Outcome In Aortic Stenosis Research Articles

Multiorgan Dysfunction and its Association With Congestion and Outcome in Aortic Stenosis Treated WithTAVI.

Degenerative severe aortic stenosis (AS) is treated by valve replacement to improve outcome. Despite diagnostic advancements, many AS patients are still diagnosed late with advanced heart failure. The aim of the study was to assess multiorgan dysfunction in severe AS using blood biomarkers and their association with quantitative fluid levels and clinical outcomes after transcatheter aortic valve implantation (TAVI). Consecutive AS patients undergoing TAVI received comprehensive preinterventional assessment with serum biomarker profiles reflecting organ dysfunction and quantitative fluid overload (FO) using bioelectrical impedance spectroscopy. FO by bioelectrical impedance spectroscopy was defined according to a previously established cut-off (≥1.0 L). Time to first heart failure hospitalization or death served as composite primary endpoint. Among 880 patients (age 81 ± 7years, 47% female), 41% had FO and 89% had biomarker abnormalities of at least one domain. Ascending fluid levels were independently associated with distorted biomarkers across domains of myocyte stress, hepatic dysfunction, renal dysfunction, inflammation, and anemia. After 2.4±1.0years of follow-up, 27% had reached the primary endpoint (29 heart failure hospitalization, 194 deaths, 13 both). Biomarkers across all domains were individually and independently associated with outcomes. In a multidomain approach, every affected extra-cardiac domain was associated with a 71% increase in event hazard (adjusted HR: 1.71; 95%CI: 1.39-2.11). Also, for each domain, the combination of distorted biomarkers and FO had the highest event risk. Biomarker abnormalities are highly prevalent in severe AS, influenced by congestion, and associated with impaired prognosis post-TAVI. Multiorgan dysfunction faces a particularly dismal outcome.

Preprocedural computed tomography angiography for prediction of transcatheter aortic valve implantation outcomes. A machine learning study

Abstract Background Prediction of outcomes following transcatheter aortic valve implantation (TAVI) is challenging. While over the past decades multiple scores for risk stratification in TAVI patients have been proposed due to their limited accuracy none of them have been adopted clinically. Recently machine learning was leveraged for this purpose yet again, while new approaches showed promise in prediction of outcomes following TAVI this was only the case for models which included peri-procedural data. Purpose Considering that in aortic stenosis outcomes are governed by both valve degeneration and myocardial adverse remodelling which ensues, we aimed to employ the pre-procedural computed tomography (CT) to develop a machine-learning model for prediction of 1-year outcomes following TAVI. The model was developed on data of consecutive patients who underwent TAVI at a high-volume center between January 2016 and January 2022. Machine learning by extreme gradient boosting was trained and tested with repeated 10-fold hold-out testing using CT-derived volumetric measurements including myocardial mass and quantitative fibrocalcific valve volume and attenuation measured using standardized software. We compared our CT model based on 21 imaging variables, age and gender with the EuroSCORE II for prediction of 12-month all-cause mortality. External validation was performed on unseen data of consecutive patients who underwent TAVI in 2019-2020 at an independent high volume TAVI center. Results The derivation cohort included 631 consecutive patients (48% men, 80±8 years old, EuroSCORE II 6.5 [4.6-10.3] %). Our model was externally tested on data of 226 patients (46% men, 78±8 years old, EuroSCORE II 7.4 [4.9-10.8] %). Over the 12 months of follow-up 86 (13%) and 29 (13%) subjects died in the derivation and validation cohort respectively. In external validation the CT-based machine learning model had an area under the receiver operator curve (AUC) of 0.70 [0.63-0.76] which was superior to the EuroSCORE 0.59 [0.53-0.66] and age 0.58 [0.52-0.65], p<0.001 for a difference. The feature importance for the machine learning model are presented in Figure 1; the highest-ranked features included LV ejection fraction and mass, the noncalcific valve volume and the mean aortic valve calcification attenuation. Conclusions Machine-learning facilitates leveraging preprocedural CT angiography for prediction of TAVI outcomes. By combining CT derived cardiac assessment machine-learning provides superior prediction to EuroSCORE II.

