Comprehensive mitral valve prolapse assessment by cardiovascular MRI

Mitral valve (MV) prolapse (MVP) is a not fully understood common MV disorder. The development of sophisticated cardiovascular magnetic resonance imaging (CMRI) sequences over the last decades has allowed a more detailed assessment and provided better understanding of the pathophysiology of MVP to guide management, interventions, and risk stratification of patients affected. This review provides an overview of the most recent insights about this multifaceted pathology, particularly regarding the emerging concepts of mitral annular disjunction (MAD), and risk of arrhythmia and sudden death associated with myocardial fibrosis. We describe the emerging role of CMRI in both diagnosis and, more importantly, risk assessment of this disease, aiming to provide a comprehensive protocol for the assessment of MVP, which could represent a practical guide to clinicians and MRI practitioners working in the field.

Prognosis of left ventricular noncompaction with preserved ejection fraction

Introduction

Left ventricular noncompaction (LVNC) is a poorly defined entity with heterogeneous prognosis. LV ejection fraction (LVEF) is one of the main predictors of major adverse cardiovascular events (MACE). However, outcomes of LVNC patients with preserved LVEF (pEF) remain uncertain.

Purpose

The aim of our study was to determine the incidence and predictors of MACE in LVNC patients with pEF as well as to assess the evolution of LVEF throughout follow-up.

Methods

We conducted a retrospective, longitudinal, multicentre cohort study. Consecutive patients with transthoracic echocardiography (TTE) and/or cardiac magnetic resonance (CMR) diagnostic criteria for LVNC and initially pEF (LVEF≥50%) were recruited. MACE were defined as a composite of heart failure (HF), ventricular arrhythmias (VA), systemic embolisms (SE) and/or all-cause mortality. Progressive systolic dysfunction was defined as an LVEF<50% at last TTE and/or an absolute ≥10-point decrease in LVEF from first to last TTE. Lower limit of LVEF values were considered 50–53% for TTE and 50–57% for CMR, according to current recommendations.

Results

A total of 305 patients from 12 centres were included from 2000 to 2018. Age was 38±19 years, 165 (54%) were men and 185 (61%) were probands. LVEF was 62±8% and 8% had late gadolinium enhancement (LGE). During a median follow-up of 4.7 (IQR 2.1–7.4) years, MACE occurred in 40 (13%) patients with an incidence rate of 2.96 (95% CI 2.17–4.04) events per 100 person-years: 8 HF, 27 VA, 3 SE and 5 deaths. LVEF by TTE (HR 0.95, 95% CI 0.90–0.99, p=0.035) and age (HR 1.02, 95% CI 1.01–1-04, p=0.04) were the only variables independently associated with the endpoint. Patients with lower limit LVEF values showed an increased risk of MACE (Figure 1). Among probands, those with family aggregation presented a higher incidence of MACE compared to nonfamilial cases (HR 2.74, p=0.043). A positive genotype was not associated.

Sixty-one (21%) patients experienced progressive systolic dysfunction: 31 (11%) had an LVEF<50% and 48 (17%) an absolute ≥10-point decrease in LVEF at last follow-up. On multivariate analysis, LVEF by CMR was the only independent predictor (HR 0.96, 95% CI 0.92–0.99, p=0.031). Patients with lower limit LVEF values had an increased risk (Figure 2). In this subgroup, LGE was also associated with the endpoint (HR 3.52, p=0.011). Family aggregation was not associated, while a positive genotype correlated with lower risk (HR 0.52, p=0.029).

Conclusions

Patients with left ventricular noncompaction and preserved ejection fraction carry a moderate risk of major adverse cardiovascular events and progressive systolic dysfunction. LVEF remains the main predictor of outcomes in this subgroup. Patients with lower limit LVEF values are at increased risk, probably suggesting subclinical systolic dysfunction. Therefore, they should be carefully monitored.

Funding Acknowledgement

Type of funding sources: None. Figure 1Figure 2

Aortic rotational flow patterns and stiffness by 4D flow CMR in patients with Loeys-Dietz syndrome compared to healthy volunteers and patients with Marfan syndrome

Funding Acknowledgements

Type of funding sources: Public grant(s) – National budget only. Main funding source(s): La Marató de TV3, Instituto de Salud Carlos III through the project and Spanish Ministry of Science, Innovation and Universities.

BACKGROUND

Loeys-Dietz (LDS) and Marfan (MFS) syndromes are rare genetic connective tissue disorders associated with progressive aortic dilation, however, aortic dissections have been observed at lower aortic root diameters in LDS than in MFS. Recent CMR studies in MFS patients reported increased aortic stiffness (1–3) and altered rotational flow (4), but research on aortic flow dynamics and biomechanics in LDS is lacking.

PURPOSE

The aim of this study was to assess rotational aortic flow and aortic stiffness in LDS compared to healthy volunteers (HV) and MFS patients, using 4Dflow CMR.

METHODS

Twenty-one LDS and 44 MFS patients, without previous aortic dissection or surgery, and 43 HV underwent a non-contrast-enhanced 4D flow CMR. Aortic stiffness was quantified at the AAo and DAo using pulse wave velocity (PWV). In-plane rotational flow (IRF), systolic flow reversal ratio (SFRR) (5) and local aortic diameters were obtained at 20 equidistant planes from the ascending (AAo) to the proximal descending aorta (DAo).

RESULTS

LDS patients had lower IRF at the distal AAo and proximal DAo compared to HV (p = 0.053 and 0.004, respectively), once adjusted for age, stroke volume and local aortic diameter; but no differences were found with respect to MFS (Figure). Although SFRR at the proximal DAo was increased in LDS patients compared to both HV (p = 0.037) and MFS populations (p = 0.015), once adjusted for age and aortic diameter, the difference in magnitude was small (Figure). On the other hand, AAo and DAo PWV revealed stiffer aortas in LDS patients compared to HV but no differences versus MFS patients (Table).

CONCLUSIONS

Patients with Loeys-Dietz syndrome showed decreased in-plane rotational flow and abnormally-high regional aortic stiffness compared to healthy controls, and similar hemodynamics and aortic stiffness with respect to patients with Marfan syndrome.

Hemodynamic forces and myocardial deformation using cine MRI in Marfan syndrome

Funding Acknowledgements

Type of funding sources: None.

Introduction. Cardiovascular assessment of Marfan syndrome (MS) patients has normally focused on the aortic root and vascular manifestations due to the high risk of aortic dissection.

