Bedside Ultrasound Assessment of Jugular Venous Compliance as a Potential Point-of-Care Method to Predict Acute Decompensated Heart Failure 30-Day Readmission

The Cardiac Pulsed Wave Doppler Pattern of the Common Femoral Vein in Diagnosing the Likelihood of Severe Pulmonary Hypertension: Results from a Prospective Multicentric Study

Background and Objectives: Pulmonary hypertension (PH) is a clinical condition with high mortality rates, particularly in patients over 65. Current guidelines recommend assessing the likelihood of pulmonary hypertension (LPH) using advanced echocardiography before proceeding to right heart catheterization. This study proposed using the common femoral vein (CFV), an accessible vein that reflects right atrial pressure, as an alternative method to assess the high likelihood of pulmonary hypertension (H-LPH). Materials and Methods: This prospective observational study included 175 emergency patients from three hospitals. Ultrasound assessed the pulsed wave Doppler (PW-Doppler) morphology of the CFV. This diagnostic yield for H-LPH was evaluated alongside traditional ultrasound parameters (right-to-left ventricular basal diameter ratio greater than 1 (RV > LV), septal flattening, right ventricular outflow acceleration time (RVOT) of less than 105 ms and/or mesosystolic notching, pulmonary artery diameter greater than the aortic root (AR) diameter or over 25 mm, early pulmonary regurgitation maximum velocity > 2.2 m/s; TAPSE/PASP less than 0.55, inferior vena cava (IVC) diameter over 21 mm with decreased inspiratory collapse, and right atrial (RA) area over 18 cm2). Results: The CFV's PW-Doppler cardiac pattern correlated strongly with H-LPH, showing a sensitivity (Sn) of 72% and a specificity (Sp) of 96%. RA dilation and TAPSE/PASP < 0.55 also played significant diagnostic roles. Conclusions: The CFV's PW-Doppler cardiac pattern is an effective indicator of H-LPH, allowing reliable exclusion of this condition when absent. This approach could simplify initial LPH evaluation in emergency settings or where echocardiographic resources are limited.

Estimation of Right Atrial Pressure by Ultrasound-Assessed Jugular Vein Distensibility in Patients With Heart Failure

BACKGROUND

Clinical evaluation of central venous pressure is difficult, depends on experience, and is often inaccurate in patients with chronic advanced heart failure. We assessed the ultrasound-assessed internal jugular vein (JV) distensibility by ultrasound as a noninvasive tool to identify patients with normal right atrial pressure (RAP ≤7 mm Hg) in this population.

METHODS

We measured JV distensibility as the Valsalva-to-rest ratio of the vein diameter in a calibration cohort (N=100) and a validation cohort (N=101) of consecutive patients with chronic heart failure with reduced ejection fraction who underwent pulmonary artery catheterization for advanced heart failure therapies workup.

RESULTS

A JV distensibility threshold of 1.6 was identified as the most accurate to discriminate between patients with RAP ≤7 versus >7 mm Hg (area under the receiver operating characteristic curve, 0.74 [95% CI, 0.64-0.84]) and confirmed in the validation cohort (receiver operating characteristic, 0.82 [95% CI, 0.73-0.92]). A JV distensibility ratio >1.6 had predictive positive values of 0.86 and 0.94, respectively, to identify patients with RAP ≤7 mm Hg in the calibration and validation cohorts. Compared with patients from the calibration cohort with a high JV distensibility ratio (>1.6; n=42; median RAP, 4 mm Hg; pulmonary capillary wedge pressure, 11 mm Hg), those with a low JV distensibility ratio (≤1.6; n=58; median RAP, 8 mm Hg; pulmonary capillary wedge pressure, 22 mm Hg; P<0.0001 for both) were more likely to die or undergo a left ventricular assist device implant or heart transplantation (event rate at 2 years: 42.7% versus 18.2%; log-rank P=0.034).

CONCLUSIONS

Ultrasound-assessed JV distensibility identifies patients with chronic advanced heart failure with normal RAP and better outcomes.

REGISTRATION

URL: https://www.clinicaltrials.gov; Unique identifier: NCT03874312.