Abstract 13550: Prognostic Value of the Global Left Ventricular Contractility Index in Patients With Severe Mitral Regurgitation and Preserved Left Ventricular Ejection Fraction

Introduction: Global left ventricular (LV) contractility index, dσ*/dt max , defined as the maximal rate of change of pressure-normalized LV wall stress, is given by the formula 3(dV/dt) max /2V m where dV/dt max is the product of left ventricular outflow tract (LVOT) velocity and area; and V m , left ventricular mass index (LVMI). In published reports, prediction of clinical outcomes in aortic stenosis were observed. It is unknown if dσ*/dt max would predict clinical outcomes in patients with severe mitral regurgitation (MR). Aim: We studied the association of dσ*/dt max with clinical outcomes in severe MR with preserved LV ejection fraction (EF). Methods: Consecutive patients with severe MR and LVEF ≥50% diagnosed on index echocardiogram at a single centre were retrospectively analyzed. Patients with other valvular lesions of moderate severity or more, or valvular interventions, were excluded. Clinical outcomes were ascertained by review of medical records. The primary outcome was a composite of heart failure hospitalizations and all-cause mortality. Results: 176 patients were included in the analysis. Table 1 depicts the characteristics of the study population. Patients with composite outcomes were older, more likely to be female, had higher LVMI, lower regurgitation volume and dσ*/dt max (2.2 +/- 0.7 vs 2.7 +/- 0.9, p = 0.02). On multivariable Cox regression (Table 2), only age and dσ*/dt max (adjusted HR 0.42, 95% CI: 0.220 - 0.806, p = 0.01) remained independently associated with occurrence of the primary outcome. Conclusions: In patients with isolated severe mitral regurgitation and preserved LVEF, low dσ*/dt max was an independent predictor of adverse clinical outcomes.

Diagnostic accuracy of virtual non-contrast CT for aortic valve stenosis severity evaluation

BackgroundComputed tomography aortic valve calcium (AVC) score has accepted value for diagnosing and predicting outcomes in aortic stenosis (AS). Multi-energy CT (MECT) allows virtual non-contrast (VNC) reconstructions from contrast scans. We aim to compare the VNC-AVC score to the true non-contrast (TNC)-AVC score for assessing AS severity. MethodsWe prospectively included patients undergoing a MECT for transcatheter aortic valve replacement (TAVR) planning. TNC-AVC was acquired before contrast, and VNC-AVC was derived from a retrospectively gated contrast-enhanced scan. The Agatston scoring method was used for quantification, and linear regression analysis to derive adjusted-VNC values. ResultsAmong 109 patients (55% female) included, 43% had concordant severe and 14% concordant moderate AS. TNC scan median dose-length product was 116 ​mGy∗cm. The median TNC-AVC was 2,107 AU (1,093–3,372), while VNC-AVC was 1,835 AU (1293-2,972) after applying the coefficient (1.46) and constant (743) terms. A strong correlation was demonstrated between methods (r ​= ​0.93; p ​< ​0.001). Using accepted thresholds (>1,300 AU for women and >2,000 AU for men), 65% (n ​= ​71) of patients had severe AS by TNC-AVC and 67% (n ​= ​73) by adjusted-VNC-AVC. After estimating thresholds for adjusted-VNC (>1,564 AU for women and >2,375 AU for men), 56% (n ​= ​61) had severe AS, demonstrating substantial agreement with TNC-AVC (κ ​= ​0.77). ConclusionsMECT-derived VNC-AVC showed a strong correlation with TNC-AVC. After adjustment, VNC-AVC demonstrated substantial agreement with TNC-AVC, potentially eliminating the requirement for an additional scan and enabling reductions in both radiation exposure and acquisition time.

Racial and ethnic disparities in diagnosis, management and outcomes of aortic stenosis in the Medicare population.

Aortic stenosis (AS) is one of the most common heart valve conditions and its incidence and prevalence increases with age. With the introduction of transcatheter aortic valve replacement (TAVR), racial and ethnic disparities in AS diagnosis, treatment and outcomes is poorly understood. In this study we assessed racial and ethnic disparities in AS diagnosis, treatment, and outcomes among Medicare beneficiaries. We conducted a population-based cohort study of inpatient, outpatient, and professional claims from a 20% sample of Medicare beneficiaries. Incidence and Prevalence was determined among Medicare Beneficiaries. Outcomes in this study included management; the number of (non)-interventional cardiology and cardiothoracic surgery evaluation and management (E&M) visits, and number of transthoracic echocardiograms (TTE) performed. Treatment, which was defined as Surgical Aortic Valve Replacement and Transthoracic Aortic Valve Replacement. And outcomes described as All-cause Hospitalizations, Heart Failure Hospitalization and 1-year mortality. A total of 1,513,455 Medicare beneficiaries were diagnosed with AS (91.3% White, 4.5% Black, 1.1% Hispanic, 3.1% Asian and North American Native) between 2010 and 2018. Annual prevalence of AS diagnosis was lower for racial and ethnic minorities compared with White patients, with adjusted rate ratios of 0.66 (95% CI 0.65 to 0.68) for Black patients, 0.67 (95% CI 0.64 to 0.70) for Hispanic patients and 0.75 (95% CI 0.73 to 0.77) for Asian and North American Native patients as recent as 2018. After adjusting for age, sex and comorbidities, cardiothoracic surgery E&M visits and treatment rates were significantly lower for Black, Hispanic and Asian and North American Native patients compared with White patients. All-cause hospitalization rate was higher for Black and Hispanic patients compared with White patient. 1-year mortality was higher for Black patients, while Hispanic and Asian and North American Native patients had lower 1-year mortality compared with White patients. We demonstrated significant racial and ethnic disparities in the diagnosis, management and outcomes of AS. The factors driving the persistence of these disparities in AS care need to be elucidated to develop an equitable health care system.

