Tricuspid Aortic Valve Research Articles

Aortic root reimplantation in patients with bicuspid and tricuspid aortic valve: a systematic review

Aortic root reimplantation in patients with bicuspid and tricuspid aortic valve: a systematic review

Long-Term Durability of Transcatheter Aortic Valve Prostheses in Patients With Bicuspid Versus Tricuspid Aortic Valve.

Currently, there is a lack of evidence for the long-term bioprosthetic valve durability of patients with bicuspid aortic valve (BAV) following transcatheter aortic valve replacement (TAVR). This study aimed to evaluate hemodynamic outcome, structural valve deterioration, and bioprosthetic valve failure during long-term follow-up after TAVR in patients with BAV versus patients with tricuspid aortic valve (TAV). Patients with BAV and TAV who underwent TAVR between 2012 and 2020, with echocardiography followed for at least 3 years, were included. Baseline characteristics, long-term valve hemodynamic performance, structural valve deterioration, and bioprosthetic valve failure were compared between patients with BAV and TAV. A total of 170 patients with BAV and 145 patients with TAV were included. The mean duration of follow-up for patients with BAV and TAV was 5.2±1.8 and 5.0±1.7 years. No significant differences were observed in the rates of structural valve deterioration and bioprosthetic valve failure between patients with BAV and TAV: structural valve deterioration, BAV 20 (11.8%) versus TAV 16 (11.0%) at last follow-up (P=0.861); bioprosthetic valve failure, BAV 3 (1.8%) versus TAV 7 (4.8%) at last follow-up (P=0.196). More than moderate intravalvular aortic regurgitation (1.8% versus 4.8%, P=0.196) and paravalvular leak (6.5% versus 3.4%, P=0.305) were rare in both patients with BAV and patients with TAV. This study indicated satisfactory long-term valve durability of TAVR in patients with BAV. Comparable hemodynamic outcome, structural valve deterioration, and bioprosthetic valve failure could be achieved in patients with BAV and TAV during long-term follow-up after TAVR.

Myocardial remodelling in bicuspid aortic valve associated severe aortic stenosis and reverse remodelling after aortic valve replacement

Abstract Background Bicuspid aortic valve (BAV) is a common congenital heart disease and a major risk factor for aortic stenosis (AS). Myocardial remodelling response to AS plays an important prognostic role1. Cardiovascular magnetic resonance (CMR) can evaluate myocardial structure, function and perfusion in AS. Phosphorus magnetic resonance spectroscopy (31P-MRS) can also assess myocardial energetic consequences of AS2. Purpose Assess differences in myocardial remodelling between tricuspid aortic valve (TAV) and BAV-associated severe-AS, and their recovery 6 months post aortic valve replacement (AVR). Methods Eighty severe-AS patients (70[69-72]years) undergoing AVR (40 TAV, 40 BAV) and 21 demographically-matched controls were recruited. AS groups were matched for demographics, AS severity, surgical risk scores and comorbidities. One month before and 6 months post-AVR, patients underwent CMR and 31P-MRS for measuring left ventricular (LV) mass, concentricity-index (LV mass to LV end-diastolic volume ratio), global longitudinal shortening (GLS), rest and adenosine-stress myocardial blood flow (MBF), myocardial perfusion reserve (MPR) and energetics-index phosphocreatine to ATP ratio (PCr/ATP). Results Pre-AVR, there was no significant differences between the three cohorts when assessing LV ejection fraction, indexed LV end-diastolic volume and indexed end-systolic volume. Pre-AVR, both AS groups showed higher LV-concentricity (controls:0.53[0.51,0.60], TAV:0.95[0.82,1.07], BAV:0.92[0.82,1.08]g/ml;P<0.0001), higher mass-index (controls:45[39,50], TAV:73[67,78], BAV:74[68,80]g/m2;P<0.0001), impaired GLS (controls:18.8[16.5,19.5], TAV:12.6[11.3,13.9], BAV:13.6[10.9,16.6]%;P<0.0001). Reductions in both AS groups were also seen in PCr/ATP (controls:2.19[1.85,2.63], TAV:1.64[1.39,1.85], BAV:1.85[1.60,2.10];P=0.0004), stress-MBF (controls:2.16[1.88,2.27], TAV:1.35 [1.16,1.56], BAV:1.36[1.00,1.66]ml/min/g;P<0.0001), and MPR (controls:3.38[2.65,3.92], TAV:2.04 [1.78,2.46], BAV:1.83[1.58,2.78]ml/min/g;P<0.0001) against controls, with no significant differences between TAV and BAV. No significant difference was seen in the proportion of patients with TAV and BAV undergoing transcatheter or surgical AVR (table1). Post-AVR, the TAV and BAV groups experienced similar patterns of reverse LV-remodelling, with no significant differences in LV-concentricity (TAV:0.86[0.71,0.98], BAV:0.81[0.65,0.96];P=0.41), LV-mass-index (TAV:60[54,65], BAV:61[55,66];P=0.81), GLS (TAV 15.4[13.6,17.9], BAV 16.3[12.8,18.1];P=0.82. Perfusion and cardiac energetic improvements were also similar between the AS cohorts: PCr/ATP (TAV:1.96[1.68,2.26], BAV:1.96[1.79,2.13];P=0.91), stress-MBF (TAV:1.63[1.37,1.97], BAV:1.56[1.25,1.97];P=0.86), and MPR (TAV:2.64[1.91,3.26], BAV:2.55[2.07,3.28];P=0.70). Conclusions Patients with severe AS irrespective of BAV or TAV morphology, show a similar myocardial phenotype pre-AVR, with similar magnitudes of reverse remodelling post-AVR.