Although primary myocardial impairment has long been suspected, the evidence has been controversial. Advanced in CMR may support the early detection of cardiac dysfunction. Beyond left ventricle ejection fraction (EF) and myocardial strain (S), a new parameter is emerging, the hemodynamic forces (HF) exchanged between the blood flowing in the heart and the myocardium.  The application of these techniques to MS could be useful in demonstrating the presence of primary myocardial impairment.

Aim. The aim of this study is to explore myocardial function in MS through the evaluation in cine CMR of EF, S and cardiac HF exchanged between the blood and the myocardium and compare these data with those of a control group (C).

Methods. We retrospectively analysed CMR cine images of MS (diagnosed according revised Ghent criteria) without valvular disease or previous cardio surgery, and C, in standard long-axis projections, to define endocardial borders for subsequent quantification of left ventricular volumes, EF, longitudinal, circumferential and radial S, apex-to-base and lateral-to-septum HF (expressed in mN and as a percentage of gravity acceleration). The analysis were performed on Medical Imaging Systems (QStrain version 1.3.0.79; MEDIS) (Figure 1).

Results. 108 MS and 44 C had a good quality study, suitable for MEDIS analysis. The mean age was 33 ± 13 ys in MS, 35 ± 12 ys in C; 39% were male in MS, 50% in C.

The results of left ventricular function were: EF 63 ± 7% in MS vs 66 ± 5% in C group, p .008, global longitudinal S -24.5 ± 4.1% in MS vs -26.2 ± 4.1 in C, p .014; global circumferential S -30.6 ± 6.3% in MS vs -33.8 ± 4.4 in C, p .002; radial S 64.5 ± 16.2% in MS vs 72.7 ± 15.9 in C, p .005; apex-to-base HF 13.2 ± 4.7% in MS vs 17.8 ± 7.6% in C, p .000; lateral-to-septum 2.6 ± 1.3% in MS vs 3.1 ± 1.4% in C, p .048.

Moreover, 4.6% MS patients had mid reduced EF (40-50%); 9.2% had global longitudinal S reduction (cut off -19.3%); 7.4% had global circumferential S reduction (cut-off -21.7%).

Conclusion. These data provide support for the existence of a cardiomyopathy in MS. In our opinion, the term "primary cardiomyopathy" is not appropriate to describe this condition: patients with MS have changes in aortic stiffness and probably in cardiac afterload. The HF data are the most interesting of this study, both in the validation of this new parameter and in early detection a cardiomyopathy in MS

Moreover, the reduction of global circumferential S, as wall as global longitudinal S, in MS patients may help provide new elements to characterize the MS cardiomyopathy: sure enough, in literature, circumferential strain abnormalities are related to afterload increase. HF analysis is really a new challenge of cardiac imaging, as sensitive markers of subtle systolic dysfunction.

Abstract Figure. Figue 1. Analisis exemple.

Leaflets fusion length in bicuspid aortic valve is related to ascending and aortic root dilation and ascending aorta wall shear stress

Funding Acknowledgements

Type of funding sources: Public Institution(s). Main funding source(s): Spanish Ministry of Science, Innovation and Universities, Instituto de Salud Carlos III

Background

Bicuspid aortic valve (BAV) is the most common congenital heart defect, consisting in the fusion of two aortic valve leaflets. Altered flow patterns have been related to aortic wall degeneration in BAV patients and may be responsible for the high prevalence of aortic disease in these patients. A number of studies on excised BAV or using advanced imaging modalities reported a wide variability of fusion extent between leaflet, but no previous study assessed whether leaflet fusion length may be used to stratify BAV patients.

Purpose

We aimed to test whether leaflet fusion extent can be quantified by cardiac magnetic resonance imaging (CMR) and whether it is related to aortic dilation and flow abnormalities in non-dysfunctional BAV.

Methods

One hundred and twenty BAV adults with no previous aortic or aortic valve surgery or significant valvular disease were consecutively enrolled. Patients with two sinuses of Valsalva (true BAV) or fusion of the left and non-coronary cusps, both being rare forms of BAV, were excluded. Twenty-eight healthy volunteers were also included for comparison. A 4D flow CMR sequence was acquired and circumferential wall shear stress and pulse wave velocity were assessed in the ascending aorta. A stack of double-oblique cine images of the aortic valve were used to quantify the length of the fusion between leaflets.

Results

The length of the fusion between leaflets was effectively measured in 112/120 patients (93%). Reproducibility was good (ICC = 0.826). Fusion length varied greatly (range 2.3 – 15.4 mm, 7.8 ± 3.2 mm, tertiles cut-off points were 6 and 9.3 mm). After correction for age, BSA, stroke volume and BAV fusion morphotype, fusion length was independently associated with diameter at the sinus of Valsalva (p = 0.002). Moreover, once corrected for age, stroke volume and ascending aorta pulse wave velocity, fusion length was positively related to ascending aorta diameter (p = 0.028). The comparison of maps of circumferential peak-systolic WSS in healthy volunteers (left) and BAV patients pertaining to the three leaflet fusion length tertiles is shown in Figure 1. Circumferential WSS progressively increase with larger fusion length. This trend was statistically significant (p < 0.05) in the right and outer regions of the proximal and mid ascending aorta.

Conclusions

Bicuspid aortic leaflet fusion length varies considerably and it is independently associated with ascending aorta and aortic root dilation, possibly through flow alterations.

Abstract Figure 1

Prognostic implications of myocardial work in patients with reduced left ventricular ejection fraction: a preliminary study

Funding Acknowledgements

Type of funding sources: None.

Background. Myocardial work (MW) is a new imaging technique to assess left ventricular (LV) systolic function. It incorporates both deformation parameters (global longitudinal strain -GLS-) and loading conditions and gives information on global constructive work (GCW), global wasted work (GWW), global LV myocardial work index (GWI) and global LV myocardial work efficiency (GWE).

Purpose. The aim of this study was to describe the prognostic role of MW in predicting major adverse cardiovascular events (MACE) in patients with reduced LV ejection fraction (LVEF), and to compare it with GLS and LVEF.

Methods. We retrospectively included consecutive patients from 2012 to 2019 with dilated LV and LVEF < 50% of any aetiology.  Clinical variables were collected and LVEF, GLS and MW were evaluated from baseline echocardiogram. MACE was defined as heart failure (HF) and/or ventricular arrhythmia (VA) and/or cardiac arrest and/or all cause death. 