Epidemiology and Outcomes of Aortic Stenosis in Acute Decompensated Heart Failure: The ARIC Study.

Few studies characterize the epidemiology and outcomes of aortic stenosis (AS) in acute decompensated heart failure (ADHF). This study investigates the significance of AS in contemporary patients who have experienced an ADHF hospitalization. The ARIC study (Atherosclerosis Risk in Communities) surveilled ADHF hospitalizations for residents ≥55 years of age in 4 US communities. ADHF cases were stratified by left ventricular ejection fraction (LVEF). Demographic differences in AS burden and the association of varying AS severities with mortality were estimated using multivariable logistic regression. From 2005 through 2014, there were 3597 (weighted n=16 692) ADHF hospitalizations of which 48.6% had an LVEF <50% and 51.4% an LVEF ≥50%. AS prevalence was 12.1% and 18.7% in those with an LVEF <50% and ≥50%, respectively. AS was less likely in Black than White patients regardless of LVEF: LVEF <50% (odds ratio [OR], 0.34 [95% CI, 0.28-0.42]); LVEF ≥50% (OR, 0.51 [95% CI, 0.44-0.59]). Higher AS severity was independently associated with 1-year mortality in both LVEF subgroups: LVEF <50% (OR, 1.16 [95% CI, 1.04-1.28]); LVEF ≥50% (OR, 1.40 [95% CI, 1.28-1.54]). Sensitivity analyses excluding severe AS patients detected that mild/moderate AS was independently associated with 1-year mortality in both LVEF subgroups: LVEF <50% (OR, 1.23 [95% CI, 1.02-1.47]); LVEF ≥50% (OR, 1.31 [95% CI, 1.14-1.51]). Among patients who have experienced an ADHF hospitalization, AS is prevalent and portends poor mortality outcomes. Notably, mild/moderate AS is independently associated with 1-year mortality in this high-risk population.

1083 RISK STRATIFICATION AND PREDICTORS OF OUTCOME IN ASYMPTOMATIC AORTIC STENOSIS: THE ROLE OF MULTIMODALITY IMAGING

Abstract Background Management of asymptomatic severe aortic stenosis is controversial and the decision to intervene requires careful assessment of the benefits and risks in an individual patient. Multimodality imaging approach is becoming an important tool to evaluate the severity and outcome of aortic stenosis (AS). Aim To assess the outcome of asymptomatic AS and the usefulness of aortic calcium score (CS) by computed tomography (CT) for solving the dilemma of low-flow, low-gradients (LFLG) severe AS. Methods 70 (81.4±8.4yrs) prospective asymptomatic patients with AS were followed for 2.77±2.01yrs with a trans-thoracic echo (TTE) every 6 months. End-points were all cause mortality, aortic valve replacement (AVR or TAVR), aortic velocity and gradients progression and symptoms occurrence. Prevalence of LFLG-AS was investigated and these patients underwent CT for CS calculation at the end of follow-up (FU), Figure 1. Results Baseline TTE results from the 70 pts were: peak velocity 3.1±0.8m/sec; peak gradient 44±21mmHg; mean gradient 26±14 mmHg; AVA 1±0.3 cm2; DVI 0.31 ±0.1; Svi 33.8±18 ml/m2; EF: 55±9% with an AS being mild in 32.9%, moderate in 28.4%, severe in 27.1%; 36.8% of severe AS were LFLG. During FU, 23 (32.8%) pts died (5.7% LFLG) and 13(18.5%) underwent AVR/TAVR. Predictors of mortality were aortic gradients (p=0.03), AVA (p=0.008), DVI (p&amp;lt;0.001), pulse pressure (p=0.005) and dilated ascending aorta (p&amp;lt;0001). Predictors of AVR/TAVR were: gradients (p=0.003), peak aortic velocity (p=0.02) and dilated ascendent aorta (p=0.01). The best cut-off to predict survival was AVA =1cm2 (100% sensitivity and 80% specificity). In 34 pts ending FU we found an overall progression of AS severity (peak velocity 3.6±0.9m/sec; peak gradient 50±24mmHg; mean gradient 33±15 mmHg; AVA 0.7±0.3 cm2; DVI 0.25±0.08; Svi 36±10 ml/m2; EF 54±10%; p&amp;lt;0.05 for all vs baseline) with 24 (70.5%) pts with severe AS and 10 (29.5%) with not severe AS. 18 (75%) of progressive severe AS were LFLG, 12 asymptomatic and 6 symptomatic and all underwent CS revealing that AS was not severe in 6 (1233±1123 AU; 622±55AU/m2) and true severe in 12 (3388±1188 AU;1858 ±795 AU/m2; p=0.005 and p=0.002, respectively). Symptomatic severe LFLG AS were all true severe according to CS (Figure 1). Table 1 shows the main CS correlations. Conclusions Asymptomatic AS in elderly people is associated with high mortality risk and rapid progression. AVA remains the best predictor of outcome. In severe LFLG AS, calcium score correlates with symptoms occurrence, progression of valve disease, LV hypertrophy and function and also with RV function.