Differences between stenotic bicuspid and tricuspid aortic valves: a histological comparison

Abstract Background Aortic valve stenosis is a narrowing of the aortic valve opening due to leaflet calcification and thickening. Thickening of the leaflets involves the original leaflet but also the presence of a superimposed tissue (SIT), defined as an extra layer of tissue on top of the original leaflet which has been shown to form mainly in response to mechanical stress. Patients with bicuspid aortic valve (BAV) are known to be at higher risk of developing aortic stenosis and at an early age as compared to patients with tricuspid aortic valves (TAV). However to date, no systematic histo-morphometric comparison has been made between BAV and TAV in order to unravel potential difference in the underlying mechanisms of valve degeneration. Purpose Aim of this study was to compare the extent and distribution of calcifications and SIT between stenotic BAV and TAV. Methods BAV (n=14) and TAV (n=12) samples were collected from patients undergoing aortic valve replacement due to aortic stenosis. Of each patient, at least one leaflet was used for analyses, for a total of 27 BAV leaflets and 17 TAV leaflets. Samples were fixed in 4% paraformaldehyde solution, and sectioned in the midline of the leaflet. In case of a leaflet with raphe, the leaflet was sectioned in the midline between the raphe and the commissure side of the leaflet. Sections were stained for elastin fibers using Weighert’s Resorcin Fuchsin. Thickness of the leaflets was calculated by dividing the cross sectional area by the length of the leaflet. Calcifications were visualized using Alizarin Red staining and quantified as a percentage of the total cross sectional area of one section. SIT was defined as an extra layer of tissue outside the elastin lamina (Figure). Results BAV samples showed in average thicker leaflets as compared to TAV (1.92 vs 1.31 mm, p <0.001). Although the thickness of the original leaflet was the same between the two groups, SIT formation was significantly thicker in the BAV as compared to TAV (0.67 vs 0.30 mm, p <0.001). This difference was mostly due to a significant thicker SIT in the free edge of BAV samples as compared to TAV (0.78 vs 0.39 mm, p=0.003), while the SIT at the level of the leaflet body was comparable between the two groups. The percentage of leaflet calcification was similar between BAV and TAV (23% vs 20% respectively, p=0.669). Interestingly, while calcification in TAV samples was observed only on the aortic side, in BAV samples calcification was also observed on the ventricular side (n=5; 36% Figure). Conclusions BAV showed thicker leaflets as compared to TAV due to a larger contribution of SIT formation particularly at the free edge. Extent of calcification was similar between BAV and TAV but calcification at the ventricular side of the leaflets was found only in BAV samples. These observations suggest significant differences in the mechanisms underlying BAV and TAV pathology possibly in relation to distinct mechanical stress.

Association between silent cerebral embolism and cognitive alterations following transcatheter aortic valve replacement in bicuspid versus tricuspid aortic valve patients

