key: cord-0960460-2kbn2rr8 authors: Stretti, Lorenzo; Zippo, Dauphine; Coats, Andrew J.S.; Anker, Markus S.; von Haehling, Stephan; Metra, Marco; Tomasoni, Daniela title: A year in heart failure: an update of recent findings date: 2021-12-16 journal: ESC Heart Fail DOI: 10.1002/ehf2.13760 sha: f5b59fae57cfb69583567414da0ea34a1d8c05d4 doc_id: 960460 cord_uid: 2kbn2rr8 Major changes have occurred in these last years in heart failure (HF) management. Landmark trials and the 2021 European Society of Cardiology guidelines for the diagnosis and treatment of HF have established four classes of drugs for treatment of HF with reduced ejection fraction: angiotensin‐converting enzyme inhibitors or an angiotensin receptor‐neprilysin inhibitor, beta‐blockers, mineralocorticoid receptor antagonists, and sodium‐glucose co‐transporter 2 inhibitors, namely, dapagliflozin or empagliflozin. These drugs consistently showed benefits on mortality, HF hospitalizations, and quality of life. Correction of iron deficiency is indicated to improve symptoms and reduce HF hospitalizations. AFFIRM‐AHF showed 26% reduction in total HF hospitalizations with ferric carboxymaltose vs. placebo in patients hospitalized for acute HF (P = 0.013). The guanylate cyclase activator vericiguat and the myosin activator omecamtiv mecarbil improved outcomes in randomized placebo‐controlled trials, and vericiguat is now approved for clinical practice. Treatment of HF with preserved ejection fraction (HFpEF) was a major unmet clinical need until this year when the results of EMPEROR‐Preserved (EMPagliflozin outcomE tRial in Patients With chrOnic HFpEF) were issued. Compared with placebo, empagliflozin reduced by 21% (hazard ratio, 0.79; 95% confidence interval, 0.69 to 0.90; P < 0.001), the primary outcome of cardiovascular death or HF hospitalization. Advances in the treatment of specific phenotypes of HF, including atrial fibrillation, valvular heart disease, cardiomyopathies, cardiac amyloidosis, and cancer‐related HF, also occurred. Coronavirus disease 2019 (COVID‐19) pandemic still plays a major role in HF epidemiology and management. All these aspects are highlighted in this review. Heart failure (HF) remains a major cause of morbidity and mortality worldwide, with a 5 year mortality rate close to 50%. 1-3 Progress has occurred in its management with major randomized controlled trials finally showing positive findings. 4 This article aims to providing an update of the most recent findings. Data about epidemiology of HF are still limited. The overall prevalence of HF ranges from about 1.5% to 4% in developed countries ( Figure 1 ). 2,3,5,6 It has been growing in the last years likely because of ageing of the population and the improve-ment in HF treatment. 2, 7 No major difference can now be found between European and Asian countries, including China. 8, 9 The Heart Failure Association (HFA) Atlas aimed to establish a reliable contemporary European dataset on HF epidemiology, resources, and reimbursement policies. 10 In this survey, the median incidence of HF was 3.2 cases [interquartile range (IQR) 2. .17] per 1000 person-years, while the median HF prevalence was 17.20 (IQR 14.30-21) cases per 1000 people (Figure 1) . 5 preserved ejection fraction (HFpEF), probably due to the higher prevalence of obesity and diabetes mellitus (DM), 13 whereas men mainly develop HF with reduced ejection fraction (HFrEF), because of their predisposition to ischaemic cardiomyopathy. 14 Sex differences in biomarker profiles have been highlighted. 15 Differences in outcomes were investigated in 9428 patients with chronic HF from the European Society of Cardiology (ESC) HF Long-Term Registry. Compared with men, women had lower rates of all-cause mortality and HF hospitalization at 1 year. 7 Sex was not an independent predictor of outcome. The use of guideline-directed medical therapy (GDMT) was lower in women than in men, probably due to older age and comorbidity. Even though no sex-related differences have been noted in the effect of therapies, a recent post hoc analysis including eight major randomized clinical trials (RCTs) suggested that women might benefit from treatment also with higher left ventricular ejection fraction (LVEF) values ( Figure 2) . 16 Of note, women are consistently under-represented in HF clinical trials, contributing to remarkable research bias. 17,18 Comorbidities have a substantial impact on clinical presentation and outcomes in HF patients. 19 Screening for and treatment of cardiovascular (CV) comorbidities and non-CV comorbidities is recommended. 1 CV comorbidities include hypertension, 20 coronary artery disease, 21 atrial fibrillation (AF), 22 ventricular arrhythmias, valvular heart disease, 23-25 cerebrovascular disease, and pulmonary hypertension. Non-CV comorbidities include chronic kidney disease 26,27 and electrolyte disorders, 28,29 DM, 30 obesity, 31-34 cachexia, [35] [36] [37] [38] sarcopenia, 37-42 chronic obstructive pulmonary disease, 19, 43 iron deficiency 44,45 and anaemia, 46,47 thyroid disorders, 48 cancer, 49-51 infection, 52,53 arthritis, 54,55 frailty, 56,57 and depression. The clinical burden of comorbidities differs between patients with HFrEF and those with HFpEF. 58-60 Some examples of the role of comorbidities are given below. Frailty and muscle wasting have been object of active research in these last years. Frailty is defined as a state of vulnerability related to elderly age, which confers a poor prognosis due to increased rates of mortality, institutionalizations, falls, and hospitalizations. 37,57,61-64 It is the result of impaired homeostatic mechanisms and reduced resistance to stressors that might be the consequence of bone 65 and muscle wasting renin-angiotensin-aldosterone system inhibitor (from Dewan et al. 16 ). (sarcopenia) or cachexia, both of which have been shown to be independently associated with increased mortality. 