Evaluation of Right-Side Filling Pressure in Patients With Obesity With Heart Failure Using Handheld Ultrasound Score

The goal of this investigation is to evaluate the accuracy of handheld ultrasound score in assessing right atrial (RA) pressure in patients with obesity with heart failure. We prospectively studied 123 patients with heart failure referred for right-sided cardiac catheterization. Handheld ultrasound was performed before catheterization to evaluate volume status by estimating RA pressure using end-expiratory inferior vena cava (IVC) dimension, IVC respiratory collapsibility, and right internal jugular (RIJ) vein respiratory collapsibility. A 3-point simple score was created using multiple logistic regression. The patients were divided into 2 groups based on body mass index. The performance of this score was assessed using the receiver operating characteristics curve in each subgroup and was compared with the performance of the 2-point score (expiratory IVC dimension, IVC respiratory collapsibility). Median age was 58 years (interquartile range 48 to 65), and 37% were women. The 3-point score including RIJ performed better than did the 2-point score in patients with obesity (area under the curve 0.84 [0.74 to 0.95] vs 0.69 [0.58 to 0.81], p = 0.001). The performance of the scores did not differ in patients without obesity (area under the curve 0.85 [0.74 to 0.95] vs 0.82 [0.71 to 0.93], p = 0.49). In patients with obesity, the 3-point score had a specificity of 100% and sensitivity of 21% (11% to 31%) for elevated RA pressure ≥10 mm Hg. In conclusion, a 3-point score including both RIJ and IVC assessment performed better in patients with obesity with heart failure and highlights the importance of comprehensive evaluation in patients with obesity to achieve an accurate, noninvasive assessment of volume status.

Defining Heart Failure Based on Imaging the Heart and Beyond

Water and salt retention, in other words congestion, are fundamental to the pathophysiology of heart failure and are important therapeutic targets. Echocardiography is the key tool with which to assess cardiac structure and function in the initial diagnostic workup of patients with suspected heart failure and is essential for guiding treatment and stratifying risk. Ultrasound can also be used to identify and quantify congestion in the great veins, kidneys and lungs. More advanced imaging methods might further clarify the aetiology of heart failure and its consequences for the heart and periphery, thereby improving the efficiency and quality of care tailored with greater precision to individual patient need.

Assessing jugular venous compliance with optical hemodynamic imaging by modulating intrathoracic pressure

SIGNIFICANCE

The internal jugular veins (IJV) are critical cerebral venous drainage pathways that are affected by right heart function. Cardiovascular disease and microgravity can alter central venous pressure (CVP) and venous return, which may contribute to increased intracranial pressure and decreased cardiac output. Assessing jugular venous compliance may provide insight into cerebral drainage and right heart function, but monitoring changes in vessel volume is challenging.

AIM

We investigated the feasibility of quantifying jugular venous compliance from jugular venous attenuation (JVA), a noncontact optical measurement of blood volume, along with CVP from antecubital vein cannulation.

APPROACH

CVP was progressively increased through a guided graded Valsalva maneuver, increasing mouth pressure by 2 mmHg every 2 s until a maximum expiratory pressure of 20 mmHg. JVA was extracted from a 1-cm segment between the clavicle and midneck. The contralateral IJV cross-sectional area (CSA) was measured with ultrasound to validate changes in the vessel size. Compliance was calculated using both JVA and CSA between four-beat averages over the duration of the maneuver.

RESULTS

JVA and CSA were strongly correlated (median and interquartile range) over the Valsalva maneuver across participants (r = 0.986, [0.983, 0.987]). CVP more than doubled on average between baseline and peak strain (10.7 ± 4.4 vs. 25.8 ± 5.4 cmH2O; p < 0.01). JVA and CSA increased nonlinearly with CVP, and both JVA- and CSA-derived compliance decreased progressively from baseline to peak strain (49% and 56% median reduction, respectively), with no significant difference in compliance reduction between the two measures (Z = - 1.24, p = 0.21). Pressure-volume curves showed a logarithmic relationship in both CSA and JVA.

CONCLUSIONS

Optical jugular vein assessment may provide new ways to assess jugular distention and cardiac function.

Bedside ultrasound to assess acute central venous pressure change during treatment of decompensated heart failure

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Volume status assessment by physical exam in heart failure patients is often inaccurate.

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Right heart catheterization (RHC) carries safety, pragmatic and financial burdens.

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A non-invasive, safe, and reliable alternative for accurate assessment of volume status is needed for optimal management of heart failure.

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Serial portable ultrasonic assessment of internal jugular vein compliance can act as a surrogate for RHC to determine volume status.