Multimodality imaging to assess severity and outcome in asymptomatic patients with aortic stenosis: a medium-long term follow-up study

Abstract Background Multimodality imaging approach is becoming more and more common in evaluating the severity and outcome of aortic stenosis (AS). Aim To assess the outcome of asymptomatic AS and the usefulness of aortic calcium score (CS) by computed tomography (CT) for solving the dilemma of low flow, low gradients (LFLG) severe AS. Methods 70 (81.4±8.4 years) prospective asymptomatic patients with AS were followed for 2.77±2.01 years with a trans-thoracic echo (TTE) every 6 months. End-points were all cause mortality, aortic valve replacement (AVR or TAVR), aortic velocity and gradients progression and symptoms occurrence. Prevalence of LFLG-AS was investigated and these patients underwent CT for CS calculation at the end of follow-up (FU), Figure 1. Results Baseline TTE results from the 70 pts were: peak velocity 3.1±0.8m/sec; peak gradient 44±21mmHg; mean gradient 26±14 mmHg; AVA 1±0.3 cm2; DVI 0.31±0.1; Svi 33.8±18 ml/m2; EF: 55±9% with an AS being mild in 32.9%, moderate in 28.4%, severe in 27.1%; 36.8% of severe AS were LFLG. During FU, 23 (32.8%) pts died (5.7% LFLG) and 13 (18.5%) underwent AVR/TAVR. Predictors of mortality were aortic gradients (p=0.03), AVA (p=0.008), DVI (p&amp;lt;0.001), pulse pressure (p=0.005) and dilated ascending aorta (p&amp;lt;0001). Predictors of AVR/TAVR were: gradients (p=0.003), peak aortic velocity (p=0.02) and dilated ascendent aorta (p=0.01). The best cut-off to predict survival was AVA = 1 cm2 (100% sensitivity and 80% specificity). In 34 pts ending FU we found an overall progression of AS severity (peak velocity 3.6±0.9m/sec; peak gradient 50±24 mmHg; mean gradient 33±15 mmHg; AVA 0.7±0.3 cm2; DVI 0.25±0.08; Svi 36±10 ml/m2; EF 54±10%; p&amp;lt;0.05 for all vs baseline) with 24 (70.5%) pts with severe AS and 10 (29.5%) with not severe AS. 18 (75%) of progressive severe AS were LFLG, 12 asymptomatic and 6 symptomatic and all underwent CS revealing that AS was not severe in 6 (1233±1123 AU; 622±55 AU/m2) and true severe in 12 (3388±1188 AU; 1858±795 AU/m2; p=0.005 and p=0.002, respectively). Symptomatic severe LFLG AS were all true severe according to CS (Figure 1). Table 1 shows the main CS correlations. Conclusions Asymptomatic AS in elderly people is associated with high mortality risk and rapid progression. AVA remains the best predictor of outcome. In severe LFLG AS, calcium score correlates with symptoms occurrence, progression of valve disease, LV hypertrophy and function and also with RV function. Funding Acknowledgement Type of funding sources: None.

Arterial Stiffness in Aortic Stenosis and the Impact of Aortic Valve Replacement.