31,39, 66 Muscle wasting has been described across a vast spectrum of HF aetiologies including ischaemic cardiomyopathy and Chagas disease, 67 and the importance of more clinical and therapeutic action has been highlighted in recent years. 63, 64, 68 In a retrospective analysis of PARADIGM-HF [Prospective comparison of angiotensin receptor-neprilysin inhibitors with angiotensin-converting enzyme inhibitors to Determine Impact on Global Mortality and morbidity in HF] and ATMO-SPHERE (Aliskiren Trial to Minimize Outcomes in Patients with Heart Failure), 63% of patients with HF were considered frail, based on a Frailty Index > 0.21. 62 HFA of the ESC has recently proposed a new Frailty Score, based on four main domainsclinical, functional, psycho-cognitive, and social. 57 The diagnosis of HF requires the presence of symptoms and/or signs of HF (e.g. breathlessness, fatigue, ankle swelling, pulmonary crackles, elevated jugular venous pressure, and peripheral oedema) and objective evidence of cardiac dysfunction. 1,69 Because signs and symptoms are often nonspecific, investigation through biomarkers and imaging is essential for the diagnosis and management. 1,69,70 Vital signs are predictors of outcome. The role of heart rate in patients with AF and HF may differ in patients in sinus rhythm or AF. 71 Higher heart rate was found to be an independent predictor of CV poor outcome in patients with HFrEF in sinus rhythm but not in those with AF, although an effect of a higher heart rate on mortality was found during the first years of follow-up also in patients with AF in one study from the Swedish HF registry. 71, 72 Assessment of biomarkers is a cornerstone of HF management. [73] [74] [75] [76] Abnormalities of serum potassium levels are associated with poorer outcomes either when low or high. Studies showed a U-shaped association between serum potassium concentrations and mortality, with a potassium level of 4.2 mmol/L related to the lowest risk of death. 77 In a cohort of patients from the Swedish HF Registry, hypokalaemia was associated with increased mortality both in short term and in long term, whereas hyperkalaemia in short term only. Hyperkalaemia can lead to underuse and premature discontinuation of renin-angiotensin-aldosterone system inhibitors (RAASi) and be associated with increased mortality mainly through this mechanism. 1 Imaging Imaging techniques allow the evaluation of left and right ventricular function, valvular disease, congestion, and pulmonary pressure. Clinical presentation and natural history of HFrEF may change depending on left ventricular (LV) geometry remodelling. 78 Initial ventricular dysfunction leads to early shortening of LV systolic ejection time (SET) and lengthening of pre-ejection periods (PEPs). Among 545 ambulatory patients with HF, median SET was shorter and median PEP was longer in those with reduced LVEF compared with those with preserved LVEF. In addition, longer SET was independently associated with improved outcome in HFrEF but not in HFpEF patients. 79 Pulmonary hypertension and right ventricular dysfunction are further markers of poor outcome. 80 Two-dimensional and three-dimensional echocardiography, myocardial deformation, computed tomography (CT), and cardiac magnetic resonance (CMR) allow the assessment of atrial size and function. 'Atrial disease', also referred as atrial failure or myopathy, represents an intersection of subclinical structural, electrophysiological, and functional changes that primarily affect the atria with the potential to produce clinical consequences. 1 In a cohort of subjects with LVEF ≥ 50% referred for assessment of exertional dyspnoea, who underwent simultaneous echocardiography and right heart catheterization, left atrial (LA) reservoir and pump strain correlated with exercise pulmonary capillary wedge pressure. Reservoir strain at cut-off of ≤33% predicted invasively verified HFpEF diagnosis with 88% sensitivity and 77% specificity, providing diagnostic utility in patients with exertional dyspnoea. 81 Prognostic scores can be important to guide therapeutic strategies in HF and machine learning techniques may provide additional accuracy. 82 The Machine learning Assessment of RisK and EaRly mortality in Heart Failure (MARKER-HF) score is a new predicting risk score derived from a machine learning algorithm based on eight simple variables (diastolic blood pressure, creatinine, blood urea nitrogen, haemoglobin, white blood cell count, platelets, albumin, and red blood cell distribution width) that showed high power in predicting mortality (area under the curve 0.88). 83 In a hospital-based cohort of 4064 patients, MARKER-HF was substantially more accurate than LVEF in predicting mortality and was highly accurate in all three HF subgroups according to LVEF (HFrEF, HFmrEF, and HFpEF), with cstatistics between 0.83 and 0. 89. 84 Specific causes of heart failure Cardiomyopathies Cardiomyopathies, including dilated (DCM), hypertrophic (HCM), restrictive (RCM), arrhythmogenic right ventricular (ARVC), and non-classified cardiomyopathies, represent a heterogeneous group of heart muscle diseases causing HF. [85] [86] [87] [88] The electrocardiogram (ECG) may be very helpful for the first approach to patients with suspected DCM. Red flags based on ECG or clinical signs can help identifying specific DCM forms. 89, 90 Survival of patients with DCM is improved. Over 20% of patients with DCM can show LV reverse remodelling, with a much favourable prognosis compared with other forms of cardiomyopathies. 