Abstract Background Silent cerebral ischemic lesions (SCILs) is a common magnetic resonance imaging (MRI) finding in severe aortic stenosis patients post - transcatheter aortic valve replacement (TAVR). We evaluated the association between SCILs and cognitive alterations in patients with bicuspid aortic valve (BAV) versus tricuspid aortic valve (TAV) post-TAVR. Methods This study enrolled 100 consecutive TAVR (45 with BAV and 55 TAV). DW-MRI and neurocognitive evaluation (MoCA score) were performed at baseline, discharge, and 1- and 12-month post-discharge. Results Ninety-two out of the 100 patients (92%) exhibited cognitive dysfunction at baseline. Post-TAVR, overall cognitive function significantly improved, the average MOCA score increased from 18.69±6.74 to 22.18±6.30. During the 1-year follow-up, 54 patients demonstrated improved cognitive function, and the number of patients with moderate-to-severe cognitive dysfunction (MoCA score < 18) significantly decreased from 32 to 16. Prevalence of SCILs was 14% and 72% at baseline and discharge, respectively. New SCILs were observed in 60 patients at discharge, distributed across all vascular territories, averaging 4 lesions with a total volume of 215.4±195.4mm3. Although no significant correlation existed between total volume of new SCILs and cognitive changes post-TAVR (R=-0.133, p=0.206), patients with SCILs still displayed significant cognitive improvement (MoCA score from 18.4±6.6 to 22.0±7.1), whereas patients who developed large SCILs (lesion diameter >9) showed less improvement compared to those with small or median SCILs (number of patients who had cognitive improvement: 32 vs. 52, p<0.05). Cognitive function improvement post-TAVR did not significantly differ between BAV and TAV patients, MoCA scores were comparable (BAV group, n=45, from 18.63±6.68 to 21.88±6.80 vs. TAV group, n=55, from 18.73±6.81 to 22.42±5.80; p>0.05). DW-MRI revealed more new SCILs in BAV patients post-TAVR compare to TAV patients (235 lesions vs. 150 lesions, respectively). In BAV patients, SCILs primarily manifested in small and medium sizes (224 lesions), despite more severe calcification (valvular calcium volume 956.5±644.0 mm vs. 634.4±508.0 mm3; p=0.028). The number of large lesions was similar in the two groups (11 in BAV group and 10 in TAV group). Conclusion TAVR demonstrates positive effects on improving cognitive function in aortic stenosis patients, despite common occurrence of SCILs in both BAV and TAV patients. Cognitive function post-TAVR was comparable between BAV and TAV patients. The cognitive improvement from TAVR may be less impacted by small- and medium-sized SCILs, while severe SCILs might impede or diminish the cognitive benefits of TAVR.table

Inter-ethnic heterogeneity in valvular morphology and aortopathy of a worldwide bicuspid aortic valve cohort referred for TAVR

Abstract Background Bicuspid aortic valve (BAV) represents one of the most common congenital heart disease. BAV stenosis tipycally occurs in younger, low-surgical risk patients compared to tricuspid aortic valves (TAV). With the predicted expansion of trans-catheter aortic valve replacement (TAVR) into lower-risk patients, the proportion of BAV is expected to rise. Although some observational studies have investigated the characteristics of Asian versus European patients with BAV undergoing TAVR, little is known about the inter-ethnic differences within the large and diverse Asian, African, Russian, and Caucasian population. Purpose To evaluate the inter-ethnic differences of aortic valve morphology, annular size and associated aortopathy, in a worldwide population of patients with severe aortic stenosis referred for TAVR. Methods Cardiovascular multislice computed tomography data of patients with severe aortic valve stenosis referred for TAVR worldwide were obtained from the database of the Meril Life Core Lab. Inter-ethnic and epidemiological differences in terms of valvular phenotype, annular size and aortic morphology were evaluated with particular focus on patients with BAV. Results Among 12,712 patients (59% male), n=3,203 subjects (25%) exhibited a BAV morphology. According to the Siever’s BAV classification, type 1 (71%, n=2,284) was the most prevalent BAV morphology and particularly Type 1a was the most common in almost all population, with 26% exhibiting a type 0 BAV, while only 3% of the patients (n= 92) had a type 2 (Table 1). A significantly higher prevalence of severe calcium score (>1000 mm3) was found in patients with BAV compared with patients exhibiting a TAV morphology (51% vs. 32, p<0.01). Additionally, larger ascending aorta (AA) diameter (AA >40 mm) (BAV: 31% vs TAV 7%, p = 0.04), along with a higher prevalence of horizontal aorta (HA) (BAV: 20% vs TAV: 9%, p<0.01) was found in patients with BAV compared with TAV. As for inter-ethnic characteristics, there was a higher prevalence of BAV in Indian and Asian Pacific populations (respectively 43% and 28%), with the African population exhibiting the lowest prevalence (7%, n= 28, p=0.02) (Table 2). In Indian patients a higher prevalence of BAV was found in an earlier age (61-70 years old) compared to Western countries (p=0.05). Finally, smaller annular size (456±98 mm2 vs 584±99 mm2, p<0.01) and lower coronary ostia height (Asia and India: RCA 14.5±3 mm, LCA 14±2.9mm vs Caucasian and Russian: RCA 16±3.2 mm, LCA 16.9±3.3mm; p<0.01) were found in the Asian and Indian population when compared with Russian, African and Caucasian subjects. Conclusions BAV morphology, aortopathy and annular size resulted widely heterogenous according to the ethnicity and geographical origin of patients referred for TAVR worldwide. These features may lead different therapeutical decision making and outcomes following TAVR in patients with BAV.Table 1Table 2

Conduction Disturbances and Outcome After Surgical Aortic Valve Replacement in Patients With Bicuspid and Tricuspid Aortic Stenosis.