Results. 99 patients were included, 26 were women (26.3%), mean age at diagnosis was 57 years (SD 23). Mean LVEF was 32.5% (SD 10.3). Baseline patients characteristics are described in Table 1. During a median follow-up of 25 months (IQR 12), 24 MACE were recorded (24.4%). Patients with MACE had worse MW parameters: significantly lower MWI (805 ± 360 % vs 638 ± 277 %, p = 0.04) and lower GCW (1116 ± 535 mmHg vs 874 ± 458 mmHg, p = 0.05), and a tendency to lower GWE (83 ± 11 % vs 77 ± 16 %, p = 0.084).  Of note, both LVEF (33 ± 10% vs 29 ± 9%, p = 0.123) and GLS (-9.99 ± 3.7% vs -8.8 ± 3.0, p = 0.170) showed a trend but were not significantly associated with outcomes. This might suggest that MW variables are stronger prognostic predictors than traditional imaging parameters.

Conclusions. In patients with reduced LVEF, MW parameters including global  MWI and GCW were associated with major adverse cardiovascular events. Of note, both EF and GLS seem to have less prognostic implications in this cohort when compared with MW. Our results are preliminary and larger studies are needed in order to fully understand the clinical utility of MW beyond traditional parameters.

Baseline patient characteristics GLOBAL EVENTS NO EVENTS p Hypertension, % 41 67 29 0.014 Ischaemic etiology, % 14 20 12 0.448 Creatinine, mean (SD) - mg/dL 0.96 (0.04) 1.11 (0.09) 0.90 (0.04) 0.021 Bblockers, % 98 100 97 0.514 Nitrates, % 4 13 0 0.025 Diuretics, % 65 93 53 0.006 SD standard deviation Abstract Figure. Results

Semi-automatic quantification of aortic root progressive dilation by automatic co-registration of computed tomography angiograms: a preliminary comparison with manual assessment in Marfan patients

Funding Acknowledgements

Type of funding sources: Public Institution(s). Main funding source(s): Spanish Ministry of Science, Innovation and Universities Instituto de Salud Carlos III

Background. Dilation of the aortic root is a key feature of Marfan syndrome and it is related to the occurrence of aortic events and death. On top of maximum diameter, rapid annual growth rate is suggested by guidelines for indication of aortic root replacement. Current gold-standard for aortic root diameter assessment is manual quantification on multiplanar reformatted 3D computed tomography (CT) or magnetic resonance angiogram. However, inter- and intra-observer reproducibility are limited and different measurement methods, i.e. cusp-to-cusp and cusp-to-commissure, may be used in different clinical centres, leading to difficulties in the clinical assessment of progressive dilation.

Purpose. We aimed to test whether aortic root growth rate during follow-up can be reliably quantified by semi-automatic co-registration of two CT angiograms.

Methods. Seven Marfan syndrome patients, free from previous aortic surgery, with a total of 11 pairs of CT were identified. Manual assessment of six aortic root diameters (right-non coronary -RN- , right-left -RL- and left-non coronary -LN- cusp-to-cusp and R, L and N cusp-to-commissure) was obtained from all CTs by an experienced researcher blind to semi-automatic results. The thoracic aorta and the outflow tract were semi-automatically segmented in the baseline CT and commissure and cusps were manually located. A 10 mm-thick region of interest containing the aortic wall was automatically generated from segmentation boundary. Co-registration was obtained with three, fully-automatic steps. Firstly, baseline and follow-up CT scans were aligned by means of a rigid registration. Then, scans were co-registered with multi-resolution affine followed by b-spline non-rigid registrations based on mutual information metric. The transformation pertaining to the location of baseline commissure and cusps points was used to locate the same points in the follow-up scan (Fig. 1 top).

Results. Follow-up duration was 35 ± 22 (range 12-70.3) months. Automatic quantification of diameter growth during the follow-up was obtained in 62 out of 66 (94%) diameter comparisons. High Pearson correlation coefficients (R) and ICC were found between manual and semi-automatic assessment of growth rate, both for cusp-to-cusp and cusp-to-commissure diameters: R = 0.727 and ICC = 0.678 for RN; R = 0.822 and ICC = 0.602 for RL; R = 0.648 and ICC = 0.668 for LN; R = 0.726 and ICC = 0.711 for R; R = 0.911 and ICC = 0.895 for L and R = 0.553 and ICC = 0.482 for N. Scatter and Bland-Altman plots for all growth rates (Fig. 1) confirmed very good correlation (R = 0.810) but a slight tendency (R=-0.270) for underestimation at high growth rate.  No correlation was found between follow-up duration and difference between techniques (R = 0.06).

Conclusions. Semi-automatic quantification of aortic root growth rate by co-registration of pairs of CT angiograms is feasible for follow-up as short as one year. Larger studies are needed to confirm these preliminary data.

Abstract Figure. CT measurements. Automatic vs manual.

Are aortic root and ascending aorta echocardiographic diameters by adult vs paediatric guidelines recommendations interchangeable?

Background

Both aortic root size and ascending aorta are clinical parameters with significant therapeutic implications which can be easily assessed by transthoracic echocardiography (TTE). However, measurement values may vary according to cardiac cycle and the edge convention used.

Purpose

This study aimed to compare the aortic diameter values measured using the lastest recommendations of two different guidelines, adults and children, to determine the influence of these methods on echocardiographic measurements.

Methods

Two hundred and fifty adult patients (56% male, 63±15 years of age) and 67 children (65% male, 10.04±4.5 years of age) in whom TTE was clinically indicated were included. Aortic diameters were measured twice at 2 levels (sinuses of Valsalva and ascending aorta): leading edge to leading edge during diastole, (L-L in D) following the 2015 American Society of Echocardiography (ASE) adults guidelines and inner edge to inner edge during systole (I-I in S) following the 2010 ASE paediatric guidelines.

Results

Mean aortic diameters obtained by L-L in D and I-I in S are shown in Table 1. Correlation coefficient was 0.990 (CI95% 0.988–0.992) for sinuses of Valsalva measurements and 0.991 (CI95% 0.989–0.993) for ascending aorta in adult patients and 0.983 (CI95% 0.975–0.973) and 0.970 (CI95% 0.956–0.952) in childrens respectively. When both populations were analysed together, concordance correlation coefficients were 0.991 (CI95% 0.989–0.993) and 0.970 (CI95% 0.991–0.994), respectively. Bland- Altman analysis for each level measured (A: aortic root; B: ascending aorta) in the total cohort of 317 patients is shown in Figure 1. Mean aortic diameters and differences in the whole group are shown in Table 1.

Conclusions

Measurement of aortic root and ascending aorta showed a significantly larger diameters by L-L in D than by I-I in S. However, these differences had subclinical significance and management implications. These similar diameter values may be used indifferently but systematically during follow-up. Systolic diameter expansion has a similar value to that of anterior aortic wall thickness; however, it is more vulnerable to changes in haemodynamic conditions.

