Mitral Valve Morphology Research Articles

Diagnostic capabilities of cardiac computed tomography in the preoperative diagnosis of hypertrophic cardiomyopathy

BACKGROUND: A comprehensive approach to studying hypertrophic cardiomyopathy with diagnostic equipment and the latest scanning methods will ensure quality control and effective treatment of patients with this condition. The implementation of innovative technologies and computer calculation using next-generation scanners may become relevant and promising in studying various phenotypes of left ventricular remodeling in combination with abnormalities of the chordopapillary apparatus of the mitral valve and myocardial structure. AIM: To examine the diagnostic capabilities of computed tomography in the preoperative examination of various hypertrophic cardiomyopathy phenotypes. MATERIALS AND METHODS: The retrospective data analysis included 47 patients with hypertrophic cardiomyopathy (mean age, 52±7 full years) before surgical correction. computed tomography was performed using our protocol with automatic bolus tracking in the left atrium with a 90 HU threshold and biphasic contrast injection to assess the heart chambers and coronary arteries anatomy and mitral valve morphology. Moreover, to assess myocardial structure remodeling, iodine dual-energy computed tomography maps obtained with delayed contrast enhancement were analyzed. All patients with hypertrophic cardiomyopathy were classified by morphological types. The anatomy of chordopapillary apparatus was evaluated in each case. RESULTS: This study demonstrated variability in hypertrophic cardiomyopathy phenotypes, which were conventionally divided into five morphological categories, but not restricted by them. Among the patients, 26 (55%) had diffuse septum hypertrophic cardiomyopathy, 5 (11%) had midventricular hypertrophic cardiomyopathy, 2 (4%) had midventricular obstruction and apical aneurysm, 8 (18%) had focal basal septum hypertrophic cardiomyopathy, 4 (8%) had concentric hypertrophic cardiomyopathy, and the remaining 4 (8%) had apical hypertrophic cardiomyopathy. Most patients were diagnosed with chordopapillary abnormalities of the mitral valve, categorized by papillary muscle number and position, and the ratio of chords to muscles. In 10 (21%) patients, data on the myocardial bridge of a coronary artery were obtained, whereas 3 (14%) of them had dynamic stenosis. All patients had focal iodine uptake on dual-energy computed tomography maps. An extracellular volume increase was observed in 10 out of 13 (76%) patients. As shown by dual-energy computed tomography, the mean extracellular volume of the left ventricular myocardium was 30.58% (95% confidence interval, 27–34%). CONCLUSION: Our scanning protocols developed with computed tomography scanners of various generations enable to evaluate the specific morphological patterns of hypertrophic cardiomyopathy in a single study and provide a detailed interpretation of the geometry of cardiac valves and chambers, left ventricular function, state of the coronary bed, and structural changes of the left ventricular myocardium.

Changes in mitral and tricuspid valve morphology after surgical repair of pectus excavatum

Abstract Background The effect of pectus excavatum (PE) on cardiac morphology and function has been reported previously. The right heart chamber size and cardiac output improved after the surgical correction of PE. However, the effect on the mitral and tricuspid valve has not been investigated. Purpose Our purpose was to investigate the morphological changes in the tricuspid and mitral valve after PE surgery. Methods We enrolled 25 patients who underwent Nuss surgery for PE repair. The inclusion criteria were 1) aged 15 years or older, 2) Haller Index of more than 5.0, and 3) transesophageal echocardiography (TEE) during PE surgery. We measured RV size and the sphericity index of tricuspid and mitral valve using 3D echocardiography before and after the elevation of the sternum. The sphericity index was calculated as the ratio of anterior-posterior (AP)/medial-lateral (ML) dimeter for the mitral valve (MV) and septal-lateral (SL) / AP dimeter for the tricuspid valve (TV). Results Mean age was 26±11 years, and 28% was female. The Haller index was 6.9 ± 2.8. All patients had normal left ventricular and right ventricular function evaluated with transthoracic echocardiography. The chamber diameter of the base and mid in RV increased after the elevation of the chest. The AP and SL dimeter were enlarged after the elevation of the chest in the TV, and the sphericity index of TV did not change. On the other hand, AP diameter increased but ML diameter was constant in the MV, and the sphericity index of MV increased after the elevation of the chest. Therefore, the annulus size was increased but the morphology was not changed in the TV. Unlike the TV, the morphology of MV annulus became close to circular from flat shape. In several patients, trivial mitral regurgitation was observed after elevation of chest, and possibly affected by the morphological change of the MV annulus. Conclusions The surgical repair for pectus excavatum effected not only right ventricular morphology but also on the tricuspid and mitral valve. The annulus change was different between the tricuspid and mitral valve.