The most common cause for interventional valve treatment is aortic stenosis. A cardinal symptom of aortic stenosis is heart failure due to the increased load exerted on the left ventricle. However, the left ventricular load is not solely determined based on the degree of aortic stenosis but is also impacted by arterial stiffness. The combined load can be determined by valvulo-arterial impedance (Zva), which is associated with poor outcome in aortic stenosis. We recently demonstrated low measures of systemic arterial stiffness in patients with aortic stenosis, and that arterial stiffness was increased after surgical aortic valve replacement. The results indicated a masked arterial stiffness in aortic stenosis when using methods incorporating peripheral arterial segments. Available studies using several different methods to assess arterial stiffness in relatively small aortic stenosis cohorts examined before and after either surgical or transcatheter aortic valve replacement/intervention have generated contradictory results. In this commentary, we present a detailed literature review to explore how different methods and measures of arterial stiffness in aortic stenosis capture or not, a masked arterial stiffness in aortic stenosis and possible reasons for the observed results. Future studies validating a non-invasive reproducible method to assess arterial stiffness in aortic stenosis patients could potentially lead to an implementation in pre-interventional risk assessment for aortic stenosis.

Clinical Outcomes of Aortic Stenosis in Amyloidosis; a United States National Cohort Study

Clinical Outcomes of Aortic Stenosis in Amyloidosis; a United States National Cohort Study

Abstract 11511: Long-Term Outcomes of Transcatheter Aortic Valvuloplasty in Infants: A Study from the Pediatric Cardiac Care Consortium

Introduction: Long-term outcomes of aortic stenosis (AS) after balloon aortic valvuloplasty (BAV) in infancy are scarce. Here, we report the 25-year outcomes after the first BAV in infants enrolled in the Pediatric Cardiac Care Consortium (PCCC), a US-based registry of pediatric cardiac interventions. Methods: We queried the PCCC for patients undergoing BAV in infancy between 1982 and 2003. Outcomes were tracked through 2019 in the PCCC and by linkage with the National Death Index and the Organ Procurement and Transplantation Network. Cases dependent on ductus arteriosus at the time of BAV were deemed critical and procedural outcomes were defined as optimal if residual valve gradient was &amp;lt30mmHg and no more than mild insufficiency reported. Reinterventions were tracked in PCCC through 2011. Transplant-free survival (TFS) post initial BAV is described by Kaplan-Meier plots . Results: The cohort included 316 patients: males 75.3%, median age 0.6 months (IQR: 0.1 - 2) at the time of the BAV. Of them, 95 had critical AS and 187 had optimal procedural outcome. A total of 289 (91.5%) survived to hospital discharge. Over a median follow-up time of 21.7 years (IQR: 18.9, 24.6), 3 patients underwent transplantation and 17 died, with a 25-year TFS of 92.4% (95%CI: 89.0-96.0%). Presence of critical AS and procedural outcome did not affect long-term outcomes (Figure 1). One hundred thirteen patients underwent at least one transcatheter or surgical reintervention through 2011: 48 (42%) had critical AS and 59 (52%) had suboptimal outcome after the first BAV (relative risk of reintervention 1.26 (95%CI: 0.94, 1.69) and 1.98 (95%CI: 1.48, 2.64) respectively). Conclusions: Infants undergoing BAV have favorable 25-year survival independent of the critical nature of the AS and the lack of optimal outcome at discharge. Patients with suboptimal result were more likely to require reintervention.

Echocardiographic Global Longitudinal Strain Is Associated With Myocardial Fibrosis and Predicts Outcomes in Aortic Stenosis.

Aims: Left ventricular ejection fraction is the conventional measure used to guide heart failure management, regardless of underlying etiology. Left ventricular global longitudinal strain (LV-GLS) by speckle tracking echocardiography (STE) is a more sensitive measure of intrinsic myocardial function. We aim to establish LV-GLS as a marker of replacement myocardial fibrosis on cardiovascular magnetic resonance (CMR) and validate the prognostic value of LV-GLS thresholds associated with fibrosis.Methods and results: LV-GLS thresholds of replacement fibrosis were established in the derivation cohort: 151 patients (57 ± 10 years; 58% males) with hypertension who underwent STE to measure LV-GLS and CMR. Prognostic value of the thresholds was validated in a separate outcome cohort: 261 patients with moderate-severe aortic stenosis (AS; 71 ± 12 years; 58% males; NYHA functional class I–II) and preserved LVEF ≥50%. Primary outcome was a composite of cardiovascular mortality, heart failure hospitalization, and myocardial infarction. In the derivation cohort, LV-GLS demonstrated good discrimination (c-statistics 0.74 [0.66–0.83]; P < 0.001) and calibration (Hosmer-Lemeshow χ2 = 6.37; P = 0.605) for replacement fibrosis. In the outcome cohort, 47 events occurred over 16 [3.3, 42.2] months. Patients with LV-GLS > −15.0% (corresponding to 95% specificity to rule-in myocardial fibrosis) had the worst outcomes compared to patients with LV-GLS < −21.0% (corresponding to 95% sensitivity to rule-out myocardial fibrosis) and those between −21.0 and −15.0% (log-rank P < 0.001). LV-GLS offered independent prognostic value over clinical variables, AS severity and echocardiographic LV mass and E/e′.Conclusion: LV-GLS thresholds associated with replacement myocardial fibrosis is a novel approach to risk-stratify patients with AS and preserved LVEF.