91 Hypertrophic cardiomyopathy is a genetic disorder causing LV hypertrophy, hypercontractility, and impaired diastolic function. Novel treatment strategies are being developed, including pharmacotherapy (e.g. mavacamten, a modulator of cardiac β-myosin, causing reversible inhibition of actin-myosin cross bridging), septal reduction techniques (e.g. surgical papillary muscle realignment and radiofrequency ablation), biventricular pacing, 92 mitral valve manipulation (e.g. percutaneous repair in order to reduce systolic anterior motion-septal contact in patients who are unsuitable for septal reduction techniques), and gene-based therapies. 93 A consensus document summarizing recommendations for the CV management in Fabry disease has been recently published. 94 Fabry disease is a lysosomal storage disorder caused by total or partial deficit of α-galactosidase A enzyme activity. Early diagnosis and treatment with enzyme replacement or small pharmacological chaperones may prevent cardiac involvement. Cardiac amyloidosis (CA) is an underestimated cause of HF. Transthyretin (TTR) CA (ATTR-CA) accounts for 12-13% of HFpEF cases 95 and between 8% and 16% cases of severe aortic stenosis (AS) scheduled for percutaneous aortic valve replacement. 96 Of note, amyloid deposition did not worsen prognosis of patients undergoing transcatheter aortic valve replacement (TAVR). 96 A novel algorithm for the diagnosis of CA has been recently proposed ( Figure 3) . 1, 97 In the last years, major advances occurred in the treatment of ATTR-CA. Targeted therapies interfering with TTR deposition include TTR tetramer stabilizers (tafamidis, diflunisal, and epigallocatechin-3-gallate), TTR silencers (inotersen and patisiran), and fibril disruptors (monoclonal antibodies, doxycycline, and tauroursodeoxycholic acid). 98 Tafamidis is now recommended in patients with TTR-CA and New York Heart Association (NYHA) class I or II symptoms to reduce symptoms, CV hospitalization, and mortality. 1 cardiomyopathy' (Figure 4) . 102 Moreover, cancer therapies are often cardiotoxic. 51,103 Main cardiotoxic drugs include anthracyclines, fluoropyrimidines, tyrosine kinase inhibitors, HER2-targeted therapies such as trastuzumab, and immune checkpoint inhibitors. 51 In a cohort of 569 women who underwent breast cancer treatment, Jacobse et al. found that anthracyclines were associated with impaired myocardial function [decrease in LVEF, impaired global longitudinal strain (GLS), and higher N-terminal pro-brain natriuretic peptide (NT-proBNP) levels]. The risk of HF increased with cumulative doses of anthracyclines. 104 Radiotherapy without anthracyclines was not associated with increased risk of HF. 105 Troponins and NP should be measured during treatment being important markers of early cardiac injury. 51,106 In a recent meta-analysis, lower levels of cardiac troponin in patients undergoing cancer therapy showed a negative predictive value for LV dysfunction of 93%. On the other hand, NT-proBNP levels, despite increasing during cancer treatment, apparently did not predict LV dysfunction. 107 In a study on 548 treatment-naïve patients, a higher heart rate at rest was associated with higher levels of cardiac biomarkers and higher rates of all-cause mortality, especially in lung and gastrointestinal cancers. 108 In a prospective study including 120 unselected patients with lung, colon, or pancreatic cancer and 43 healthy controls, the prevalence of non-sustained ventricular tachycardia was higher in cancer patients vs. controls and it was associated with a higher risk of mortality. 109 A CV risk stratification at baseline is useful in order to optimize the primary and secondary prevention. Closer surveillance should be deserved for patients at high CV risk. 110 Pharmacotherapy is the cornerstone of HFrEF treatment in order to reduce mortality, prevent worsening HF, and im-prove clinical status, functional capacity, and quality of life (QOL). 1,111 GDMT includes neurohormonal antagonists and the novel sodium-glucose co-transporter 2 (SGLT2) inhibitors. New compounds may expand the spectrum of HFrEF pharmacotherapy with the possibility of an individualized approach 112 ( Figure 5 ). Neurohormonal modulators include the angiotensin receptor-neprilysin inhibitor (ARNI), sacubitril/valsartan (possibly as first-line therapy), or an angiotensin-converting enzyme inhibitor (ACEi) or an angiotensin receptor blocker (ARB) if ACEi is not tolerated, a beta-blocker and a mineralocorticoid receptor antagonist (MRA). 1 Despite the widespread knowledge about the importance of initiating and titrating GDMT, 113 only a minority of eligible patients receive all the medications proven to be effective in preventing death and hospitalizations. 114 Moreover, a significant proportion of patients never receives target doses used in the landmark trials. 111, 115, 116 The underuse and underdosing is particularly evident in elderly subjects. 7, 111 In an analysis of the Swedish HF Registry, beta-blockers were associated with a reduced risk of all-cause mortality and CV events also in older patients. 117 European real-world evidence about sacubitril/valsartan treatment in HFrEF has been recently reviewed. 118 Sacubitril/valsartan may be safely initiated in hospital or early after discharge in patients hospitalized for acute HF. 119 Sacubitril inhibits neprilysin, a protease responsible for BNP cleavage. Effects of sacubitril/valsartan treatment on NPs trajectory have been studied, showing an increase in atrial natriuretic peptide (ANP) and no change in plasma brain natriuretic peptide (BNP) and plasma BNP activity, and a mild decrease in NT-proBNP concentrations. 