A risk score for ventricular arrhythmia in mitral valve prolapse

Abstract Background Prior studies have identified that complex and frequent ventricular ectopy (cfVE) predicts sudden death in patients with mitral valve prolapse (MVP). Purpose To develop a risk stratification score which predicts rates of cfVE in patients with MVP based on clinical, ECG and echocardiographic features. Methods Data was collected on 637 patients aged 18–90 years with MVP at our institution between 2016-2019. Complex and frequent ventricular ectopy was defined as the presence of > 1% premature ventricular contraction (PVC) burden or non-sustained ventricular tachycardia on Holter monitoring or > 1 PVC on 12-lead ECG. Univariate analysis was performed to identify independent predictors of cfVE. Factors found to be statistically significant on univariate analysis were then evaluated using multivariate logistic regression. Variables analyzed included age greater than 65, moderate or greater mitral regurgitation, female gender, African American race, atrial fibrillation, coronary artery disease, congestive heart failure, inferior or lateral T wave inversion, bileaflet (vs. unileaflet) prolapse, myxomatous mitral valve morphology, mitral annular dysjunction, left ventricular ejection fraction less than 40%, left ventricular hypertrophy, diabetes, and hypertension. Risk points were attributed to multivariate predictors of cfVE using their odds ratios. Predicted probability of cfVE, derived by logistic regression, was used to categorize scores into low, moderate, and high risk. Rates of cfVE were compared between risk groups using Pearson’s Chi-squared test. All-cause mortality was compared between risk score groups with Kaplan-Meier analysis. Results Complex and frequent ventricular ectopy was present in 182 (28.6%) patients. Multivariate predictors of cfVE were mitral annular disjunction (MAD, OR 3.2, 95% CI 1.9-5.4), bileaflet (vs. unileaflet) prolapse (OR 2.1, 95% CI 1.4-3.3), congestive heart failure (OR 2.2 95% CI 1.3-3.7) and inferior or lateral T wave inversion (TWI, OR 2.1, 95% CI 1.3-3.2). Risk points of 1.5 for MAD and 1 for bileaflet prolapse, CHF and TWI were totaled to group patients into low (score 0, n=274, 43.0%), moderate (score 1-2, n=276 ,43.3%) and high (score 2.5-4.5, n=87,13.7%) risk groups. Rates of cfVE were 11.7% for low, 35.5% for moderate and 59.8% for high-risk groups (p<0.0001). On Kaplan Meier analysis, risk group significantly correlated with mortality (p<0.0008). Conclusion In patients with MVP this risk stratification tool, using the presence of mitral annular disjunction, bileaflet prolapse, history of congestive heart failure and T-wave inversion, represents a viable method of predicting risk of cfVE, which correlates with all-cause mortality.Univariate and multivariate analysisKaplan-Meier Curve

Moderate mitral regurgitation in association with ventricular septal defect in children: Does it warrant mitral valve repair?