TCT-41 Treatment and Outcomes of Aortic Stenosis in Elderly Patients in the United States: Temporal Trends and Age Differences

TCT-41 Treatment and Outcomes of Aortic Stenosis in Elderly Patients in the United States: Temporal Trends and Age Differences

Echocardiographic global longitudinal strain as a marker of myocardial fibrosis predicts outcomes in aortic stenosis

Abstract Background Left ventricular global longitudinal strain (LV-GLS) by speckle tracking echocardiography (STE) reflects intrinsic myocardial function, influenced by interstitial abnormalities. Cardiovascular magnetic resonance (CMR) detects myocardial fibrosis non-invasively, but it is limited for widespread use. We aim to establish LV-GLS as a marker of replacement myocardial fibrosis on CMR and validate the prognostic value of LV-GLS thresholds associated with fibrosis. Methods LV-GLS thresholds of replacement fibrosis were established in the derivation cohort: 151 patients (57±10 years; 58% males) with hypertension who underwent STE to measure LV-GLS and CMR for replacement myocardial fibrosis. Prognostic value of the thresholds was validated in a separate outcome cohort: 261 patients with moderate-severe aortic stenosis (AS; 71±12 years; 58% males; NYHA functional class I-II) and preserved LVEF ≥50%. Primary outcome was a composite of cardiovascular mortality, heart failure hospitalization, myocardial infarction and cerebrovascular events. Results In the derivation cohort, LV-GLS demonstrated good discrimination (c-statistics 0.74; 95% confidence interval: 0.66–0.83; P&amp;lt;0.001) and calibration (Hosmer-Lemeshow X2=6.37; P=0.605) for replacement fibrosis. In the outcome cohort, 52 events occurred over 16 [3.1, 42.0] months of follow-up. Patients with LV-GLS &amp;gt;−15.0% (corresponding to 95% specificity to rule-in myocardial fibrosis) had the worst outcomes compared to patients with LV-GLS &amp;lt;−21.0% (corresponding to 95% sensitivity to rule-out myocardial fibrosis) and those between −21.0 and −15.0% (log-rank P&amp;lt;0.001; Figure 1). Furthermore, LV-GLS offered independent prognostic value over clinical variables, AS severity, echocardiographic LVEF and E/e' (hazard ratio 1.18; 95% confidence interval: 1.07 to 1.30; P=0.001). Conclusions LV-GLS thresholds associated with replacement myocardial fibrosis is a novel approach to risk-stratify patients with AS and preserved LVEF (Figure 2). Funding Acknowledgement Type of funding sources: Public grant(s) – National budget only. Main funding source(s): National Medical Research Council Figure 1Figure 2

A Twenty-Year Analysis of Demographics, Surgical Management, and Outcomes of Aortic Stenosis in New Jersey

We investigated the incidence and characteristics of 14,996 patients with aortic stenosis (AS) who were hospitalized in New Jersey between the years 1995 to 2015. The average age was 72, the majority were Caucasian males and common co-morbidities were hypertension, coronary artery disease and hypercholesterolemia. Hospital admission for AS declined between 1995 to 2007, to 10/100,000 patients, and increased to 15/100,000 patients in 2015 (p for trend <0.001). During the study period, the percentage of patients who received aortic valve replacement (AVR) increased (p <0.001). All-cause and cardiovascular mortality were higher among patients who did not undergo AVR at 1-year (HR 1.98 CI 1.75 to 2.23, p <0.001 and HR 1.82 CI 1.57 to 2.11, p <0.001, respectively) and 3-years (HR 2.16 CI 1.96 to 2.38, p <0.001 and HR 2.16 CI 1.90 to 2.45, p <0.001, respectively). The probability for readmission for AS was higher in patients who did not receive AVR compared to patients who had AVR at 1 year (HR 92.95 CI 57.85 to 149.35, p <0.001) and 3 years (HR 70.36 CI 47.18 to 104.95, p <0.001). These data imply that earlier diagnosis of AS and AVR when indicated will improve outcomes.