Figure 1

Funding Acknowledgement

Type of funding source: Public Institution(s). Main funding source(s): Vall d'Hebron Research Institute

Relationship between aortic distensibility and aortic regurgitation depending on aortic valve anatomy. A CMR study

Background

Aortic regurgitation (AR) can be evaluated by cardiac magnetic resonance (CMR).The most commonly used method to quantify AR is direct measurement using phase contrast (PC) imaging, at the aortic root (as close as possible to the aortic valve), for the calculation of regurgitant fraction (RF). Aortic distensibility (AD) may affect aortic valve dynamics and, as a result, aortic regurgitation grade. However, the impact of aortic distensibility in this evaluation remains unknown.

Purpose

The aim of the study was to evaluate the relationship between AD and AR in patients with different aortic valve anatomy.

Methods

213 patients with different AR severity grades and aortic valve anatomy (tricuspid (TAV) and bicuspid valve (BAV) patients) were enrolled (32.2% female, 74% BAV, 55.5±15.4 years), excluding connective tissue disease. All patients underwent a CMR study with PC sequences for the evaluation of regurgitant fraction at the aortic valve level. AR was considered as mild (<15%), moderate (15–30%) or severe (>30%) depending on RF value. Furthermore we used cine-sequences to estimate aortic diameters and distensibilities, using Art Fun software. Distensibility was calculated as (change in aortic area between systole and diastole/diastolic area)/brachial pulse pressure.

Results

159 (73.7%) AR were mild, 30 (14.1%) moderate and 24 (11.3%) severe. RF significantly correlated with aortic root diameter (r=0.337, p<0.001) and did not correlate with AD at the level of proximal descending aorta (r=0.121 and p=0.107). Furthermore descendig aorta distensibility correlated with age (r=−0.631, p<0.001) and aortic root diameter (r=−0.224, p=0.002). Dividing population in two different groups, depending on aortic valve anatomy, in TAV patients RF continued to not correlate with AD (r=0.159, p=0.369). In contrast, RF in BAV patients was positively correlated with AD (r=0.223, p=0.007) even after adjustment for aortic diameter and age in a multiple regression model (p<0.001, R2=0.478).

Conclusions

In our study, aortic regurgitation is positively related to descending aorta distensibility in BAV patients, regardless of age and aortic root diameter. Thus, AD may play a role in the evaluation of AR in case of bicuspid valves. In contrast, in TAV patients, distensibility does not seem to influence the assessment of AR severity.

Descending aorta distensibility

Funding Acknowledgement

Type of funding source: Other. Main funding source(s): Research grant provided by the Cardiopath PhD program

Aortic stiffness and hemodynamics in Loeys-Dietz syndrome by 4Dflow CMR: a comparison with healthy volunteers and patients with Marfan syndrome

Background

Connective tissue disorders, such as Loeys-Dietz (LDS) and Marfan (MFS) syndromes, are rare genetic diseases associated with progressive aortic dilation. Aortic dissections have been observed at lower aortic root diameters in LDS than in MFS, and research on aortic flow dynamics and biomechanics in LDS is lacking.

Purpose

To evaluate rotational aortic flow and aortic stiffness in LDS compared to healthy volunteers (HV) and MFS patients, using 4Dflow CMR.

Methods

Twenty-one LDS and 44 MFS patients, without previous aortic dissection or surgery, and 44 HV underwent a non-contrast-enhanced 4D flow CMR. In-plane rotational flow (IRF), systolic flow reversal ratio (SFRR) and local aortic diameters were obtained at 20 equidistant planes from the ascending (AAo) to the proximal descending aorta (DAo). Aortic stiffness was quantified at the AAo and DAo using pulse wave velocity (PWV).

Results

LDS patients had lower IRF at the distal AAo and proximal DAo compared to HV (p=0.053 and 0.004, respectively), once adjusted for age, stroke volume and local aortic diameter; but no differences were found with respect to MFS (Figure). Although SFRR at the proximal DAo was increased in LDS patients compared to both HV (p=0.037) and MFS populations (p=0.015), once adjusted for age and aortic diameter, the difference in magnitude was small (Figure). On the other hand, AAo and DAo PWV revealed stiffer aortas in LDS patients compared to HV but no differences versus MFS patients (Table).

Conclusions

LDS patients showed decreased in-plane rotational flow and abnormally-high regional aortic stiffness compared to healthy controls, and similar hemodynamics and aortic stiffness with respect to MFS patients

Funding Acknowledgement

Type of funding source: Public Institution(s). Main funding source(s): Instituto de Salud Carlos III, La Maratό TV3

The length of the fusion between leaflets in bicuspid aortic valve is independently related to ascending aorta dilation and flow dynamics alterations assessed by 4D-flow CMR

Background

Aortic dilation in bicuspid aortic valve (BAV) patients has been related to altered flow patterns, which contribute to aortic wall degeneration. However, preventive aortic replacement is currently based on a diameter threshold. Several studies on excised BAV reported wide variability of fusion extent.

Purpose

To unveil whether leaflet fusion extent can be quantified by CMR and is related to aortic dilation and flow abnormalities in non-dysfunctional BAV.

Methods

One hundred and twenty adults with non-dysfunctional BAV and no previous aortic or aortic valve surgery and 28 healthy volunteers underwent double-oblique cine and 4D flow CMR. BAV patients with two sinuses of Valsalva or left and non-coronary cusps fusion were excluded. Peak systolic circumferential wall shear stress (WSSc) and pulse wave velocity (PWV) in the ascending aorta (AAo) were assessed by 4D flow CMR. Fusion length between leaflets was measured using a stack of double-oblique cine CMR images of the aortic valve.

Results

The length of the fusion was effectively measured in 112/120 (93%) patients with good reproducibility (ICC = 0.826) and showed great variability (range 2.3–15.4 mm, 7.8±3.2 mm and tertiles cut-off points 6 and 9.3 mm). In multivariate analysis adjusted for clinical and demographic characteristics and PWV, fusion length was independently associated with the diameter at the sinus of Valsalva (p=0.002) and the AAo (p=0.02) (Table). WSSc progressively increased with larger fusion length (Figure), with statistical significance (p<0.05) in the right and outer regions of the proximal and mid AAo.

Conclusions

Bicuspid aortic leaflet fusion length varies considerably, and it is independently associated with AAo and aortic root dilation, possibly through flow alterations.

Figure 1. Maps of circumferential WSS

Funding Acknowledgement

Type of funding source: Public grant(s) – National budget only. Main funding source(s): This study has been partially funded by Instituto Carlos III, Spanish Ministry of Science and Innovation (PI17/00381). Guala A. has received funding from the Spanish Ministry of Science, Innovation and Universities (IJC2018-037349-I).