The management of ventricular septal defect (VSD) alongside mitral regurgitation (MR) in pediatric patients remains a contentious issue due to the intricacies of cardiac surgery and the need to minimize ischemic time. Despite observations of MR regression following VSD closure, definitive guidelines for this patient subset are lacking, particularly concerning the management of the subgroup of patients with moderate MR. The objective of the study is to explore the factors influencing the choice between surgical intervention and conservative management for the mitral valve (MV) in VSD patients with moderate MR. A retrospective cohort study from January 2000 to December 2015, we analyzed management trends and focused on 53 patients with both VSD and moderate MR. This cohort was subdivided into four groups: first by their MV pathology, and then stratified by the receipt of intervention towards the diseased MV. Our primary goal was to identify correlations, especially concerning surgical outcomes such as mortality and need for re-operation. Statistical significance is determined when the P value is lower than 0.05. There were no notable differences in preoperative variables across four cohort groups, apart from the cross-clamp duration which was longest in Group B intervention. Outcome analysis showed survival rates that were higher in cohort groups that underwent intervention toward the disease MV regardless of existing MV morphology, although results were not statistically significant. Cox model analysis found no correlation between the cohort groups and postoperative outcomes, but cross-clamp duration significantly correlated with mortality. In cases of VSD with moderate MR with associated pathologies of the valvular apparatus, opting for MV repair (MVr) appears to improve survival outcomes without significantly increasing postoperative morbidity. Similarly, for patients with moderate MR and isolated annular dilatation, surgical MVr is observed to have better survival trend compared to the control group.

Descripción y prevalencia de la disyunción del anillo mitral y el ventrículo: ¿variante de la normalidad o patológica?

Introduction and objectivesThe aim of this study was to investigate a new variation of the atrial wall-mitral annulus-ventricular wall junction along the mural mitral leaflet and commissures: the ventricular mitral annular disjunction (v-MAD). This new variant is characterized by spatial displacement of the mitral leaflet hinge line by more than 2mm toward the left ventricle. MethodsWe examined a cohort of autopsied human hearts (n=224, 21.9% females, 47.9±17.6 years) from patients without known cardiovascular disease to identify the presence of v-MAD. ResultsMore than half (57.1%) of the hearts showed no signs of MAD in the mural mitral leaflet or mitral commissures. However, v-MAD was found in 23.6% of cases, located within 20.1% of mural leaflets, 2.2% in superolateral commissures, and 1.3% in inferoseptal commissures. V-MAD was not uniformly distributed along the mitral annulus circumference, with the most frequent site being the P2 scallop (19.6% of hearts). The v-MAD height was significantly greater in mural leaflets than in commissures (4.4 mm±1.2 mm vs 2.1 mm±0.1 mm; P<.001). No specific variations in mitral valve morphology or anthropometrical features of donors were associated with the presence or distribution of v-MADs. Microscopic examinations revealed the overlap of the thin layer of atrial myocardium over ventricular myocardium in areas of v-MAD. ConclusionsOur study is the first to present a detailed definition and morphometric description of v-MAD. Further studies should focus on the clinical significance of v-MAD to elucidate whether it represents a benign anatomical variant or a significant clinical anomaly.

Multimodal preoperative imaging for transcatheter mitral valve replacement in the domestic sheep model

Preclinical in vivo evaluation is an essential step in the progression of new cardiac devices into patient use, with studies predominantly performed in the domestic sheep model. A growing area of interest in cardiac device development is transcatheter mitral valve replacement (TMVR). Clinically, multimodal imaging, or computed tomography (CT) and echocardiography (echo) are used extensively to preoperatively determine mitral valve morphology prior to an intervention, but there is no description on how these modalities can be implemented to support preclinical studies. The purpose of this study is to apply clinically relevant CT and echo acquisition and assessment techniques to a large group of naive research sheep in order to analyze and report modality-related effects on mitral valve dimensional reference intervals in the sheep model. To this end, fifty-five adult domestic sheep underwent preoperative CT and echo exams and resultant images were analyzed using a landmark-based multiplanar measurement protocol and compiled into a master dataset for statistical analysis. We found moderate agreement between CT and echo-derived measurements of the mitral valve in sheep and propose the first clinically-relevant dimensional indices for the sheep’s naive mitral valve which can be used to guide future studies evaluating novel TMVR devices. This study is the first of its kind in proposing a reproducible method for detailed examination of the mitral valve in the sheep model using clinically-relevant multimodal imaging. As in patients, CT and echo can reveal accurate native mitral valve dimensions in the sheep prior to preclinical TMVR studies.