Influence of left ventricular systolic dysfunction on occurrence of pulsus tardus in patients with aortic stenosis

BackgroundAlthough the time difference between peak of left ventricular (LV) and aortic systolic pressures (TLV-Ao), which is considered to in part reflect pulsus tardus, is reported to be associated with clinical outcome in aortic stenosis (AS), its physiological determinants remain to be elucidated. We hypothesized that not only AS severity but also LV systolic dysfunction could be associated with occurrence of pulsus tardus. MethodsTLV-Ao was measured by simultaneous LV and aortic pressure tracing in 74 AS patients and prolonged TLV-Ao was defined as ≥66 ms according to the previous report. Mean transaortic valvular pressure gradient (mPG) and effective orifice area index (EOAI) were estimated by Doppler echocardiography and severe AS was defined as EOAI ≤0.60 cm2/m2. Global longitudinal strain (GLS) was measured by using speckle-tracking method. ResultsAlthough a weak correlation was observed between EOAI and TLV-Ao, there was substantial population showing discordance between the parameters: severe AS despite normal TLV-Ao (10 of 47 patients) and moderate AS despite prolonged TLV-Ao (9 of 17 patients). In severe AS, mPG was significantly higher in patients showing prolonged TLV-Ao (57±20 vs 36±10 mmHg, p<0.0001) whereas GLS was comparable between the groups (−15.2±3.5% vs −14.8±3.2%). In contrast, in moderate AS, GLS was significantly smaller in patients showing prolonged TLV-Ao (−12.6±4.7% vs −17.4±3.4%, p=0.0271) while mPG was comparable (34±7 mmHg vs 35±8 mmHg). Multivariable analysis revealed that not only mPG but also GLS was an independent determinant of TLV-Ao. ConclusionsThe occurrence of pulsus tardus could be associated with not only AS severity but also LV systolic dysfunction in AS patients.

Coronary microvascular dysfunction, left ventricular remodeling, and clinical outcomes in aortic stenosis

BackgroundWe investigated role of coronary microvascular disease (CMD) in maladaptive LV remodeling and prognosis in patients with aortic sclerosis or stenosis and no overt CAD. MethodsThis was a retrospective cohort study of patients with aortic sclerosis or stenosis, normal myocardial perfusion and LV ejection fraction (EF) > 50% (n = 43) and matched controls without AS (n = 43). PET and echocardiograms were performed within 1 year of each other. Myocardial perfusion and myocardial flow reserve (MFR) were quantified using PET imaging. LV structure and function, including global longitudinal strain (GLS), were quantified by transthoracic echocardiography. ResultsGlobal MFR declined with increasing AS severity (P = 0.04). Probability of impaired MFR increased with severity of adverse LV remodeling (OR 1.88, CI 1.03 to 3.41, P =0.04). Reduced MFR associated with impaired GLS (r = − 0.29, P = 0.002) and associated with reduced MACE-free survival at 7.27 years median follow-up. Adjusted annualized rate of MACE was highest in those with impaired GLS and MFR and lowest in those with normal GLS and MFR (30.99% vs 1.86%, P =0.002). Conclusion and RelevanceIn patients with AS and no overt CAD, impaired MFR associates with adverse LV remodeling and subclinical LV mechanical dysfunction, and is a marker increased clinical risk.

Outcome of aortic stenosis according to invasive cardiac damage staging after transcatheter aortic valve replacement.

In recent studies, a 5-stage cardiac damage classification in severe aortic stenosis (AS) based on echocardiographic parameters has shown to provide predictive value regarding clinical outcome. The objective of this study was to investigate the prognostic impact of a cardiac damage classification based on invasive hemodynamics in patients with AS undergoing transcatheter aortic valve replacement (TAVR). A total of 1400 patients with symptomatic AS and full invasive hemodynamic assessment before TAVR were included. Patients were categorized according to their cardiac damage stage into five groups that are defined as: stage 0, no cardiac damage; stage 1, left ventricular damage; stage 2, left atrial and/or mitral valve damage; stage 3, pulmonary vasculature and/or tricuspid valve damage; stage 4, right ventricular damage. 9.9% patients were classified as stage 0, 23.6% as stage 1, the majority of patients as stage 2 (33.5%), 23.1% as stage 3 and 10% as stage 4. One- and 4-year mortality were 10.1%/29.5% in stage 0, 16.1%/60.6% in stage 1, 17.3%/39.4% in stage 2, 22%/54.6% in stage 3, 27.1%/62.2% in stage 4 (p = 0.001/p < 0.001). The extent of cardiac damage was independently associated with increased mortality after TAVR (HR 1.16 per each increment in stage, 95% confidence interval 1.03-1.18; p = 0.018). Cardiac damage staging in severe AS patients based on invasive hemodynamics appears to show strong association between the extent of cardiac damage and post-TAVR mortality. This staging classification provides predictive value and may improve risk stratification, therapy management and decision-making in patients with AS. Invasive Staging Classification of Cardiac Damage in Severe Symptomatic Aortic Stenosis has an Impact on Outcome after TAVR. (Top) Invasive staging criteria for cardiac damage in five stages using left ventricular end-diastolic pressure (LVEDP) for stage 1 (red), post-capillary wedge pressure (PCWP) for stage 2 (green), systolic pulmonary artery pressure (SPAP) for stage 3 (purple) and right atrial pressure (RAP) for stage 4 (yellow). The cake chart shows the distribution of the different stage in the whole cohort. (Bottom) Survival Analyses According to Stage of Cardiac Damage after Transcatheter Aortic Valve Replacement using Invasive Criteria. Kaplan-Meier plots comparing overall (left) and cardiovascular (right) 4-year survival showing with the more advancing stage a higher mortality rate.