Background

Accurate volume status assessment is crucial for the treatment of acute decompensated heart failure (ADHF). Volume status assessment by physical exam is often inaccurate, necessitating invasive measurement with right heart catheterization (RHC), which carries safety, pragmatic (scheduling, holding anticoagulants, etc.), and financial burdens. Therefore, a reliable, non-invasive, cost-effective alternative is desired. Previously, we developed an ultrasound (US) based technique to measure internal jugular vein (IJV) compliance during RHC which was used for single time point central venous pressure (CVP) predictions. We now aim to apply this technique to track acute changes in CVP during diuresis for ADHF in patients with an in-dwelling pulmonary artery catheter (PAC).

Methods

We used an observational, prospective study design and recruited 15 patients from the cardiac critical unit (CCU) being treated for ADHF (systolic or diastolic) with intravenous (IV) diuretics with/without inotropic agents who underwent Swan- Ganz catheter/PAC insertion for continuous CVP monitoring. 13 of 15 patients received milrinone infusions. US images of the IJV were obtained at end-expiration and during the strain phase of Valsalva at multiple 2–3 hours intervals. Change in IJV cross-sectional area (CSA) (ImageJ) was used as a measure of IJV compliance. Patients unable to perform the Valsalva maneuver were excluded.

Results

Calculated percentage change (%Δ) in CSA of IJV was plotted against CVP. An inverse relationship was observed between CVP and %Δ in CSA of IJV. The data was fit with a polynomial regression curve (R² = 0.36, root mean square error = 3.19). Fivefold cross-validation showed a stable model for predicting CVP based on CSA (R² = 0.31, root mean square error = 3.18)

Conclusion

Serial portable US assessment of IJV compliance can act as a surrogate measure of CVP and, therefore, can provide reliable information on acute hemodynamic changes in ADHF.

Internal jugular vein ultrasound for the diagnosis of hypovolemia and hypervolemia in acutely ill adults: a systematic review and meta-analysis

Accurate volume status assessments allow physicians to rapidly implement therapeutic measures in acutely unwell patients. However, existing bedside diagnostic tools are often unreliable for assessing intravascular volume. We searched PUBMED, EMBASE, CENTRAL, and Web of Science for English language articles without date restrictions on January 20, 2022. Studies reporting the diagnostic accuracy of IJV-US for hypovolemia and/or hypervolemia in an acute care setting were screened for inclusion. We included studies using any method of IJV-US assessment as the index test, compared against any reference standard. We fitted hierarchical summary receiver operating characteristic (HSROC) models for meta-analysis of diagnostic test accuracy, separately for hypovolemia and hypervolemia. Two reviewers independently extracted data and assessed risk of bias using QUADAS-2. We assessed certainty of evidence using the GRADE approach. A total of 26 studies were included, of which 19 studies (956 patients) examined IJV-US for hypovolemia and 13 studies (672 patients) examined IJV-US for hypervolemia. For the diagnosis of hypovolemia, IJV-US had a pooled sensitivity of 0.82 (95% CI 0.76 to 0.87; moderate-certainty evidence) and specificity of 0.82 (95% CI 0.73 to 0.88; moderate-certainty evidence). Measurement of IJV collapsibility indices had higher diagnostic accuracy (sensitivity 0.85, 95% CI 0.80 to 0.89; specificity 0.78, 95% CI 0.64 to 0.88) than static IJV indices (sensitivity 0.73, 95% CI 0.60 to 0.82; specificity 0.70, 95% CI 0.48 to 0.86). For the diagnosis of hypervolemia, IJV-US had a pooled sensitivity of 0.84 (95% CI 0.70 to 0.92; moderate-certainty evidence) and specificity of 0.70 (95% CI 0.55 to 0.82; very low-certainty evidence). IJV-US has moderate sensitivity and specificity for the diagnosis of hypervolemia and hypovolemia. Randomized controlled trials are needed to determine the role of IJV-US for guiding therapeutic interventions aimed at optimizing volume status.

Temporal Changes in Electrolytes, Acid-Base, QTc Duration, and Point-of-Care Ultrasound during Inpatient Hemodialysis Sessions

Background

Of the more than 550,000 patients receiving maintenance hemodialysis (HD) in the United States, each has an average of 1.6 admissions annually (>880,000 inpatient HD sessions). Little is known about the temporal changes in laboratory values, ECGs, and intravascular and extravascular volume during inpatient HD sessions.