This study aimed to compare the incidence and prognostic implications of new-onset conduction disturbances after surgical aortic valve replacement (SAVR) in patients with bicuspid aortic valve (BAV) aortic stenosis (AS) versus patients with tricuspid aortic valve (TAV) AS (ie, BAV-AS and TAV-AS, respectively). Additionally, the study included stratification of BAV patients according to subtype. In this cohort study, the incidence of postoperative third-degree atrioventricular (AV) block with subsequent permanent pacemaker requirement and new-onset left bundle-branch block (LBBB) was investigated in 1147 consecutive patients without preoperative conduction disorder who underwent isolated SAVR (with or without ascending aortic surgery) between January 1, 2005, and December 31, 2022. The groups were stratified by aortic valve morphology (BAV, n=589; TAV, n=558). The outcomes of interests were new-onset third-degree AV block or new-onset LBBB during the index hospitalization. The impact of new-onset postoperative conduction disturbances on survival was investigated in BAV-AS and TAV-AS patients during a median follow-up of 8.2 years. BAV morphology was further categorized according to the Sievers and Schmidtke classification system (possible in 307 BAV-AS patients) to explore association between BAV subtypes and new-onset conduction disturbances after SAVR. The overall incidence of third-degree AV block and new-onset LBBB after SAVR was 4.5% and 7.8%, respectively. BAV-AS patients had a higher incidence of both new-onset third-degree AV block (6.5% versus 2.5%; P=0.001) and new-onset LBBB (9.7% versus 5.7%; P=0.013) compared with TAV-AS patients. New-onset LBBB was associated with an increased all-cause mortality during follow-up (adjusted hazard ratio, 1.60 [95% CI, 1.12-2.30]; P=0.011), whereas new-onset third-degree AV block was not associated with worse prognosis. Subgroup analysis of the BAV cohort revealed that BAV-AS patients with fusion of the right- and non-coronary cusps had the highest risk of new-onset third-degree AV block (adjusted odds ratio [aOR], 8.33 [95% CI, 3.31-20.97]; P<0.001, with TAV as reference group) and new-onset LBBB (aOR, 4.03 [95% CI, 1.84-8.82]; P<0.001, with TAV as reference group), whereas no significant association was observed for the other BAV subtypes. New-onset LBBB after SAVR is associated with increased all-cause mortality during follow-up, and is more frequent complication in BAV AS patients compared with TAV-AS patients. BAV-AS patients with fusion of the right- and non-coronary cusps have an increased risk for conduction disturbances after SAVR. This should be taken into consideration when managing these patients.

Effect of aortic valve phenotype and sex on aorta dilation in patients with aortic stenosis

BackgroundBicuspid aortic valve (BAV) is often associated with a concomitant aortopathy. However, few studies have evaluated the effect of the aortic valve (AV) phenotype on the rate of dilation of...

Bicuspid Valve Aortopathy: Is It Reasonable to Define a Different Surgical Cutoff Based on Different Aortic Wall Mechanical Properties Compared to Those of the Tricuspid Valve?

In this study, we examined and compared ex vivo mechanical properties of aortic walls in patients with bicuspid (BAV) and tricuspid (TAV) aortic valve aortopathy to investigate if the anatomical peculiarities in the BAV group are related to an increased frailty of the aortic wall and, therefore, if a different surgical cutoff point for ascending aortic replacement could be reasonable in such patients. Ultimate stress tests were performed on fresh aortic wall specimens harvested during elective aortic surgery in BAV (n. 33) and TAV (n. 77) patients. Three mechanical parameters were evaluated at the failure point, under both longitudinal and circumferential forces: the peak strain (Pstr), peak stress (PS), and maximum elastic modulus (EM). The relationships between the three mechanical parameters and preoperative characteristics were evaluated, with a special focus on evaluating potential risk factors for severely impaired mechanical properties, cumulatively and comparatively (BAV vs. TAV groups). The patient populations were inhomogeneous, as BAV patients reached surgical indication, according to the maximum aortic dilatation, at a younger age (58 ± 15 vs. 64 ± 13; p = 0.0294). The extent of the maximum aortic dilatation was, conversely, similar in the two groups (52 ± 4 vs. 54 ± 7; p = 0.2331), as well as the incidences of different phenotypes of aortic dilatation (with the ascending aorta phenotype being the most frequent in 81% and 66% of the BAV and TAV patients, respectively (p = 0.1134). Cumulatively, the mechanical properties of the aortic wall were influenced mainly by the orientation of the force applied, as both PS and EM were impaired under longitudinal stress. An age of >66 and a maximum dilatation of >52 mm were shown to predict severe Pstr reduction in the overall population. Comparative analysis revealed a trend of increased mechanical properties in the BAV group, regardless of the position, the force orientation, and the phenotype of the aortic dilatation. BAV aortopathy is not correlated with impaired mechanical properties of the aortic wall as such. Different surgical cutoff points for BAV aortopathy, therefore, seem to be unjustified. An age of >66 and a maximum aortic dilatation of >52 mm, however, seem to significantly influence the mechanical properties of the aortic wall in both groups. These findings, therefore, could suggest the need for more accurate monitoring and evaluation in such conditions.