Prognostic implications of myocardial work in patients with reduced left ventricular ejection fraction: a preliminary study

Background

Myocardial work (MW) is a new imaging technique to assess left ventricular (LV) systolic function. It incorporates both deformation parameters (global longitudinal strain -GLS-) and loading conditions and gives information on global constructive work (GCW), global wasted work (GWW), global LV myocardial work index (GWI) and global LV myocardial work efficiency (GWE).

Purpose

The aim of this study was to describe the prognostic role of MW in predicting major adverse cardiovascular events (MACE) in patients with reduced LV ejection fraction (LVEF), and to compare it with GLS and LVEF.

Methods

We retrospectively included consecutive patients from 2012 to 2019 with dilated LV and LVEF <50% of any aetiology. Clinical variables were collected and LVEF, GLS and MW were evaluated from baseline echocardiogram. MACE was defined as heart failure (HF) and/or ventricular arrhythmia (VA) and/or cardiac arrest and/or all cause death.

Results

99 patients were included, 26 were women (26.3%), mean age at diagnosis was 57 years (SD 23). Mean LVEF was 32.5% (SD 10.3). Baseline patients characteristics are described in Table 1. During a median follow-up of 25 months (IQR 12), 24 MACE were recorded (24.4%). Patients with MACE had worse MW parameters: significantly lower MWI (805±360% vs 638±277%, p=0.04) and lower GCW (1116±535 mmHg vs 874±458 mmHg, p=0.05), and a tendency to lower GWE (83±11% vs 77±16%, p=0.084). Of note, both LVEF (33±10% vs 29±9%, p=0.123) and GLS (−9.99±3.7% vs −8.8±3.0, p=0.170) showed a trend but were not significantly associated with outcomes. This might suggest that MW variables are stronger prognostic predictors than traditional imaging parameters.

Conclusions

In patients with reduced LVEF, MW parameters including global MWI and GCW were associated with major adverse cardiovascular events. Of note, both EF and GLS seem to have less prognostic implications in this cohort when compared with MW. Our results are preliminary and larger studies are needed in order to fully understand the clinical utility of MW beyond traditional parameters.

Results

Funding Acknowledgement

Type of funding source: Public hospital(s). Main funding source(s): Universitary Hospital Vall d'Hebron

The role of descending aorta diastolic reverse flow in the quantification of aortic regurgitation by CMR

Background

EACVI recommends the use of an “integrative approach”, using several parameters, in aortic regurgitation (AR) quantification. This approach is easily achieved by echocardiography although cardiovascular magnetic resonance (CMR) remains the gold standard for the quantification of regurgitant fraction (RF).

Purpose

The aim of the study was to analyze the accuracy of descending aorta (DA) diastolic reverse flow in the assessment of chronic AR severity by CMR to identify an additional parameter.

Methods

188 patients (34% female, 54.6±15.6 years) with different severity grades of chronic AR were enrolled. All patients underwent a CMR study. Aortic regurgitation was considered as absent (≤1%), mild (≤15%), moderate (≤15%) or severe (≥30%) depending on RF value at valve level. Furthermore, cine-sequences were used to estimate aortic diameters and distensibilities using Art Fun software. Velocity-time integral (VTI) of reverse flow in DA was calculated from maximum velocity curves by an in-house MatLab code.

Results

AR was absent in 21 (12%) patients, mild in 114 (62.9%), moderate in 23 (12.7%) and severe in 21 (11.6%).DA VTI reverse flow was significantly higher as was the RF at valve level (r=0.805, p<0.001) (IMG, Table). It also positively correlated withaortic root diameter (r=0.347, p<0.001) and DA distensibility (r=0.279, p<0.001). It did not correlate with age (r=−0.91, p=0.22). In a statistically significant multiple regression model (p<0.001, R2 = 0.697), although VTI reverse flow in DA correlated strongly with RF at valve level (p<0.001; beta = 0.733), it was also influenced by DA distensibility (p<0.001; beta = 0.197) and aortic root diameter (p<0.001; beta= 0.140).

Conclusions

VTI reverse flow in DA correlates strongly with the degree of AR and may be useful in the assessment of its severity. Neverthless, owing to the influence of other factors (aortic distensibility and aortic root diameter), it cannot be used as a single parameter in the quantification of AR severity by CMR.

Scatter Plot graphs

Funding Acknowledgement

Type of funding source: Other. Main funding source(s): research grant provided by the Cardiopath PhD program

1033 Prominent longitudinal strain involvement of left ventricular basal segments in native hypertensive patients without clear-cut hypertrophy

Background

Left ventricular (LV) global longitudinal strain (GLS) is able to detect an early subclinical dysfunction and it has been demonstrated to be a prognosticator in arterial hypertension. Information of regional longitudinal strain (LS) pattern has not been investigated in this clinical setting.

Purpose

We analyzed regional LV patterns of LS and base-to-apex behaviour of LS in newly diagnosed and never-treated hypertensive patients (HTN) without clear-cut LV hypertrophy (LVH).

Methods

166 HTN (M/F = 107/59; age 43.9 ± 14.3 years, blood pressure [BP] = 146.5± 10.7/90.1 ± 7.5 mmHg) and a control group of 94 healthy subjects (M/F = 58/36; age 41.2 ± 15.0 years) underwent standard echo-Doppler exam, including speckle tracking quantification of regional LS and GLS (considered in absolute values). The average LS of six basal (BLS), six middle (MLS), and six apical (ALS) segments and relative regional strain ratio - RRSR = [ALS/(BLS + MLS)] - were also computed. Exclusion criteria were LVH (LV mass index ≥45 g/m^2.7 in females and ≥49 g/m^2.7 in males), diabetes mellitus, coronary artery disease, overt heart failure, hemodynamically significant valve heart disease, primary cardiomyopathies, atrial fibrillation and inadequate echo imaging.

Results

The two groups were comparable for sex, age, heart rate and LV ejection fraction (EF). Body mass index (BMI), systolic (SBP), diastolic (DBP) and mean BP (MBP) (all p < 0.0001), LV mass index (p = 0.03), relative wall thickness (RWT) (p < 0.02) and E/e’ ratio (p < 0.01) were higher, and GLS lower (21.6 ± 2.0 vs. 22.2 ± 2.1%, p < 0.02) in HTN. By analyzing regional LS, BLS (18.2 ± 2.1% vs. 19.2 ± 2.1%, p < 0.0001) and MLS (20.7 ± 2.0 vs. 21.4 ± 2.1%, p = 0.007) resulted significantly lower in HTN, without significant difference in ALS (26.0 ± 3.6 vs. 25.9 ± 3.8%, p = 0.98). Accordingly, RRSR was higher in HTN (0.67 ± 0.09 vs. 0.64 ± 0.09, p < 0.01). Even after excluding patients with LV concentric remodeling (RWT > 0.42) (n = 34), BLS (p < 0.0001) and MLS (p < 0.002) were again lower and RRSR (p < 0.01) higher in HTN than in controls. In the pooled population, BLS negatively correlated with SBP (r=-0.22), DBP (r=-0.25) and MBP (r=-0.26) (Figure) (all p < 0.0001). By a multiple linear regression analysis, after adjusting for age, sex, BMI and RWT, the association between BLS and MBP remained significant (β coefficient=-0.23, p < 0.0001), with an additional significant impact of male sex (β=-0.33, p < 0.0001) (cumulative R²=0.18, SEE = 1.9%, p < 0.0001).