120 In a recent subgroup analysis of the TRANSITION study (Comparison of Pre-and Post-discharge Initiation of LCZ696 Therapy in HFrEF Patients After an Acute Decompensation Event), the use of sacubitril/valsartan as a first-line therapy was associated with a better risk-benefit profile in patients with de novo HF than those with known HFrEF, with more subjects reaching the target dose, greater decrease in NT-proBNP and high-sensitivity cardiac troponin T levels, and lower rates of HF or all-cause hospitalization. 121 The OUTSTEP-HF study was a randomized controlled trial comparing short-term effects of sacubitril/valsartan vs. enalapril on daily physical activity in patients with chronic HFrEF. After 12 weeks of treatment, a trend towards longer distance 6 min walking test was observed in patients receiving sacubitril/valsartan, albeit not statistically significant. 122 Type 2 DM is a risk factor for incident HF, a common comorbidity in patients with established HF, and it is associated with significant morbidity and mortality. 123 Randomized trials in patients with DM at risk of CV events showed a reduction in HF hospitalizations and renal endpoints with multiple SGLT2 inhibitors. 1,30,124-126 In 2019, DAPA-HF (Dapagliflozin and Prevention of Adverse-outcomes in Heart Failure) was the first trial proving benefits of dapagliflozin in patients with HFrEF, regardless of diabetes history, with a 26% reduction of the composite endpoint of CV death or worsening HF [hazard ratio (HR), 0.74; 95% confidence interval (CI), 0.65 to 0.85; P < 0.001] as well as its components of CV death and first HF events. 127, 128 In 2020, the Cardiovascular and Renal Outcomes with Empagliflozin in Heart Failure (EMPEROR-Reduced) trial confirmed these positive results with empagliflozin in HFrEF patients with a slightly increased risk for HF events likely because of the higher NT-proBNP levels required for study entry. 129 Compared with placebo, empagliflozin reduced the primary outcome of CV death or HF hospitalizations by 25% (HR, 0.75; 95% CI, 0.65 to 0.86; P < 0.001). 130 The empagliflozin group also showed a slower decline of the estimated glomerular filtration rate (eGFR) compared with the placebo group (À0.55 vs. À2.28 mL/ min/1.73 m 2 of body surface area per year, P < 0.001). 130 In the Effect of Sotagliflozin on Cardiovascular Events in Patients with Type 2 Diabetes Post Worsening Heart Failure (SOLOIST-WHF) trial, patients with a recent episode of worsening HF (irrespective of LVEF) and diabetes were randomized to sotagliflozin (a combined SGLT1/2 inhibitor) or placebo. Sotagliflozin was effective in the reduction of the total number of deaths from CV causes and hospitalizations or urgent visits for HF. 131 SGLT2 inhibitors have therefore shown beneficial effects on the clinical course of HF and kidney dysfunction, independent from neurohormonal mechanisms. 4,30,125,126 Their mechanisms of action are likely multifactorial and include enhanced natriuresis and osmotic diuresis, anti-inflammatory and antioxidant effects, improved myocardial metabolism and function, autophagy stimulation, and intracellular sodium reduction. 123, 132, 133 Dapagliflozin and empagliflozin are now recommended in all patients with HFrEF to reduce mortality and HF events. 1 Figure 5 Foundational therapies in HFrEF patients and new compounds that may expand the spectrum of HFrEF pharmacotherapy, with the possibility of an individualized approach. ACEi, angiotensin-converting enzyme inhibitors; ARB, angiotensin II receptor blockers; ARNI, angiotensin receptor-neprilysin inhibitor; FCM, ferric carboxymaltose; HFrEF, heart failure with reduced ejection fraction; HR, heart rate; ID, iron deficiency; MRA, mineralocorticoid receptor antagonist; OM, omecamtiv mecarbil; SGLT2, sodium-glucose co-transporter 2; SR, sinus rhythm. This class of drugs is a cost-effective treatment in the European health care systems. 134 Most patients with chronic HF are on loop diuretic therapy to relieve congestion and improve symptoms. 135 Higher doses of loop diuretics are associated with worse outcomes, and guidelines recommend usage of the lowest effective dose of loop diuretics needed to relieve congestion. 1,28, 136 In an analysis from the ESC-EORP Heart Failure Long-Term Registry, Kapelios et al. showed that an increase in diuretic dose was associated with HF death, while down-titration with a trend for better outcomes. 135 Clinical or subclinical iron deficiency is a common finding in HF patients, affecting up to 50% of ambulatory patients and leading to poorer prognosis and exercise intolerance. 137, 138 Treatment of iron deficiency with ferric carboxymaltose (FCM) infusion improved symptoms, functional capacity, and QOL in chronic HFrEF. [139] [140] [141] Efficacy on symptoms may be slightly larger in patients with HFrEF than with HFpEF. 142 In the Study to Compare Ferric Carboxymaltose With Placebo in Patients With Acute Heart Failure and Iron Deficiency (AF-FIRM-HF), the use of intravenous FCM in patients hospitalized for acute HF, an LVEF < 50%, and with evidence of iron deficiency reduced HF hospitalization at a 52 week follow-up (risk ratio, 0.74; 95% CI, 0.58 to 0.94, P = 0.013). 143 This effect was consistent with previous meta-analyses, 144 and independent from many baseline variables, including LVEF and kidney function. 143 Treatment of iron deficiency with intravenous FCM is therefore indicated to improve symptoms and reduce HF rehospitalizations in either outpatients with chronic HF or patients hospitalized for acute HF with an LVEF < 45-50%. 1,145 Vericiguat is an oral soluble guanylate cyclase (sGC) stimulator. 146 It may improve endothelial function and reduce oxidative stress and inflammation. 147 In the Study of Vericiguat in Participants With Heart Failure With Reduced Ejection Fraction (VICTORIA) trial, vericiguat, in addition to guideline-based medical therapy, reduced the composite outcome of death from CV causes or first hospitalization for HF (HR, 0.90; 95% CI, 0.82 to 0.98; P = 0.02) in patients with a history of recent hospitalization or who had received intravenous diuretic therapy. 