Description and prevalence of ventricular mitral annular disjunction: variation of normality or pathological variant?

Introduction and objectivesThe aim of this study was to investigate a new variation of the atrial wall-mitral annulus-ventricular wall junction along the mural mitral leaflet and commissures: the ventricular mitral annular disjunction (v-MAD). This new variant is characterized by spatial displacement of the mitral leaflet hinge line by more than 2mm toward the left ventricle. MethodsWe examined a cohort of autopsied human hearts (n=224, 21.9% females, 47.9±17.6 years) from patients without known cardiovascular disease to identify the presence of v-MAD. ResultsMore than half (57.1%) of the hearts showed no signs of MAD in the mural mitral leaflet or mitral commissures. However, v-MAD was found in 23.6% of cases, located within 20.1% of mural leaflets, 2.2% in superolateral commissures, and 1.3% in inferoseptal commissures. V-MAD was not uniformly distributed along the mitral annulus circumference, with the most frequent site being the P2 scallop (19.6% of hearts). The v-MAD height was significantly greater in mural leaflets than in commissures (4.4 mm±1.2 mm vs 2.1 mm±0.1 mm; P<.001). No specific variations in mitral valve morphology or anthropometrical features of donors were associated with the presence or distribution of v-MADs. Microscopic examinations revealed the overlap of the thin layer of atrial myocardium over ventricular myocardium in areas of v-MAD. ConclusionsOur study is the first to present a detailed definition and morphometric description of v-MAD. Further studies should focus on the clinical significance of v-MAD to elucidate whether it represents a benign anatomical variant or a significant clinical anomaly.

Clover stitch technique for aortic valve in mitral valve repair.

In the case of mitral repair with severe aortic regurgitation, aortotomy and selective cardioplegia are necessary for myocardiac protection. In this situation, the saline test for mitral valve repair cannot be accomplished due to incomplete left ventricular filing. In patients undergoing mitral valve repair concomitant with severe aortic valve insufficiency, after cardiac stand still was achieved by selective cardioplegia. Each center of the aortic leaflet, termed the node of Arantius, was stitch up using a 5-0 polypropylene suture, forming a clover leaflet shape. This stitch inhibits aortic valve opening and reduces saline leakage thorough aortic valve. We have termed this procedure as the "Clover Stitch Technique". Upon completion of this technique, mitral valve repair can be undertaken via a right-side left atrial incision. This technique enables accurate evaluation of mitral valve morphology or the extent of regurgitation, repeatedly without complicated manipulations during and after mitral valve repair.

Three-dimensional echocardiography reveals early mitral valve alterations in hypertrophic cardiomyopathy genetic mutation carriers

BackgroundThe mitral valve undergoes structural modifications in response to cardiac functional changes, often predating cardiac decompensation and overt clinical signs. Our study assessed the potential of mitral valve morphological changes as early indicators for detecting carriers of hypertrophic cardiomyopathy (HCM)-associated gene mutations. MethodsWe studied 505 participants: 189 without the pathogenic gene mutations and left ventricular hypertrophy (G-/LVH-), 149 carriers without LV hypertrophy (G+/LVH-), and 167 manifest HCM patients (G+/LVH+). We juxtaposed the mitral valve morphology and associated metrics across these groups, emphasizing those carrying MYH7 and MYBPC3 mutations. ResultsWe discerned pronounced disparities in the mitral annulus and leaflet structures across the groups. The mitral valve apparatus in mutation carriers exhibited a tendency towards a flattened profile. Detailed analysis spotlighted MYBPC3 mutation carriers, whose mitral valves were notably flatter (with notably lower AHCWR values than non-carriers); this contrast was not evident in MYH7 mutation carriers. This mitral valve flattening, manifest in the mutation carriers, suggests it might be an adaptive response to incipient cardiac dysfunction in HCM's nascent stages. ConclusionsThree-dimensional echocardiography illuminates the initial mitral valve structural changes in HCM patients bearing pathogenic gene mutations. These morphological signatures hold promise as sensitive imaging markers, especially for asymptomatic carriers of the MYBPC3 mutation.

