with any endpoint, while CI was predictive of HF-readmission in the entire cohort. Both the LVEF-based and CI-based models demonstrated moderate discriminative accuracy when predicting all-cause death, CV death, or HF-readmission. Left ventricular ejection fraction proved to be an independent predictor of CV mortality in HFrEF-patients, while CI was predictive of HF-readmission in the non-HFrEF group. Conclusions: Left ventricular ejection fraction seemed to be associated more closely with disease severity in HFrEF, and CI in the non-HFrEF group, in this real-life cohort of elderly HF patients. The LVEF-based and CI-based predictive models have clinically similar predictive accuracy for mortality and HF-readmission, thus CI may be a potential alternative to LVEF in the assessment of left ventricular function. Cardiac index may be an important new tool in the assessment of HF patients with midrange or preserved LVEF. [ABSTRACT FROM AUTHOR]

Published

2018

19. Magyar Szívelégtelenség Regiszter 2015–2016. Kezdeti eredmények.

Author

Nyolczas, Noémi, Heltai, Krisztina, Borbély, Attila, Habon, Tamás, Járai, Zoltán, Sziliczei, Erzsébet, Stadler, Péter, Faludi, Réka, Herczeg, Béla, Papp, Előd, Lakatos, Ferenc, Nagy, Katalin, Katona, András, Kovács, Imre, Tomcsányi, János, Nagy, András, and Sepp, Róbert

Abstract

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Published

2017

20. Variant Transthyretin Amyloidosis (ATTRv) in Hungary: First Data on Epidemiology and Clinical Features.

Author

Pozsonyi, Zoltán, Peskó, Gergely, Takács, Hedvig, Csuka, Dorottya, Nagy, Viktória, Szilágyi, Ágnes, Hategan, Lidia, Muk, Balázs, Csányi, Beáta, Nyolczas, Noémi, Dézsi, Lívia, Molnár, Judit Mária, Csillik, Anita, Révész, Katalin, Iványi, Béla, Szabó, Fruzsina, Birtalan, Krisztián, Masszi, Tamás, Arányi, Zsuzsanna, and Sepp, Róbert

Subjects

TRANSTHYRETIN, AMYLOIDOSIS, HEART transplant recipients, HEART failure, PHENOTYPES, RECESSIVE genes

Abstract

Background: Variant transthyretin amyloidosis (ATTRv) is an autosomal dominant inherited disease, where the mutation of the transthyretin gene (TTR) results in the deposition of pathogenic protein fibrils in various tissues. The mutation type influences the clinical course. Until now, no data were available on the genotype, phenotype, and prevalence of Hungarian ATTRv patients. The aim of our study was to assess the prevalence, regional distribution, genotypes, and phenotypes of Hungarian patients with ATTRv. Methods: With the collaboration of Hungarian regional and university centers, we identified patients diagnosed with ATTRv. We also searched prior publications for case studies of Hungarian ATTRv patients. Results: 40 individuals in 23 families with ATTRv were identified within the borders of Hungary. At the time of the diagnosis, 24 of them were symptomatic. The two most common mutations were ATTRHis88Arg (nine families) and ATTRIle107Val (8 families). ATTRVal30Met was demonstrated in 2 families, and ATTRVal122del, ATTRPhe33Leu, ATTRIle84Ser, and ATTRAsp18Gly in one family each. The median age of the symptomatic patients at the time of clinical diagnosis was 65 years. The most common clinically significant organ involvement was restrictive cardiomyopathy, found in 24 patients. Polyneuropathy was diagnosed in 20 patients. A total of 19 patients showed a mixed phenotype. The leading symptom was heart failure in 8 cases (3 of them had only cardiac symptoms), polyneuropathy in 11 cases (all of them also had cardiac symptoms), and equally severe cardiac and neuropathy symptoms were present in 3 cases. Out of 24 symptomatic patients, 10 received targeted pharmacological therapy. The follow-up period ranged from 1 to 195 months. At the time of the retrospective analysis, 12 patients had already died, and 1 patient underwent heart transplantation. Conclusions: As TTR genotype influences the phenotype and clinical course of ATTRv, it is important to know the regional data. In Hungary, ATTRHis88Arg and ATTRIle107Val are the most common mutations in ATTRv, both presenting with mixed phenotype, but the median age at the time of the diagnosis is 9 years lower in patients with ATTRHis88Arg than in patients with ATTRIle107Val. [ABSTRACT FROM AUTHOR]

Published

2021

21. Unrecognised cardiovascular disease in type 2 diabetes: is it time to act earlier?

Author

Schernthaner, Guntram, Lotan, Chaim, Baltadzhieva-Trendafilova, Elina, Ceponis, Jonas, Clodi, Martin, Ducena, Kristine, Goncalvesova, Eva, Guja, Cristian, Honka, Marek, Janež, Andrej, Lalić, Nebojša, Lehmann, Roger, Nyolczas, Noémi, Pauklin, Priit, Rynkiewicz, Andrzej, Sergienko, Igor, and Duvnjak, Lea Smirčić

Subjects

CARDIOVASCULAR diseases, TYPE 2 diabetes, HEART failure, MEDICAL screening, DISEASE prevalence

Abstract

Cardiovascular disease (CVD) is the most significant prognostic factor in individuals with type 2 diabetes (T2D). However, a significant number of individuals may develop CVD that does not present with the classic angina-related or heart failure symptoms. In these cases, CVD may seem to be 'silent' or 'asymptomatic', but may be more accurately characterised as unrecognised diabetic cardiac impairment. An initial step to raise awareness of unrecognised CVD in individuals with T2D would be to reach a consensus regarding the terminology used to describe this phenomenon. By standardising the terminologies, and agreeing on the implementation of an efficient screening program, it is anticipated that patients will receive an earlier diagnosis and appropriate and timely treatment. Given the availability of anti-diabetic medications that have been shown to concomitantly reduce CV risk and mortality, it is imperative to improve early identification and initiate treatment as soon as possible in order to enable as many patients with T2D as possible to benefit. [ABSTRACT FROM AUTHOR]

Published

2018