148 According to this trial, it may be considered in patients with a recent HF event to improve outcomes. 1,149 Omecamtiv mecarbil (OM) is a selective cardiac myosin activator that targets only the sarcomere with no influence on Ca 2+ transients. In the Global Approach to Lowering Adverse Cardiac outcomes Through Improving Contractility in Heart Failure (GALACTIC-HF) trial, oral treatment with OM on top of standard HF therapy decreased the combined outcome of HF events and CV death (HR, 0.92; 95% CI, 0.86 to 0.99; P = 0.03) in HFrEF patients with LVEF < 35%. [150] [151] [152] This was driven primarily by a reduction in HF events, with a possible greater effect observed in patients with more severe LV dysfunction. No differences on blood pressure, ischaemic events, or arrhythmias were noted. Danicamtiv is another selective myosin activator capable of improving LV and atria contractility in experimental models and in a phase 2a trial in patients with HFrEF. 153 Digoxin is still active on other old drugs acting on cardiac function. DIGIT-HF is an ongoing trial designed to better clarify the role of digoxin on top of standard care in advanced HFrEF. 154 Mesenchymal autologous stem-cell therapy has had promising results in ischaemic heart disease and HF. 155, 156 In the final 4 year follow-up of the Autologous Mesenchymal Stromal Cell Therapy in Heart Failure (MSC-HF) trial, intramyocardial injection of mesenchymal stromal cells (MSC) in patients with ischaemic HF improved cardiac function and mass and reduced the amount of scar tissue compared with controls. Fewer hospitalization for angina were noted, with no differences in other hospitalization or survival. 155 N6-adenosine methylation (m6A) of RNA transcripts is the most frequent form of RNA modification in eukaryotes. 157 In hypertrophic and failing heart, the m6A methylation pattern is altered, with transcription-dependent and transcriptionindependent effects on protein expression: modulation of this process might be an interesting target for future therapies. 157 The miRNA miR-181a is a regulator of the aldosterone-mineralocorticoid receptor pathway with cardioprotective effects, and its overexpression in an animal model limited post-myocardial infarction (MI) cardiac remodelling. 158 Treatments based on miRNA-induced changes are currently under investigation. 159 In a network analysis of the plasma proteome of high-risk HF patients who died or were rehospitalized, Cao et al. found that glutathione, arginine and proline, and pyruvate pathways were activated. 160 These pathways might as well become novel targets for HF therapies. The reduction in mortality with implantable cardioverter defibrillator (ICD) depends on HF substrate, arrhythmic risk profile, and concurrent medical therapy, particularly in non-ischaemic cardiomyopathies. 161 In an analysis including 17 901 US veterans with HFrEF receiving a new ICD placement between January 2007 and January 2015, 1 year mortality was around 13%. Age at implant was associated with higher rates of mortality, an effect not only attributable to comorbidities' burden. 162 163 Independent predictors of SCD included age > 70 years; heart rate ≥ 70 b. p.m.; smoking; Killip class III/IV; LVEF ≤ 30%; AF; history of prior MI, HF, or DM; eGFR < 60 mL/min/1.73 m 2 ; and no coronary reperfusion or revascularization therapy for index MI. The risk score performed well (C-statistic = 0.72), both early and later after acute MI. By contrast, an LVEF of ≤35%, by itself, was a poor predictor of the risk of SCD (Cstatistic = 0.54). 163 A recent joint position statement from three ESC Associations, HFA, European Heart Rhythm Association (EHRA), and European Association of Cardiovascular Imaging (EACVI), focused on optimized implementation of cardiac resynchronization therapy (CRT). 164 CRT improves QOL and symptoms, reduces mortality and HF hospitalization, and favours LV reverse remodelling. Among patients enrolled in PARADIGM-HF and ATMO-SPHERE trials, 15.1% had left bundle branch block (LBBB), 4.4% right bundle branch block (RBBB), 3.8% non-specific intraventricular conduction delay, 21.8% 'mildly abnormal' QRS (110-129 ms), and 54.9% QRS < 110 ms at baseline and the annual incidence of new-onset LBBB was around 2.5%. The risk of the primary composite endpoint was higher among those with a wide QRS, irrespective of morphology. 165 These data support current indications to CRT in HFrEF. 1 Cardiac contractility modulation (CCM) consists of biphasic high-voltage bipolar signals delivered to the right ventricular septum during the absolute refractory period and has been shown to improve intramyocardial calcium handling. CCM has improved symptoms, exercise tolerance, and QOL and re-duced the rate of HF hospitalizations in patients with ejection fractions between 25% and 45%. [166] [167] [168] [169] Up to one-third of HFrEF patients present severe mitral secondary regurgitation (SMR), which is associated with poor outcomes. 24,170,171 Percutaneous edge-to-edge mitral valve repair has become a safe, widespread option for patients with HF and SMR. 1,23,24,172 Patients with no or low-grade residual mitral regurgitation at discharge and after 12 months from correction of mitral regurgitation with the MitraClip system showed better outcomes compared with patients with higher degree of residual mitral regurgitation. 173 Since the publication of the MITRA-FR and COAPT trials on MitraClip device, the attention has been focused on identifying the causes of the different results between the two trials and the patients who may benefit from this procedure. MITRA-FR trial failed to demonstrate a reduction in mortality or HF hospitalization in patients with severe FMR undergoing MitraClip compared with those receiving standard conservative therapy. 