Methods

In this prospective cohort study of hospitalized HD patients, we assessed intradialytic laboratory values (metabolic panels, blood gases, ionized calcium levels), ECGs, and sonographic measures of volume status.

Results

Among 30 participants undergoing HD (mean age 62 years; 53% men, 43% Black) laboratory values had the largest changes in the first hour of HD. There was no significant change in ionized calcium levels pre- to post-HD (change: -0.01±0.07, P=0.24); 12 of 30 and 17 of 30 patients had levels below the lower reference limit at the beginning and end of HD, respectively. The mean pH increased pre- to post-HD (change: 0.06±0.04, P<0.001); 21 of 30 had a pH above the upper reference limit post-HD. There was a trend toward longer median QTc duration from pre- to post-HD (change: 7.5 msec [-5 msec, 19 msec], P=0.07). The sum of B lines on lung ultrasound decreased from pre- to post-HD (median decrease: 3 [1, 7], P<0.01). The collapsibility index of the inferior vena cava increased pre- to post-HD (median increase: 4.8% [1.5%, 13.4%], P=0.01), whereas internal jugular vein diameter did not change (P=0.24).

Conclusions

Among hospitalized patients undergoing HD, we found dynamic changes in laboratory values, QTc duration, and volume status. Further research is required to assess whether HD prescriptions can be tailored to alter these variations to potentially improve patient outcomes.

Accurate Estimation of Right-Filling Pressure Using Handheld Ultrasound Score in Patients with Heart Failure

INTRODUCTION

This study aims to evaluate the accuracy of bedside assessment of inferior vena cava (IVC) and right internal jugular (RIJ) vein in predicting right atrial (RA) pressure in heart failure patients.

METHODS

We prospectively studied 124 heart failure patients who were referred to our catheterization laboratory for right heart catheterizations to assess hemodynamics and to guide heart failure management. Just prior to the procedure, a handheld ultrasound examination was performed in each patient. The volume status was assessed by estimating RA pressure using end-expiratory IVC dimension, IVC respiratory collapsibility, and RIJ respiratory collapsibility. Patients were divided into 2 groups based on invasive RA pressure value. Multiple logistic regression models were used to identify factors associated with RA ≥10 mm Hg; a 3-point simple score was then created. The performance of this score was assessed using the receiver operating characteristics curve.

RESULTS

In this study 124 heart failure patients were included; median age was 59 years (interquartile range 48-65), and 40% were female. RIJ respiratory collapsibility <50%, end-expiratory IVC dimension ≥21 mm, and respiratory collapsibility <50% were significantly associated with elevated RA pressure, and were used to build the score. The area under the receiver operating characteristics curve (AUC) for the 3-point score was 0.84 (0.77-0.92), and it performed better than 2-point score using IVC characteristics alone (AUC 0.84 [0.77-0.92] vs 0.75 [0.67-0.83]; P = .003). Of 124 patients, 90 patients (72.5%) had concordant RA pressure and pulmonary capillary wedge pressure.

CONCLUSION

Concomitant ultrasound assessment of RIJ and IVC correlated better with RA pressure than IVC alone. A simple 3-point score can provide a useful and easily accessible tool to estimate volume status, and further guide management of heart failure patients.

Non-Invasive Assessment of Congestion by Cardiovascular and Pulmonary Ultrasound and Biomarkers in Heart Failure

Worsening chronic heart failure (HF) is responsible for recurrent hospitalization and increased mortality risk after discharge, irrespective to the ejection fraction. Symptoms and signs of pulmonary and systemic congestion are the most common cause for hospitalization of acute decompensated HF, as a consequence of increased cardiac filling pressures. The elevated cardiac filling pressures, also called hemodynamic congestion, may precede the occurrence of clinical congestion by days or weeks. Since HF patients often have comorbidities, dyspnoea, the main symptom of HF, may be also caused by respiratory or other illnesses. Recent studies underline the importance of the diagnosis and treatment of hemodynamic congestion before HF symptoms worsen, reducing hospitalization and improving prognosis. In this paper we review the role of integrated evaluation of biomarkers and imaging technics, i.e., echocardiography and pulmonary ultrasound, for the diagnosis, prognosis and treatment of congestion in HF patients.

Accuracy of Ultrasound Jugular Venous Pressure Height in Predicting Central Venous Congestion

BACKGROUND

Assessment of volume status through the estimation of central venous pressure (CVP) is integral in the care of heart failure (HF). Bedside assessment is limited by obesity, variation in physical examination skills, and expertise in ultrasonography.