'Color Doppler stripes’ make it difficult to diagnose the severity of valvular heart diseases: a report of two cases

BackgroundEchocardiography remains the reference-standard imaging technique for assessing valvular heart disease (VHD), but artifacts like the ‘color Doppler stripe’ can complicate diagnosis. This artifact is not widely recognized and can mimic severe VHD, leading to potential misdiagnoses. We present two cases where color Doppler stripes mimicked severe VHD, highlighting the need for awareness and accurate interpretation in echocardiographic assessments.Case presentationsCase 1: An 85-year-old patient was referred for mitral valve surgery due to suspected severe mitral regurgitation (MR). Upon evaluation, transthoracic echocardiography (TTE) showed mitral valve prolapse (P3) and a high-echoic, vibrating structure attached to the mitral valve, indicative of chordal rupture. Color Doppler echocardiography revealed strong systolic signals in the left atrium, mimicking severe MR. Transesophageal echocardiography (TEE) also detected the vibrating structure and color Doppler stripes in the left atrium, left ventricle, and outside the cardiac chambers. The PISA method on TEE indicated moderate MR and left ventriculography showed Sellers grade II MR. The artifact was identified as color Doppler stripes caused by the vibrating high-echoic structure from the ruptured chorda. Case 2: A 64-year-old patient with severe aortic stenosis, end-stage kidney disease requiring hemodialysis, and a history of coronary bypass grafting presented for routine follow-up. B-mode echocardiography showed a severely calcified tricuspid aortic valve with a vibrating calcified nodule and restricted opening, corresponding to severe aortic stenosis. During systole, color Doppler signals were observed around the aortic, pulmonary, and tricuspid valves, mimicking significant pulmonary stenosis and tricuspid regurgitation. However, pulmonary stenosis was ruled out as the pulmonary valve opening was normal. Mild tricuspid regurgitation was confirmed in the apical view.ConclusionsThese cases highlight the diagnostic challenges posed by color Doppler stripes. Recognizing and understanding this artifact are crucial for the accurate diagnosis and management of VHD, ensuring appropriate treatment and patient outcomes.

Rationale and design of the SPREAD study: Sport Practice and its Effects on Aortic Size and Valve Function in Bicuspid Aortic Valve Disease.

The bicuspid aortic valve (BAV) is the most common congenital heart defect among adults, often leading to severe valve dysfunction and aortic complications. Despite its clinical significance, uncertainties persist regarding the impact of sports participation on the natural course of BAV disease. The SPREAD (Sport PRactice and its Effects on Bicuspid Aortic valve Disease) study is a multicenter and multinational project designed to investigate this relationship. This paper outlines the study's design, and objectives. The study is divided into two phases; phase one involves a cross-sectional analysis comparing aortic dimensions and valve function among competitive athletes with BAV, athletes with tricuspid aortic valves (TAV), and sedentary individuals with BAV. The second phase is a prospective, longitudinal follow-up aiming to evaluate the impact of regular sports training on disease progression. The SPREAD study seeks to provide evidence-based insights into the effects of sports participation on BAV disease progression, guiding clinical decision-making regarding sports eligibility and risk stratification for individuals with BAV.

Sport PRactice and its Effects on aortic size and valve function in bicuspid Aortic valve Disease: a cross-sectional report from the SPREAD study

ObjectiveConcerns exist about the possible detrimental effects of exercise training on aortic size and valve function in individuals with bicuspid aortic valve (BAV). This multicentre international study aimed to determine...

Indexed aortic valve area using multimodality imaging for assessing the severity of bicuspid aortic stenosis