Predictive value of pre procedural mitral valve commissural score in in patients undergoing balloon mitral valvotomy.

Objective: To evaluate accuracy of commissural score in patients with mitral stenosis through Transesophageal Echocardiography (TOE) and correlate it with outcomes of BMV. Study Design: Prospective study. Setting: Chaudhry Pervez Elahi Institute of Cardiology, Multan. Period: June 2022 to November 2022. Material &amp; Methods: Study was conducted on total 171 patients. Transesophageal echocardiography was performed before BMV by consultant cardiologist. The subvalvar apparatus and mitral valve leaflets were examined at transgastric and mid esophageal levels. Morphology of mitral valve was assessed on the basis of mitral valve commissural score. Graded ballooning was performed stepwise in increments of 1 to 2 mm for reducing the transmitral gradient to satisfactory level. If satisfactory hemodynamic result were not achieved even at maximum, process was stopped. Pre and post procedural echocardiographic measurements were recorded. Results: Mean age of the participants was 42.2±14.0 years. Mitral valve commissural score of ≥2 was noted in 151 (88.30%) patients. After BMV, good outcome was achieved in 150 (87.72%) patients, and in remaining 21 (12.28%) patients outcome was poor. The mitral valve commissural score had a PPV of 96.7% and NPV of 80.0%. Stratification was performed on the basis of age, gender, rheumatic heart disease, obesity and NYHA class. No association was found between these variable and mitral valve commissural score with good outcome. Conclusion: In patients undergoing BMV, high commissural score (3-4) is predictor of good outcome, while low commissural score is associated with unfavorable outcome.

Topological Data Analysis Identified Prognostically-Distinct Phenotypes in Transcatheter Edge-to-Edge Repair Patients

ObjectiveTo identify prognostically distinct phenotype clusters in transcatheter edge-to-edge repair (TEER) patients based on topological data analysis (TDA), which was never used to assess the heterogeneous TEER population. Patients and MethodsPatients who underwent TEER (June 2014-September 2020) at Mayo Clinic sites were identified from the institutional database. Thirteen variables were used for TDA. The topological network graph was created using the Python Scikit-TDA Kepler-Mapper package (v. 2.0.1), and clustering was performed at the graph level with Louvain’s modularity method. Kaplan-Meier survival analysis was used to assess the all-cause mortality of each cluster. ResultA total of 389 consecutive patients were included in the final analysis, and 2 major clusters were identified. The mean age was 80.3 ± 8.7 years; 256 (65.8%) were male. Fifty-five (14.5%) patients died during the mean follow-up duration (185 days). Kaplan-Meier analysis showed significant survival differences among the 2 clusters (hazard ratio, 2.70; 95% CI, 1.50-4.87; P=.0005). Cluster 1 (n=227) had moderate or increased residual mitral regurgitation (cluster 0 vs cluster 1: 19.4% vs 41.9%; P<.001) and worse survival performance. Cluster 1 was characterized by worse tricuspid regurgitation severity, higher proportions of patients with atrial fibrillation or flutter, anterior or bileaflet leaflet prolapse, anterior leaflet flail, and mitral annular or leaflet calcification. ConclusionTDA can identify prognostically distinct clusters in TEER patients based on mitral valve morphology and clinical risk factors. This simple model can facilitate risk stratification for TEER patients regarding procedural success and survival performance.

Mutation in mitral valve prolapse susceptible gene DCHS1 causes familial mitral annular disjunction

BackgroundMitral annular disjunction (MAD) is an under-recognised phenotype associated with severe ventricular arrhythmias. Limited knowledge has been gained on its molecular genesis.MethodsA total of 150 unrelated deceased Chinese were collected...