OBJECTIVE

To validate the accuracy of quantitative and qualitative point-of-care ultrasonography assessment of jugular venous pressure (JVP) in predicting elevated CVP.

DESIGN

Prospective observational study using convenience sampling.

SETTING

2 U.S. academic hospitals.

PATIENTS

Adult patients undergoing right heart catheterization between 5 February 2019 and 1 March 2021.

MEASUREMENTS

Estimation of the JVP height by handheld ultrasound device (uJVP), JVP by traditional physical examination, and qualitative presence of a distended uJVP in the upright position (upright-uJVP) was done before invasive measurements. Receiver-operating characteristic analysis of the uJVP was compared with invasive hemodynamics.

RESULTS

In 100 participants undergoing right heart catheterization for HF indications (mean age, 59.6 years; 44% with preserved ejection fraction), the uJVP in a reclined position accurately predicted elevated right atrial pressure (RAP) (>10 mm Hg), with an area under the curve of 0.84. A positive uJVP in the upright position was 94.6% specific for predicting elevated RAP.

LIMITATION

Limited examiners, only 2 centers, and convenience sampling.

CONCLUSION

Point-of-care ultrasonography assessment of the uJVP is feasible, reproducible, and accurately predictive of elevated CVPs in patients undergoing right heart catheterization. Further investigation of clinical application of ultrasound-measured JVP seems warranted.

PRIMARY FUNDING SOURCE

None.

[Focus ultrasound for cardiology practice. Russian consensus document]

This document is a consensus document of Russian Specialists in Heart Failure, Russian Society of Cardiology, Russian Association of Specialists in Ultrasound Diagnostics in Medicine and Russian Society for the Prevention of Noncommunicable Diseases. In the document a definition of focus ultrasound is stated and discussed when it can be used in cardiology practice in Russian Federation.

Inpatient Diuretic Management of Acute Heart Failure: A Practical Review

The inpatient treatment of acute heart failure (AHF) is aimed at achieving euvolemia, relieving symptoms, and reducing rehospitalization. Adequate treatment of AHF is rooted in understanding the pharmacokinetics and pharmacodynamics of select diuretic agents used to achieve decongestion. While loop diuretics remain the primary treatment of AHF, the dosing strategies of loop diuretics and the use of adjunct diuretic classes to augment clinical response can be complex. This review examines the latest strategies for diuretic management in patients with AHF, including dosing and monitoring strategies, interaction of diuretics with other medication classes, use adjunctive therapies, and assessing endpoints for diuretic. The goal of the review is to guide the reader through commonly encountered clinical scenarios and pitfalls in the diuretic management of patients with AHF.

Role of Internal Jugular Venous Ultrasound in suspected or confirmed Heart Failure: A Systematic Review

BACKGROUND

Few data are available on the use of internal jugular vein (IJV) ultrasound parameters to assess central venous pressure and clinical outcomes among patients with suspected or confirmed heart failure (HF).

METHODS

We performed electronic searches on PubMed, The Cochrane Library, EMBASE, EBSCO, Web of Science, and CINAHL databases from the inception through January 9, 2021, to identify studies evaluating the accuracy and reliability of the IJV ultrasound parameters and exploring its correlation with central venous pressure and clinical outcomes in adult patients with suspected or confirmed acutely decompensated HF. The studies' report quality was assessed by Quality Assessment of Diagnostic Accuracy Studies-2 scale.

RESULTS

A total of 11 studies were eligible for final analysis (n = 1481 patients with HF). The studies were segregated into 3 groups: (1) the evaluation of patients presenting to the emergency department with dyspnea, (2) the evaluation of patients presenting to the HF clinic for follow-up, and (3) the evaluation of hospitalized patients with acutely decompensated HF or undergoing right heart catheterization. US parameters included IJV height, IJV diameter, IJV diameter ratio, IJV cross-sectional area, respiratory compressibility index, and compression compressibility index.

CONCLUSIONS

The findings of this systematic review suggest a significant role for ultrasound interrogation of the IJV in evaluation of patients in the emergency department presenting with dyspnea, in the outpatient clinic for poor clinical outcomes in HF, and in determining the timing of discharge for patients admitted with acutely decompensated HF. Further studies are warranted for testing the reliability of the reported ultrasound indices.

Optical Hemodynamic Imaging of Jugular Venous Dynamics During Altered Central Venous Pressure

OBJECTIVE

An optical imaging system is proposed for quantitatively assessing jugular venous response to altered central venous pressure.