BackgroundThe impact of various imaging modalities on discordance/concordance between indexed aortic valve area (iAVA) and catheterization-derived mean transaortic pressure gradient (mPGcath) is unclear in patients with bicuspid aortic valve (BAV). This study aimed to compare iAVA measurements obtained using four different methodologies in BAV and tricuspid aortic valve (TAV) patients, using mPGcath as a reference standard. MethodsWe retrospectively reviewed patients who underwent comprehensive assessment of AS, including two-dimensional (2D) transthoracic echocardiography (TTE), three-dimensional (3D) transesophageal echocardiography (TEE), multidetector computed tomography (MDCT), and catheterization, at our institution between 2019 and 2022. iAVA was measured using the continuity eq. (CE) with left ventricular outflow tract area obtained by 2D TTE, 3D TEE, and MDCT, as well as planimetric 3D TEE. Results and ConclusionsAmong 564 patients (64 with BAV and 500 with TAV), 64 propensity-matched pairs of patients with BAV and TAV were analyzed. iAVACE(2DTTE) led to overestimation of AS severity (BAV, 23.4%; TAV, 28.1%) and iAVACE(MDCT) led to underestimation of AS severity (BAV, 29.3%; TAV, 16.7%), whereas iAVACE(3DTEE) and iAVAPlani(3DTEE) resulted in a reduction in the discordance of AS grading. A moderate correlation was observed between mPGcath and iAVACE(3DTEE) (BAV, r = −0.63; TAV, r = −0.68), with iAVACE(3DTEE) corresponding to the current guidelines' cutoff value (BAV, 0.58 cm2/m2; TAV, 0.60 cm2/m2). Discordance/concordance between iAVA and mPGcath in evaluating AS severity varies depending on the methodology and imaging modality used. The use of iAVACE(3DTEE) is valuable for reconciling the discordant AS grading in BAV patients as well as TAV.

From Biomechanical Properties to Morphological Variations: Exploring the Interplay between Aortic Valve Cuspidity and Ascending Aortic Aneurysm.

Background: This research explores the biomechanical and structural characteristics of ascending thoracic aortic aneurysms (ATAAs), focusing on the differences between bicuspid aortic valve aneurysms (BAV-As) and tricuspid aortic valve aneurysms (TAV-As) with non-dilated aortas to identify specific traits of ATAAs. Methods: Clinical characteristics, laboratory indices, and imaging data from 26 adult patients operated on for aneurysms (BAV-A: n = 12; TAV-A: n = 14) and 13 controls were analyzed. Biomechanical parameters (maximal aortic diameter, strain, and stress) and structural analyses (collagen fiber organization, density, fragmentation, adipocyte deposits, and immune cell infiltration) were assessed. Results: Significant differences in biomechanical parameters were observed. Median maximal strain was 40.0% (control), 63.4% (BAV-A), and 45.3% (TAV-A); median maximal stress was 0.59 MPa (control), 0.78 MPa (BAV-A), and 0.48 MPa (TAV-A). BAV-A showed higher tangential modulus and smaller diameter, with substantial collagen fragmentation (p < 0.001 vs. TAV and controls). TAV-A exhibited increased collagen density (p = 0.025), thickening between media and adventitia layers, and disorganized fibers (p = 0.036). BAV-A patients had elevated adipocyte deposits and immune cell infiltration. Conclusions: This study highlights distinct pathological profiles associated with different valve anatomies. BAV-A is characterized by smaller diameters, higher biomechanical stress, and significant collagen deterioration, underscoring the necessity for tailored clinical strategies for effective management of thoracic aortic aneurysm.

Comprehensive imaging evaluation of the aortic valve and root before aortic root surgery: a study comparing MDCT and TEE

ObjectiveTo investigate the accuracy and consistency of MDCT and TEE in the preoperative assessment of aortic root surgery.MethodsFrom January 2021 to September 2022, 118 patients who underwent aortic root surgery were included in this study. All patients underwent high-quality preoperative MDCT and TEE examinations, and the examination results were independently measured and assessed by two senior radiologists or ultrasound specialists. Bland–Altman analysis and Pearson correlation testing were employed to assess the correlation and consistency between MDCT and TEE. These analyses were then compared with actual intraoperative measurement data.ResultsAmong all the patients, 73 (61.86%) had tricuspid aortic valve (TAV), and 45 (38.14%) had bicuspid aortic valve (BAV). A comparison between the TEE and MDCT measurements showed that for the annulus diameter, the area-derived diameter had the best correlation and agreement. For the sinus of Valsalva diameter, the circumference-derived diameter was optimal. However, for the STJ diameter, the minimum cross-sectional diameter showed the best agreement with TEE. In contrast, measurements of geometric height showed a weaker correlation and agreement.ConclusionContrast-enhanced MDCT can be a valuable tool for perioperative evaluation in aortic root surgery, with good correlation, consistency, and feasibility when compared to TEE. The choice of MDCT measurement methodology, specifically area-derived and circumference-derived diameter, proved to be more accurate than other methods. Further research is required to enhance the understanding of aortic valve repair and associated imaging techniques.

Smooth muscle cell phenotypic switching occurs independent of aortic dilation in bicuspid aortic valve-associated ascending aortas.