174, 175 On the other hand, the COAPT trial demonstrated a significant reduction in 2 year HF hospitalization and all-cause mortality. 176 Different outcomes might be, at least partially, explained by differences in patients' baseline characteristics. In a European multicentre retrospective study, a COAPT-like profile was associated with better outcomes at both 2 and 5 years, compared with non-COAPT-like profile. COAPT-like profile was defined as absence of (i) severe LV impairment, (ii) moderate to severe right ventricular dysfunction, (iii) severe tricuspid regurgitation, (iv) severe pulmonary hypertension, and (v) haemodynamic instability. 177 Other factors are important. LA dysfunction is a major cause of impairment of exercise capacity and abnormal haemodynamic response to exercise and an independent predictor of negative outcomes after percutaneous mitral valve repair. 178, 179 Even a small mitral effective regurgitant orifice area contributes to LA remodelling on top of traditional systolic and diastolic parameters. 180 Percutaneous mitral valve annuloplasty may also effectively reduce mitral valve annulus and have favourable effects on LV remodelling and patients' symptoms. 181, 182 Tricuspid regurgitation is highly prevalent in HF patients. Severe tricuspid regurgitation is associated with signs of right ventricular failure, impairment of hepatic and renal function, malnutrition, and adverse outcomes. 183, 184 Despite the availability of different transcatheter device for tricuspid valve repair (TVR), there are still no randomized trials that demonstrate their effect on major outcomes. 185 In a study by Kresoja et Patients with HF progress to an advanced stage with severe symptoms, poor tolerance of evidence-based medical therapy, frequent episodes of decompensation, and high mortality. 187 Management of these patients remains a major largely unmet medical need. 1 Positive inotropes failed to improve survival. 188, 189 The chronic use of inotropes in outpatients with advanced HF represents a palliative strategy to improve haemodynamics and, thus, symptoms and QOL. LeoDOR, a randomized, doubleblind, placebo-controlled, international, multicentre trial, will explore the safety and effectiveness of repetitive levosimendan in advanced HF patients, with a recent acute HF hospitalization. 190 The selected use of mechanical circulatory support (MCS) in patients with advanced HF has favourable effects on survival, functional capacity, and QOL. 191 Indications to short-term and long-term MCS are outlined in current guidelines. 1 The SweVAD trial will investigate the impact of guideline-directed left ventricular assist device (LVAD) destination therapy using the HeartMate 3 vs. GDMT on survival in advanced HF patients (NYHA class IIIB-IV, INTERMACS profile 2-6) who are not eligible for heart transplantation. 192 Aortic regurgitation (AR) is associated with only partial unloading of the left ventricle, reduced peripheral perfusion, increased myocardial wall stress, higher levels of NPs, higher hospitalization rates, and increased mortality in patients with MCS. In a recent analysis of the ISHLT Mechanically Assisted Circulatory Support (IMACS) registry, patients with preoperative moderate-to-severe AR who underwent LVAD implantation and concomitant aortic procedures had similar survival rates compared with those who did not receive any aortic procedure. Aortic valve replacement was, however, associated with a greater risk of mortality than aortic valve repair and was identified as an independent predictor of mortality. 193 Palliative care aims to improve symptoms and QOL, namely, in patients at their end of life. A recent position paper of the ESC proposed an integrated approach of palliative and HF cares. It focused on early recognition and assessment of patients' needs, managing distressing symptoms with pharmacological and non-pharmacological therapy, and communication with patients, family, or other caregivers. 194 Palliative care interventions have been associated with fewer hospitalization and improvements in QOL and symptoms burden. 195 It is difficult to question the usefulness of telemonitoring above all in the current era of coronavirus disease 2019 (COVID-19) pandemic. 53 However, as when other disease management modalities are compared, it is often difficult to show a benefit of a new one, mainly because treatment of the control group by skilled cardiologists is often satisfactory. In the OSICAT trial, 937 patients with recent HF hospitalization were randomized to telemonitoring or standard care. Telemonitoring showed no reduction in all-cause death or hospitalization for HF compared with standard care, except in patients with severe HF or socially isolated. 196 Consistently, the role of careful patients' selection has been shown in the successful Telemedical Interventional Monitoring in HF (TIM-HF) study. 197 Implantable pulmonary artery pressure monitoring systems are safe and were successful in reducing rates of hospitalization in symptomatic patients with HF. [198] [199] [200] [201] [202] Heart failure with preserved ejection fraction Heart failure with preserved ejection fraction accounts for more than half of HF hospitalizations. 1,2,203 Its prevalence is growing due to the ageing of the population and the increasing prevalence of obesity, DM, chronic kidney disease, and hypertension. 