Conclusions

Besides normal LV EF, GLS is lower in HTN. LS dysfunction involves basal and, with a lower extent, middle myocardial segments, with a compensation of apical segments. RRSR appears to be significantly higher in HTN. These results are even confirmed in hypertensive patients with normal LV geometry. The association of BLS and BP appears to be independent on several confounders. Regional LS pattern might be useful to detect very early LV systolic abnormalities in arterial hypertension.

Abstract 1033 Figure. Relation between MBP and BLS

P372 Aortic stiffness in Loeys-Dietz syndrome: a comparison with Marfan syndrome patients and healthy volunteers

Funding Acknowledgements

ISCIII PI14/0106 and PI17/00381, La Marató de TV3 (20151330), Eur FP7/People 267128 and CIBERCV

BACKGROUND

Genetic syndromic aortic diseases are rare, with Marfan syndrome (MFS) being the most common. However, less is known of Loeys-Dietz syndrome (LDS) which has much lower prevalence and presumed worse prognosis. Increased aortic stiffness in MFS has been previously described but no studies have evaluated aortic biomechanics in LDS. Pulse wave velocity (PWV) is the gold standard measure for arterial stiffness and can be quantified by 4D flow MRI. We aim to evaluate regional aortic PWV by 4D flow MRI in LDS compared to MFS and healthy volunteers.

METHODS

Sixteen LDS patients with a pathogenic mutation, 76 MFS and 49 healthy volunteers were prospectively and consecutively included. No patient had previous aortic dissection or surgery. All underwent a 4D flow MRI study in a 1.5 T clinical scanner. Ascending (AAo) and descending (DAo) aorta PWV were computed using wavelet analysis of the systolic upslope for transit time calculation (Figure). Statistical comparison was made with non-parametric analysis to account for the non-normality of data and multivariate analysis was evaluated separately for AAo and DAo PWV.

RESULTS

Ascending and descending aortic PWV revealed stiffer aortas in LDS patients than in healthy volunteers, even after adjustment for diameter of sinus of Valsalva (SoV) and sex. Conversely, no differences in aortic stiffness were found between LDS and MFS patients (Table).

CONCLUSIONS

Abnormally high regional aortic stiffness was observed in LDS patients when compared with controls. The severity of increased regional aortic stiffness was found similar to the one affecting MFS patients.

Table Controls (N = 49) LDS (N = 16) MFS (N = 76) LDS vs. HV LDS vs. MFN Parameter Unadjusted p-value Adjusted p-value Unadjusted p-value Adjusted p-value Age [years] 39 ± 12 39 ± 16 36 ± 12 0.903 0.599 Men 32 (65%) 6 (37%) 34 (45%) 0.079 0.782 Weight [kg] 72 ± 11 69 ± 13 74 ± 16 0.288 0.194 Height [cm] 172 ± 8 172 ±12 181 ± 11 0.834 0.008 Systolic BP [mmHg] 126 ± 18 125 ± 14 127 ± 17 0.957 0.523 Diastolic BP [mmHg] 70 ± 11 77 ± 6 75 ± 12 0.011 0.318 SoV diameter [mm] 30.6 ± 3.9 35.4 ± 4.6 38.1 ± 5.9 0.001 0.060 AAo diameter [mm] 27.7 ± 3.8 29,0 ± 5.0 29.7 ± 5.4 0.458 0.579 DAo diameter [mm] 20.0 ± 2.0 21.3 ± 3.6 22.9 ± 3.8 0.546 0.124 AAo PWV [m/s] 5.2 ± 1.9 7.6 ± 2.4 7.3 ± 2.8 0.001 0.050* 0.534 NS DAo PWV [m/s] 7.1 ± 2.2 9.4 ± 2.6 10.7 ± 4.6 0.003 0.025** 0.493 NS

Abstract P372 Figure

P1600 Aortic dilatation in patients with chronic descending aorta dissection is related to maximum false-lumen systolic flow deceleration rate as evaluated by 4D-flow MRI

Background

Due to improved surgical strategies a growing number of patients survive acute aortic dissection. Patent false lumen (FL) is common in chronic dissection and it has been associated with poor prognosis, which is mainly driven by FL expansion. Several variables indirectly related to flow characteristics have been associated with progressive aortic dilation. We aimed to evaluate whether the maximum systolic flow deceleration rate (MSDR) in the FL, quantified by 4D-flow MR, is related to FL dilation in chronic type B aortic dissection.

Methods

Twenty-nine patients with a patent FL after aortic dissection and a prior follow-up of at least 3 years underwent contrast-enhanced 4D-flow MR. Marfan patients were excluded. Time-resolved FL flow acceleration was calculated in a 5 cm-long volume of the descending aorta around the level of the pulmonary bifurcation. MSDR was determined as the maximum minus the minimum acceleration in systole over the corresponding time interval (Figure 1a). Aortic growth rate (GR) was measured as the difference between final and initial maximum FL diameters obtained by angio-CT divided by follow-up duration. Population was divided into tertiles based on GR.

Results

Demographic and clinical variables were similar among GR tertiles (Table). MSDR was lower in patients with a GR <1mm/year (group 1) compared to both the other two patient groups (p = 0.009 and 0.003 for groups 2 and 3, respectively) (Figure 1c). MSDR showed a marked positive linear correlation with GR (R = 0.481, p = 0.008) (Figure 1b).

Conclusions

The MSDR in the FL of chronic type B aortic dissection is linearly related to FL growth rate and discriminated between tertiles of aortic dilation. Prospective longitudinal studies are need to unveil possible prognostic value of this parameter.