First-phase ejection fraction by cardiovascular magnetic resonance predicts outcomes in aortic stenosis

BackgroundFirst-phase ejection fraction (EF1; the ejection fraction measured during active systole up to the time of maximal aortic flow) measured by transthoracic echocardiography (TTE) is a powerful predictor of outcomes in patients with aortic stenosis. We aimed to assess whether cardiovascular magnetic resonance (CMR) might provide more precise measurements of EF1 than TTE and to examine the correlation of CMR EF1 with measures of fibrosis.MethodsIn 141 patients with at least mild aortic stenosis, we measured CMR EF1 from a short-axis 3D stack and compared its variability with TTE EF1, and its associations with myocardial fibrosis and clinical outcome (aortic valve replacement (AVR) or death).ResultsIntra- and inter-observer variation of CMR EF1 (standard deviations of differences within and between observers of 2.3% and 2.5% units respectively) was approximately 50% that of TTE EF1. CMR EF1 was strongly predictive of AVR or death. On multivariable Cox proportional hazards analysis, the hazard ratio for CMR EF1 was 0.93 (95% confidence interval 0.89–0.97, p = 0.001) per % change in EF1 and, apart from aortic valve gradient, CMR EF1 was the only imaging or biochemical measure independently predictive of outcome. Indexed extracellular volume was associated with AVR or death, but not after adjusting for EF1.ConclusionsEF1 is a simple robust marker of early left ventricular impairment that can be precisely measured by CMR and predicts outcome in aortic stenosis. Its measurement by CMR is more reproducible than that by TTE and may facilitate left ventricular structure–function analysis.

Blood flow dynamics with four-dimensional flow cardiovascular magnetic resonance in patients with aortic stenosis before and after transcatheter aortic valve replacement

BackgroundPre- and post-procedural hemodynamic changes which could affect adverse outcomes in aortic stenosis (AS) patients who undergo transcatheter aortic valve replacement (TAVR) have not been well investigated. Four-dimensional (4D) flow cardiovascular magnetic resonance (CMR) enables accurate analysis of blood flow dynamics such as flow velocity, flow pattern, wall shear stress (WSS), and energy loss (EL). We sought to examine the changes in blood flow dynamics of patients with severe AS who underwent TAVR.MethodsWe examined 32 consecutive severe AS patients who underwent TAVR between May 2018 and June 2019 (17 men, 82 ± 5 years, median left ventricular ejection fraction 61%, 6 self-expanding valve), after excluding those without CMR because of a contraindication or inadequate imaging from the analyses. We analyzed blood flow patterns, WSS and EL in the ascending aorta (AAo), and those changes before and after TAVR using 4D flow CMR.ResultsAfter TAVR, semi-quantified helical flow in the AAo was significantly decreased (1.4 ± 0.6 vs. 1.9 ± 0.8, P = 0.002), whereas vortical flow and eccentricity showed no significant changes. WSS along the ascending aortic circumference was significantly decreased in the left (P = 0.038) and left anterior (P = 0.033) wall at the basal level, right posterior (P = 0.011) and left (P = 0.010) wall at the middle level, and right (P = 0.012), left posterior (P = 0.019) and left anterior (P = 0.028) wall at the upper level. EL in the AAo was significantly decreased (15.6 [10.8–25.1 vs. 25.8 [18.6–36.2]] mW, P = 0.012). Furthermore, a significant negative correlation was observed between EL and effective orifice area index after TAVR (r = − 0.38, P = 0.034).ConclusionsIn severe AS patients undergoing TAVR, 4D flow CMR demonstrates that TAVR improves blood flow dynamics, especially when a larger effective orifice area index is obtained.