2,203-206 It is a highly heterogeneous condition although some common mechanisms may exist. As outlined in a seminal paper, an extracardiac cause, such as obesity, DM, hypertension, or chronic kidney disease, may lead to inflammatory activation, production of reactive oxygen species (ROS), formation of peroxynitrite (ONOO À ), and reduced nitric oxide (NO) bioavailability with reduced sGC activity and myocardial hypertrophy and stiffening. 207 Major attempts are performed to try to identify phenotypes of patients with HFpEF deserving specific treatments. Using a machine learning-based unsupervised cluster analysis, Segar et al. 82 identified three phenotypes of patients with HFpEF, with different clinical characteristics, comorbidities, and outcomes, among those enrolled in the Treatment of Preserved Cardiac Function Heart Failure with an Aldosterone Antagonist Trial (TOPCAT). 82 A distinct obese HFpEF phenotype seems identified. 208, 209 These obese HFpEF patients showed greater myocardial and epicardial fat deposition compared with HFrEF or non-HF patients. Release of cytokines and adipokines from the epicardial fat may induce myocardial inflammation both in the left atrium, with increased susceptibility to AF, and in the LV with increased stiffness and intraventricular filling pressure. These patients also have a larger blood volume and reduced vascular compliance with increased right atrial and pulmonary capillary wedge pressure, compared with non-obese HFpEF patients, coronary microvascular dysfunction and rarefaction, and myocardial fibrosis. 32,204,208-211 Echocardiography and, with better accuracy, CMR are useful tools for the detection of epicardial or intramyocardial fat, myocardial fibrosis, as well as for the study of microvascular dysfunction. 212 Diagnosis of HFpEF requires objective evidence of cardiac abnormalities and elevated levels of natriuretic peptides. A diagnostic stress test is recommended when these markers are inconclusive. A position statement by HFA has proposed a stepwise diagnostic algorithm. 203 Step 1 (P = pre-test) includes a complete assessment of HF symptoms and signs, clinical and demographical history, and diagnostic tests to exclude other causes of dyspnoea. The second step (Step E = echocardiographic and natriuretic peptide score) requires the integration of a comprehensive echocardiographic examination and measurement of natriuretic peptides in the HFA-PEFF score. A low HFA-PEFF score is associated with a very low likelihood of HFpEF, whereas a score ≥ 5 is considered diagnostic for HFpEF. This score was then validated in two independent prospective cohorts. 213, 214 Step 3 (F 1 = functional testing, with echocardiographic or invasive haemodynamic exercise stress tests) is reserved to patients with intermediate values of the HFA-PEFF score. The final step (F 2 = final aetiology) aims to identify specific aetiologies that may benefit from targeted treatments. 203 In a secondary analysis of the National Heart, Lung, and Blood Institute-sponsored RELAX, NEAT-HFpEF, and INDIE-HFpEF trials, Reddy et al. found that QOL was correlated with functional capacity, measured by peak aerobic capacity, levels of activity by accelerometry, and submaximal exercise capacity with 6 min walking test, while no association was found between QOL and NT-proBNP levels, echocardiographic resting parameters, and HF hospitalizations. Patients with worst QOL were young, obese, and diabetic. 215 Left ventricular hypertrophy and enlargement and their variation over time have a prognostic impact. 216 In a study in-cluding 280 patients with HFpEF, those with mild-tomoderate mitral regurgitation presented greater LA volume, reduced LA strain and compliance, and greater mitral annular dilatation compared with those without mitral regurgitation. Annular dilatation was strongly correlated with LA dilatation (r = 0.63, P < 0.0001) and weakly related to LV remodelling (r = 0.37), suggesting that mitral regurgitation may reflect atrial myopathy. 179 Atrial myopathy, either silent or clinically overt, is common in HFpEF and contributes to symptoms, disease progression, and adverse outcomes. 179, 217 Treatment At the time of the 2021 ESC HF guidelines, treatment with neurohormonal modulators could be considered based on mostly retrospective analyses of trials in patients with an LVEF ≥ 40% whereas treatment of HFpEF remained based on the management of congestion and comorbidities. 1 In the recent EMPEROR-Preserved (EMPagliflozin outcomE tRial in Patients With chrOnic heaRt Failure With Preserved Ejection Fraction) trial, empagliflozin reduced the composite endpoint of CV death or HF hospitalization in patients with LVEF > 40% and NYHA class II-IV, irrespective of DM history (HR, 0.79; 95% CI, 0.69 to 0.90; P < 0.001). 218 The results were consistent across all prespecified subgroups, including that of the patients with or without diabetes. 218 This is the first trial proving benefits on major clinical endpoints in HFpEF. Of note, EMPEROR-Preserved enrolled patients with a higher burden of comorbidities, more severe cardiac dysfunction, higher median NT-proBNP, and greater use of MRAs compared with previous HFpEF trials. 219 Sodium-glucose co-transporter 2 inhibitors also improved symptoms, QOL, and functional capacity in smaller trials. In a multicentre, randomized trial, enrolling 324 patients with HFpEF, those receiving dapagliflozin had a significant increase in the primary endpoint of Kansas City Cardiomyopathy Questionnaire Clinical Summary Score (KCCQ-CS) at 12 weeks after treatment initiation (effect size, 5.8 points; 95% CI, 2.3 to 9.2; P = 0.001) and in 6 min walking test distance (mean effect size of 20.1 m; 95% CI, 5.6 to 34.7; P = 0.007). 220 225 Cardiogenic shock (CS) is the most severe presentation of acute HF, with in-hospital mortality rates up to 60%. HFA of ESC has recently published a position statement focusing on pathophysiology and management of CS. 226 Acute coronary syndrome is a major cause of acute HF and CS. 227 In a French registry enrolling 10 000 patients with acute myocardial infraction, the prevalence of CS decreased between 2005 and 2015 from 5.9% to 2.8%. 