Bicuspid aortic valves (BAV) are frequently associated with ascending aortic aneurysms. The etiology is incompletely understood, but genetic factors, in addition to flow perturbations, are likely involved. Since loss of contractility and elaboration of extracellular matrix in the vessel wall are features of BAV-associated aortopathy, phenotypic modulation of smooth muscle cells (SMCs) may play a role. Ascending aortic tissue was collected intra-operatively from 25 individuals with normal (i.e., tricuspid) aortic valves (TAV) and from 25 individuals with BAVs. For both TAV and BAV, 10 patients had non-dilated (ND) and 15 patients had dilated (D) aortas. SMCs were isolated and cultured from a subset of patients from each group. Aortic tissue and SMCs were fluorescently immunolabeled for SMC phenotypic markers (i.e., alpha-smooth muscle actin (ASMA, contractile), vimentin (synthetic) and p16INK4a and p21Cip1 (senescence). SMCs were also analyzed for replicative senescence in culture. In normal-sized and dilated BAV aortas, SMCs switched from the contractile state to either synthetic or senescent phenotypes, as observed by loss of ASMA (ND: P = 0.001, D: P = 0.002) and associated increases in vimentin (ND: P = 0.03, D: P = 0.004) or p16/p21 (ND: P = 0.03, D: P<0.0001) compared to TAV. Dilatation of the aorta exacerbated SMC phenotypic switching in both BAV and TAV aortas (all P<0.05). In SMCs cultured from normal and dilated aortas, those isolated from BAV reached replicative senescence faster than those from TAV aortas (all P = 0.02). Furthermore, there was a stark inverse correlation between ASMA and cell passage number in BAV SMCs (ND: P = 0.0006, D: P = 0.01), but not in TAV SMCs (ND: P = 0.93, D: P = 0.20). The findings of this study provide direct evidence from cell culture studies implying that SMCs switch from the contractile state to either synthetic or senescent phenotypes in the non-dilated BAV aorta. In cultured SMCs from both non-dilated and dilated aortas, we found that this process may precede dilatation and accompany aneurysm development in BAV. Our findings suggest that therapeutically targeting SMC phenotypic modulation in BAV patients may be a viable option to prevent or delay ascending aortic aneurysm formation.

Four-dimensional computed tomography analysis of bicuspid aortic valves

ObjectivesTo evaluate the role of 4-dimensional (4D; 3-dimensional [3D] + time) analysis using multiphase cardiac computed tomography (MCCT) in the description of the aortic annulus (AA) of bicuspid aortic valves (BAV) with regard to the latest expert consensus classification. MethodsElectrocardiography-gated MCCT of 15 patients with BAV were analyzed using in-house software and compared to 15 patients with normal tricuspid aortic valve (TAV). The AA border was pinpointed on 9 reconstructed planes, and the 3D coordinates of the 18 consecutive points were interpolated in 3D using a cubic spline to calculate 3D areas, perimeters, diameters, eccentricity indexes, and global height. Measurements were repeated throughout the cardiac cycle (10 phases). Three additional planes were generated at the level of the left ventricular outflow tract (LVOT), the sinus of Valsalva, and the sinotubular junction. ResultsThe annulus area was significantly larger in BAV compared to TAV (mean indexed 3D area, 5.64 ± 0.84 cm2/m2 vs 4.3 ± 0.38 cm2/m2, respectively; P < .001). The AA was also larger in BAV in terms of perimeter, diameters, and height (P < .001). The Valsalva sinuses and sinotubular junction also were significantly larger in BAV compared to TAV (mean area in end-diastole, 6.06 ± 1.00 cm2 vs 4.69 ± 1.00 cm2 [P < .001] and 5.13 ± 1.62 cm2 vs 3.62 ± 0.99 cm2 [P < .001], respectively). In BAV, 3D AA shape analysis helps distinguish the 3 types of BAV: the 2-sinus type (symmetrical), the fused type, and the partial-fusion type or “form fruste” (both asymmetrical). It also allows determination of the position and height of the nonfunctional commissure. In symmetrical BAV, the nonfunctional commissure was significantly lower than the other commissures (6.01 ± 4.27 mm vs 18.24 ± 3.20 mm vs 17.15 ± 3.60 mm; P < .001), whereas in asymmetrical BAV, the 3 commissures were of comparable height (16.38 ± 0.86 mm vs 15.88 ± 1.69 mm vs 15.37 ± 0.88 mm; P = .316). There was no difference in AA eccentricity indices between TAV and BAV in all phases of the cardiac cycle; however, there was a spectrum of ellipticity for the other components of the aortic root among the different types of valves: going from TAV to asymmetrical BAV to symmetrical BAV, at end-diastole, the LVOT became more circular and the sinuses of Valsalva became more elliptical. Conclusions3D morphometric analysis of the BAV using MCCT allows identification of the type of BAV and the position and height of the nonfunctional commissure. There are significant differences in the morphology of the aortic root between TAV and the different types of BAV. Further studies are needed to evaluate the impact of 3D analysis on the procedural planning for pathologic BAV.