METHODS

The proposed system assesses sub-surface optical absorption changes from jugular venous waveforms with a spatial calibration procedure to normalize incident tissue illumination. Widefield frames of the right lateral neck were captured and calibrated using a novel flexible surface calibration method. A hemodynamic optical model was derived to quantify jugular venous optical attenuation (JVA) signals, and generate a spatial jugular venous pulsatility map. JVA was assessed in three cardiovascular protocols that altered central venous pressure: acute central hypovolemia (lower body negative pressure), venous congestion (head-down tilt), and impaired cardiac filling (Valsalva maneuver).

RESULTS

JVA waveforms exhibited biphasic wave properties consistent with jugular venous pulse dynamics when time-aligned with an electrocardiogram. JVA correlated strongly (median, interquartile range) with invasive central venous pressure during graded central hypovolemia (r = 0.85, [0.72, 0.95]), graded venous congestion (r = 0.94, [0.84, 0.99]), and impaired cardiac filling (r = 0.94, [0.85, 0.99]). Reduced JVA during graded acute hypovolemia was strongly correlated with reductions in stroke volume (SV) (r = 0.85, [0.76, 0.92]) from baseline (SV: 79 ± 15 mL, JVA: 0.56 ± 0.10 a.u.) to -40 mmHg suction (SV: 59 ± 18 mL, JVA: 0.47 ± 0.05 a.u.; p 0.01).

CONCLUSION

The proposed non-contact optical imaging system demonstrated jugular venous dynamics consistent with invasive central venous monitoring during three protocols that altered central venous pressure.

SIGNIFICANCE

This system provides non-invasive monitoring of pressure-induced jugular venous dynamics in clinically relevant conditions where catheterization is traditionally required, enabling monitoring in non-surgical environments.

Ultrasound imaging of congestion in heart failure: examinations beyond the heart

Congestion, related to pressure and/or fluid overload, plays a central role in the pathophysiology, presentation and prognosis of heart failure and is an important therapeutic target. While symptoms and physical signs of fluid overload are required to make a clinical diagnosis of heart failure, they lack both sensitivity and specificity, which might lead to diagnostic delay and uncertainty. Over the last decades, new ultrasound methods for the detection of elevated intracardiac pressures and/or fluid overload have been developed that are more sensitive and specific, thereby enabling earlier and more accurate diagnosis and facilitating treatment strategies. Accordingly, we considered that a state-of-the-art review of ultrasound methods for the detection and quantification of congestion was timely, including imaging of the heart, lungs (B-lines), kidneys (intrarenal venous flow), and venous system (inferior vena cava and internal jugular vein diameter).

Acute heart failure

Acute heart failure (AHF) is a syndrome defined as the new onset (de novo heart failure (HF)) or worsening (acutely decompensated heart failure (ADHF)) of symptoms and signs of HF, mostly related to systemic congestion. In the presence of an underlying structural or functional cardiac dysfunction (whether chronic in ADHF or undiagnosed in de novo HF), one or more precipitating factors can induce AHF, although sometimes de novo HF can result directly from the onset of a new cardiac dysfunction, most frequently an acute coronary syndrome. Despite leading to similar clinical presentations, the underlying cardiac disease and precipitating factors may vary greatly and, therefore, the pathophysiology of AHF is highly heterogeneous. Left ventricular diastolic or systolic dysfunction results in increased preload and afterload, which in turn lead to pulmonary congestion. Fluid retention and redistribution result in systemic congestion, eventually causing organ dysfunction due to hypoperfusion. Current treatment of AHF is mostly symptomatic, centred on decongestive drugs, at best tailored according to the initial haemodynamic status with little regard to the underlying pathophysiological particularities. As a consequence, AHF is still associated with high mortality and hospital readmission rates. There is an unmet need for increased individualization of in-hospital management, including treatments targeting the causative factors, and continuation of treatment after hospital discharge to improve long-term outcomes.

Acute heart failure

Acute heart failure (AHF) is one of the most common causes for hospital admission and is associated with a high risk of mortality. Compared to chronic heart failure, there is less robust evidence to guide diagnosis, risk stratification and management of AHF. This state-of-the art review aims to summarize new developments in this field. We also highlight areas of ongoing work including novel vasoactive agents, alternative models to traditional hospital admission and strategies to improve patient engagement.