228 However, population-based annual incidence of acute MI complicated by CS increased from 65.3 per million person-years in 2013 to 80.0 per million person-years in 2017 in a Danish study (P-value for trend < 0.001). 229 Biomarkers are widely used for the management of acute HF. Mid-regional pro-adrenomedullin (MR-proADM) and bio-adrenomedullin (bio-ADM) have been proposed as alternative markers of congestion in acute HF. [230] [231] [232] In a study including 1107 breathless patients, MR-proADM exhibited higher accuracy for the diagnosis of acute HF, compared with NT-proBNP, in patients with concomitant AF (73% vs. 62%, respectively). 233 Because congestion represents the first cause of hospitalization for decompensated HF, 234 diuretics are the mainstay of acute HF treatment. 222 Figure 6 illustrates the flowchart for the management of diuretic therapy in patients with acute HF. 1 Urine sodium is an early predictor of effective decongestion after diuretic initiation. 136, [235] [236] [237] Damman et al. demonstrated a strong association between urinary sodium (uNa) excretion, measured 6 h after loop diuretic initiation, and urine volume at 24 h (standardized beta = 0.702, P < 0.001). Lower 6 h uNa excretion was a strong predictor of all-cause mortality (HR, 3.81; 95% CI, 1.92 to 7.57; P < 0.001 for the lowest vs. the highest tertile). 236 The role of empagliflozin in acute HF has been studied in EMPA-RESPONSE-AHF (Effects of Empagliflozin on Clinical Outcomes in Patients with Acute Decompensated Heart Failure). 238 Treatment with empagliflozin reduced the risk of death or worsening/hospitalization for HF at 60 days, but the trial was not powered to study these strong endpoints. Ongoing studies will clarify the clinical benefit and safety of SGLT2 inhibitors in the acute setting. 136 In the last year, COVID-19 pandemic had a catastrophic impact on health systems worldwide. Because of the fear of acquiring infection and the congestion of the health services, hospitalizations for acute CV syndromes (including acute HF) collapsed and patients who finally sought medical attention presented sicker, had more complications, and had worse outcomes. 53, [239] [240] [241] [242] [243] In the ambulatory setting, outpatients' visits have been postponed due to safety reasons, and this has led to the urge of remote monitoring services. 53, 244 Beyond epidemiology, a close and intriguing relationship has been described between COVID-19 and HF. First, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the virus responsible for COVID-19, binds angiotensin-converting enzyme 2 (ACE2) to infect human cells. ACE2 is part of the renin-angiotensin system (RAS). It is an enzyme responsible for the cleavage of angiotensin II into angiotensin 1-7, which has vasodilating and anti-inflammatory effects. SARS-CoV-2 down-regulates ACE2 expression, reducing angiotensin 1-7 levels and increasing angiotensin II stimulation, which contributes to the hyper-inflammatory reaction of COVID-19 and potentially leads to HF. 245 Initial concerns that ACEi/ARB use might increase the risk of infection or adverse outcomes due to increased myocardial ACE2 mRNA expression were not confirmed in several studies. 53, 246 Secondly, patients with pre-existent CV disease, namely, HF, have a higher risk of complications and death. A history of HF was an independent predictor of increased in-hospital mortality. 239, 240, 243, 247, 248 A summary of current knowledge and a practical guidance for the management of patients with CV disease and COVID-19 has been recently published. 244, 249 Thirdly, COVID-19 often caused CV damage. The large spectrum of CV manifestations included subclinical myocardial injury, 250 defined as an increase in troponin levels, acute myocarditis, and unusual thromboembolic events. 53,251,252 Myocardial injury was associated with worse outcome. 53, 245, 253 Echocardiographic abnormalities were also frequent. Although LV systolic function was not usually impaired, many patients presented right ventricular dysfunction and diastolic impairment, suggesting a possible association between COVID-19 and HFpEF. 254, 255 COVID-19 patients may also develop acute HF, either as a de novo manifestation or as an acute decompensation of a pre-existing chronic HF, and often developed weight loss. 53,256 Long-term consequences of COVID-19, including development of subclinical diastolic dysfunction or overt HFpEF, are yet to be discovered. 257, 258 The last 2 years have shown major changes in our current treatment of the patients with HF. A completely new class of drugs, acting through mechanisms at least mostly independent from neurohormonal modulation, has been shown to significantly improve outcomes of the patients not only with HFrEF but also with a preserved LVEF. Based on the results of EMPEROR-Preserved, 129,218 just HF symptoms and increased plasma levels of natriuretic peptides will be necessary for an indication to treatment with empagliflozin and, likely, in the next future, other SGLT2 inhibitors. New drugs, such as vericiguat and OM, acting also in their case, not through neurohormonal mechanisms, have been also shown to have beneficial effects. Treatment of CV and non-CV comorbidities, namely, iron deficiency, diabetes, AF, and valvular heart disease, gives further option. Future research will also hopefully show benefits also in other aspects of the HF syndrome such as, namely, QOL and frailty, still deserving better assessment and further improvement. 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