The Impact of Bicuspid Aortic Valve on Long-term Outcomes After Bioprosthetic Valve Replacement

BackgroundThere are limited data comparing the outcomes of aortic valve replacement surgery between patients with bicuspid aortic valve (BAV) vs tricuspid aortic valve (TAV) morphology. MethodsFrom January 2000 to June 2022, 1122 patients with TAV (n = 562) or BAV (n = 560) underwent surgical aortic valve replacement for aortic stenosis with the same type of bovine pericardial stented bioprosthesis. Propensity score matching identified 350 pairs by matching for age, sex, operative status, chronic lung disease, prior stroke, diabetes, ejection fraction, renal failure on dialysis, coronary artery disease, prior cardiac surgery, and concomitant procedures. The primary end points were long-term survival and reoperation. ResultsPerioperative outcomes, including reoperation for bleeding, atrial fibrillation, heart block requiring pacemaker, stroke, need for dialysis, and operative mortality, were similar between the matched groups. Survival at 10 years was 67% (95% CI, 59%-74%) in the BAV group and 54% (95% CI, 46%-61%) in the TAV group (P = .001). BAV valve was a significant protective factor for late mortality, with a hazard ratio of 0.60 (95% CI, 0.45-0.81; P < .001). Risk factors for late mortality included age, chronic lung disease, low ejection fraction, and renal failure on dialysis. Cumulative incidence of aortic valve reintervention at 10 years was similar between the groups at 10% in the BAV group and 4.9% in the TAV group (P = .55). ConclusionsPatients with BAV likely could not be considered the same as patients with TAV when deciding on the approach of aortic valve intervention.

Transcatheter aortic valve replacement in China - a review of the available evidence.

This paper discusses aortic stenosis (AS) in China, emphasising the role of transcatheter aortic valve replacement (TAVR) in treating AS in an ageing population. AS characteristics, its treatment and the clinical outcomes of transfemoral TAVR in Chinese patients are described via a systematic review. AS affects >1% of the Chinese population aged ≥65 years, with degenerative AS predominating over rheumatic AS among this age group. Chinese patients often have high aortic valve (AV) calcification with bicuspid AV morphology. In 2021, 38,000 surgical aortic valve replacements (SAVR) were reported in China, while the number of TAVR increased from 293 in 2017 to 7,357 in 2021. There are four self-expanding valves and one balloon-expandable SAPIEN 3 valve available in China. Among them, the Venus A-Valve is the most studied and widely used, whereas limited data are available for VitaFlow, TaurusOne, and SAPIEN 3. Notably, 10.0-16.5% of Venus A-Valve recipients and 0.2% of SAPIEN 3 recipients required multiple valve implantations. The rates of 30-day paravalvular leakage were 0-11.7%/0% for Venus A-Valve, 2.0%/0% for VitaFlow, and 0%/0% for SAPIEN 3, for moderate and severe leakage, respectively. Thirty-day all-cause mortality rates were 3.7-10.0% for Venus A-Valve, 0.9% for VitaFlow, and 0-3.2% for SAPIEN 3. One-year all-cause mortality rates were 5.9-13.6% for Venus A-Valve, 0-4.5% for VitaFlow, 6.7% for TaurusOne, and 6.2% for SAPIEN 3. The Venus A-Valve indicated lower 30-day permanent pacemaker implantation (PPI) rates (7.4-20.5%) than VitaFlow and TaurusOne. Outcomes for patients with bicuspid or tricuspid aortic valves were similar. AS is rising among the elderly Chinese population; SAVR is common, and TAVR is increasing. Limited device comparisons exist, but the Venus A-Valve seems to have lower PPI rates, and SAPIEN 3 has low 30-day mortality in China.

Computational study of transcatheter aortic valve replacement based on patient-specific models-rapid surgical planning for self-expanding valves.

Transcatheter aortic valve replacement (TAVR) is a minimally invasive interventional solution for treating aortic stenosis. The complex post-TAVR complications are associated with the type of valve implanted and the position of the implantation. The study aimed to establish a rapid numerical research method for TAVR to assess the performance differences of self-expanding valves released at various positions. It also aimed to calculate the risks of postoperative paravalvular leak and atrioventricular conduction block, comparing these risks to clinical outcomes to verify the method's effectiveness and accuracy. Based on medical images, six cases were established, including the aortic wall, native valve and calcification; one with a bicuspid aortic valve and five with tricuspid aortic valves. The parameters for the stent materials used by the patients were customized. High strain in the contact area between the stent and the valve annulus may lead to atrioventricular conduction block. Postoperatively, the self-expanding valve maintained a circular cross-section, reducing the risk of paravalvular leak and demonstrating favorable hemodynamic characteristics, consistent with clinical observations. The outcomes of the six simulations showed no significant difference in valve frame morphology or paravalvular leak risk compared to clinical results, thereby validating the numerical simulation process proposed for quickly selecting valve models and optimal release positions, aiding in TAVR preoperative planning based on patients'geometric characteristics.