Table Group 1 (n = 9) Group 2 (n = 10) Group 3 (n = 10) p-value Age (years) 63.44 ±13.54 62.50 ± 13.60 64.56 ± 6.67 0.902 BSA (m2) 2.00 ± 0.18 1.77 ± 0.20 1.94 ± 0.12 0.213 Men 6 (86%) 4 (57%) 4 (100%) 0.210 Hypertension 4 (66%) 5 (71%) 4 (100%) 0.438 Atheroclerosis 1 (17%) 1 (14%) 0 (0%) 0.699 Initial Diameter (mm) 45.00 ± 7.69 36.00 ± 4.20 37.00 ± 6.48 0.078 Final Diameter (mm) 49.50 ± 6.74 44.86 ± 5.70 59.25 ± 9.84 0.049 Follow-up (year) 11.83 ± 8.79 7.82 ± 3.34 8.08 ± 4.05 0.921 GR (mm/year) 0.27 ± 0.29 1.18 ± 0.26 2.64 ± 0.97 <0.001 MSDR (cm/s3) 1212.18 ± 467.61 2410.54 ± 1034.30 2558.16 ± 1098.06 0.005

Abstract P1600 Figure 1

P1601 Relationship between aortic distensibility and aortic regurgitation assessed by CMR in bicuspid valve patients

Funding Acknowledgements

Spanish Ministry of Economy and Competitiveness RTC-2016-5152-1, ISCIII PI17/00381, La Marató de TV3 (20151330), Eur FP7/People 267128 and CIBERCV

BACKGROUND

The severity of aortic regurgitation can be evaluated with cardiac magnetic resonance (CMR) through calculation of regurgitant fraction (RF) in phase contrast sequences acquired at the aortic root (as close as possible to the aortic valve). However, the impact of aortic distensibility in this evaluation remains unkown.

PURPOSE

The aim of the study was to evaluate the relation between aortic distensibility and RF valve in bicuspid aortic valve patients.

METHODS

We enrolled bicuspid aortic valve patients without significant aortic stenosis (maximum velocity <2.5 m/s) and connective tissue disease. All patients underwent a CMR study with phase contrast sequences for evaluation of regurgitant fraction at the level of the aortic valve. Aortic regurgitation was considered as mild, moderate or severe depending on RF value (mild <15%; moderate 15-30%; severe >30%). Furthermore we used cine-sequences of aortic root, ascending and proximal descending aorta to estimate aortic diameters and distensibilities, using Art Fun software. Distensibility was calculated as (change in aortic area between systole and diastole/diastolic area)/brachial pulse pressure.

RESULTS

A total of 98 bicuspid aortic valve patients were included (30% female, 49.7 ± 14.5 years). 75 (76,5%) AR was mild, 17 (17,4%) moderate and 6 (6,1%) severe. RF valvewas significantly correlated with aortic root diameter (r= 0.430 y p < 0.001 )and aortic distensibility at the level of the ascending (r = 0.273 p =0.016) and descending aorta (r = 0.502 and p< 0.001). Aortic distensibility was positively correlated with RFvalve even after adjustment for aortic diameter ( p = 0.002 and p <0.001 respectively) . (Table) (IMG)

CONCLUSIONS

In our study, aortic regurgitation in bicuspid valve patients, evaluated by CMR using RF valve, is related to aortic distensibility. Thus, aortic distensibility should be included in the evaluation of aortic regurgitation by CMR as additional parameter. However, longitudinal studies are needed to evaluate the impact of including aortic distensibility in the evaluation of AR severity by CMR.

AR SEVERITY MILD MODERATE SEVERE Descending aorta distensibility(mean ± std. deviation) 2693,68 ± 997,5 3285,8 ±1952,7 5042,99 ±2873,44 Correlation between AR severity (by RFvalve) and descending aorta distensibility

Abstract P1601 Figure.

P4131Abnormal flow pattern in the main pulmonary artery of Marfan patients is related to local dilation

Introduction

Marfan syndrome (MFS) is a hereditary connective tissue disorder caused by mutation in the FBN1 gene. Main pulmonary artery (MPA) dilation is very prevalent in MFS patients. Indeed, the old Ghent nosology considered main pulmonary artery (MPA) dilation as diagnostic criterion of MFS patients. Although clinical complications related to pulmonary dilation in MFS are rare, this may potentially lead to MPA dissection or be a marker of vascular disease in MFS. Studies regarding potential causes of MPA dilation in MFS patients are very scarce.

Purpose

Through 4D flow CMR, we aimed to assess whether flow abnormalities exist in the MPA of MFS patients and their relation to local diameter.

Methods

Fifty-five consecutive Marfan syndrome adults (MFS) and 22 healthy volunteers (HV) were prospectively enrolled. All subjects underwent non-contrast-enhanced 4D flow-MRI, obtaining 4D flow field and a 3D angiography. The MPA was segmented from the 3D angiography, and the segmentation was used to mask 4D velocity data. Four, equidistant analysis planes were placed in the MPA between the pulmonary valve and the pulmonary artery bifurcation. Common descriptors of large arteries hemodynamics were computed at each plane: maximum velocity, systolic flow reversal ratio (a descriptor of the amount of systolic backward flow) and circumferentially-averaged axial and circumferential wall shear stress (WSS). Pulmonary artery diameters were measured on axial images. MPA dilation was defined as a diameter larger than 27 mm in women and 29 mm in men. Systolic (SBP) and diastolic (DBP) systemic blood pressure were measured at the brachial artery with a calibrated cuff immediately after the scan.

Results

Compared with HV, MFS patients presented similar age, BSA, SBP and maximum blood velocity, but had larger MPA diameter (27.8 vs 25.1 mm, p<0.001) and higher DBP (75.5 vs 66.8 mmHg, p=0.003). According to the used threshold, 45% (27) of MFS patients had MPA dilation. Compared with HV, Marfan patients presented an increased systolic flow reversal ratio in the proximal part of the MPA (Figure 1). In MFS patients axial WSS was reduced in central sections of the MPA, while the circumferential component was not difference with respect to HV. All these flow abnormalities were also present in the subset of 28 MFS patients without pulmonary artery dilation. In multivariable analysis, MPA diameter was independently related to age (B=0.056; p=0.032), sex (B=−2.3; p=0.02) and axial (B=6.4; p=0.039) and circumferential (B=33.9; p<0.001) WSS.

Figure 1

Conclusions

Dilation of the main pulmonary artery is prevalent in Marfan syndrome patients. Abnormal increase in systolic vortexes and reduction in axial WSS were present in dilated and non-dilated MPA in MFS patients. Axial and circumferential WSS were independently related to MPA diameter. The eventual predictive role of abnormal pulmonary flow pattern in pulmonary artery dilation in MFS patients remain to be established

Acknowledgement/Funding

Instituto de Salud Carlos III (PI14/0106), La Maratό de TV3 (20151330), CIBERCV and FP7/People (267128)

P1827Maximum systolic flow deceleration rate in the false lumen by 4D-flow MRI is associated with aortic dilatation in patients with chronic descending aorta dissection

Introduction

Patent false lumen (FL) in aortic dissection has been associated with poor prognosis mainly due to aortic expansion. Although morphologic variables have been related to aortic dilatation as expression of high pressure in the FL, they do not reflect flow characteristics. We propose the maximum systolic flow deceleration rate (MSDR) in the FL, quantified by 4Dflow, assuming that flow should be strongly decelerated during systole under high pressure.

Methods

Twenty-nine patients with a patent FL after aortic dissection (no Marfan syndrome) and with a follow-up of at least 3 years underwent a contrast-enhanced 4D-flow MR. FL acceleration was calculated during the cardiac cycle in a sub-volume of the descending aorta (5 cm around the level of the pulmonary bifurcation). MSDR was determined as the maximum minus the minimum acceleration in systole over the corresponding time interval (Figure 1a). Aortic growth rate (GR) was defined as the difference between final and initial aortic diameters obtained by angio-CT over the period of follow-up. Population was divided into tertiles based on GR.

Results

Demographic, clinical variables or basal aortic diameter did not show differences among GR groups (Table 1). MSDR was statistically different in patients with a GR <1mm/year (group 1) compared to fast-dilating patients (groups 2, 3) (Figure 1c). MSDR showed a positive linear correlation with GR resulting in a Pearson's correlation of 0.481 (p=0.008) (Figure 1b).

Table 1. Demographic and other variables Tertile 1 Tertile 2 Tertile 3 p-value Age (year) 63.4 (±13.5) 62.5 (±13.6) 64.6 (±6.7) 0.902 BSA (m2) 2.0 (±0.2) 1.8 (±0.2) 1.9 (±0.1) 0.213 Men 6 (86%) 4 (57%) 4 (100%) 0.210 Hypertension 4 (66%) 5 (71%) 4 (100%) 0.438 Atherosclerosis 1 (17%) 1 (14%) 0 (0%) 0.699 Initial diameter 45.0 (±7.69) 36.0 (±4.2) 37.0 (±6.5) 0.078 Final diameter 49.5 (±6.74) 44.9 (±5.7) 59.2 (±9.8) 0.049* Follow-up (year) 11.8 (±8.79) 7.9 (±3.3) 8.1 (±4.0) 0.921 Aortic GR (mm/year) 0.3 (±0.3) 1.2 (±0.3) 2.6 (±1.0) 0.001* MSDR (cm/s3) 1212 (±468) 2411 (±1034) 2558 (±1098) 0.005* Values are mean (±SD) or n (%).

Conclusion

MSDR of flow in the FL derived from 4D-flow RM is related to GR of dissected descending aorta. It is useful to discriminate mild vs. significant aorta enlargement and identify patients who may benefit from earlier therapy.

477Partial fusion of two aortic valve leaflets is related to alterations in ascending aorta flow: 4D flow CMR study

Introduction

Bicuspid aortic valve (BAV) is the most common congenital valve defect. It consists in the fusion of two aortic valve leaflets, and it is associated with a high prevalence of proximal aorta dilation. Dilation is highly prevalent (around 30%) in BAV patient relatives with a tricuspid valve (TAV) identified by echocardiography. However, the presence of partial aortic valve leaflet fusion (also called mini-raphe or forme fruste BAV, see figure 1A) is easily missed by echocardiography. A recent study reported that 44% of patients from a small cohort of BAV patient relatives with aortic dilation followed by CT showed mini-raphe.

Purpose

We aimed to use 4D flow CMR to assess if the presence of mini-raphe is associated with aortic flow alterations, which may be concurs in the etiology of aortic dilation in BAV patient relatives.

Methods

Twenty BAV patients first-degree relatives with partial fusion (<50%) of aortic valve leaflets and proximal aorta dilation were identified by CT or cine CMR and prospectively included. One-hundred twenty-five BAV and 95 patients with TAV from our prospective dataset of 4D flow CMR were included for comparison. Propensity score matching was used throughout the study to correct the comparisons between mini-raphe and BAV and mini-raphe and TAV patients for differences in age, maximum aortic diameter, sex, height, weight, proximal aortic pulse wave velocity and, only for BAV, fusion pattern. The hemodynamic parameters previously related to aortic dilation were computed. They were jet angle, normalized flow displacement and systolic flow reversal ratio (SFRR, identifying through-plane vortexes) were computed and compared in the ascending aorta and in the aortic arch.

Results

The presence of mini-raphe was statistically-significantly associated with increase in jet angle (Figure 1B), flow displacement (Figure 1C) and vortexes (Figure 1D) in most of the ascending aorta and aortic arch when mini-raphe patients were compared with TAV patients. The severity of flow asymmetry found in mini-raphe patients was lower than the one characteristic of BAV patients, but vortexes were even higher in a small region at the distal ascending aorta.

Figure 1

Conclusion

Partial fusion of the aortic valve leaflets is related to increase in proximal aorta flow eccentricity and vorticity. These flow abnormalities are not as marked as those associated with BAV. Data regarding prevalence of mini-raphe as evaluated with CT or cine CMR are needed, especially in familiar of BAV patients.

Acknowledgement/Funding

European FP7/People 267128; Spanish Ministry of Economy and Competitiveness RTC-2016-5152-1 and Instituto de Salud Carlos III PI14/0106

Vitamin D deficiency and clinical outcome in patients with chronic heart failure: A review

AIM

The aim of this review was to summarize evidence on the role of Vitamin D deficiency in heart failure (HF), from pathophysiological mechanisms to clinical effects of Vitamin D supplementation.

DATA SYNTHESIS

Chronic HF secondary to left ventricular (LV) systolic dysfunction is a growing health problem, still associated with poor clinical outcome. In recent years, experimental and epidemiological evidence focused on the role of Vitamin D in HF. Cross sectional studies demonstrated that prevalence of HF is increased in patients with Vitamin D deficiency or parathyroid hormone (PTH) plasma level increase, whereas longitudinal studies showed enhanced risk of developing new HF in patients with Vitamin D deficiency. In addition, in patients with established HF, low plasma levels of Vitamin D are associated with worsening clinical outcome. Yet, clinical studies did not definitively demonstrate a benefit of Vitamin D supplementation for preventing HF or ameliorating clinical outcome in patients with established HF.

CONCLUSIONS

Despite convincing experimental and epidemiological data, treatment with Vitamin D supplementation did not show clear evidence of benefit for preventing HF or influencing its clinical course. Ongoing clinical studies will hopefully shed lights on the effects of Vitamin D supplementation on clinical endpoints along the spectrum of HF.