Two Holes in One: A Rare Case of Congenital Mitral Valve Anomaly

Double orifice mitral valve (DOMV) is a rare anomaly, characterised by a mitral valve with a single fibrous annulus resulting in two orifices. Since its discovery in the late 19th century, around 200 cases have been reported. In the Philippines, this mitral valve anomaly has not been reported in literature. The authors are reporting this case to provide information in identifying DOMV using 2D and 3D imaging. The case involves a 26-year-old Filipino man with an incidental finding of an isolated double-orifice mitral valve. Additional imaging using 2D and 3D transoesophageal echocardiography was performed to assess the mitral valve morphology, function and possible associated anomalies. The en face view of the mitral valve showed a complete bridge of tissue extending from the middle of the anterior to the posterior leaflet, creating medial and lateral orifices. The patient presented with an isolated DOMV; hence, no intervention was necessary. However, long-term follow-up is advised.

Comparative Morphological and Morphometrical Analysis of Atrio-Ventricular Valves of Human and Porcine

There is increased incidence of valvular heart diseases in recent years due to life style modifications. The mortality rates in valvular diseases are kept in pace using various modalities of treatments. One such lifesaving treatment is valve replacement surgeries. These are done by using mechanical valve prosthesis or tissue grafts. The tissue valves prosthesis, harvested from porcine heart are called as xenograft and are increasingly used in valve repair and replacement surgeries. In the present scenario, there is a smaller number of systematically analysed literatures available on the comparative anatomy of human and porcine heart valves. Hence this study was carried out to acquire knowledge and to put forth some points to future research works on heart valves. In this study, 20 formalin fixed porcine and human hearts were procured from slaughter house and cadavers respectively. The morphology and morphometry of tricuspid valve and mitral valve was observed and analysed using spss software 20 version. All the dependent variables were compared using student t test and independent sample test. The results were tabulated and compared. It was observed that the tricuspid and the mitral valve of the porcine resembles the corresponding human heart valves in morphology and morphometry and their values were coinciding to their maximum. The porcine valve resembles human heart valves in morphology and it can be used in designing valve substitutes in replacement surgeries. Porcine valve can also be used as bio-prosthesis by matching the morphometry and by reducing the geometrical difference to their minimum by using any interventional radiology. KEY WORDS: Tissue Graft, Porcine, Tricuspid Valve, Mitral Valve, Morphology And Morphometry.

Two and three-dimensional transesophageal echocardiography for pre-operative assessment of mitral valve morphology and regurgitation severity

Background: Two-dimensional (2D) transthoracic (TTE) and transesophageal echocardiography (TEE) are the two main diagnostic modalities used to assess valvular heart diseases, particularly for mitral valve injury. In patients who have the indication of mitral valve surgery, 2D TEE &amp; TTE have some limitations in identifying valve lesions. Three-dimensional transesophageal echocardiography (3D TEE) is more accurate than 2DTTE and 2DTEE in the qualitative assessment of mitral valve.&#x0D; Objectives. Evaluating valve morphology and the severity of mitral valve regurgitation using 2DTTE and 2D/3D TEE in patients who required surgical intervention, compared to surgical and left ventricular angiography findings. Subjects: 44 patients with surgical indication from September 2017 to June 2018 were enrolled in this study.&#x0D; Methods: A cross-sectional study conducted at Vietnam National Heart Institute from September 2017 to June 2018. 44 patients with mitral regurgitation who had indication for mitral valve surgery underwent 2D TEE and 2D/3D TEE before opened heart surgery for mitral valve, 17/44 had left ventriculogram during coronary angiogram before surgery.&#x0D; Results: Men/women ratio = 2/1. Mean age: 54.14 ± 13.066 years old. Most of patients (93,2%) had symptoms of heart failure with mean NYHA classification of 2.55 ± 0.504. 3D TEE showed higher diagnostic accuracy and better agreement with surgical findings compared to 2D TEE and 2D TTE in A2 prolapse, A3 prolapse, P3 prolapse, Kappa =1,1,0.65 respectively. For anterior leaflet perforation, 3D TEE had positive predictive value of 100% and better agreement (Kappa =1) in comparison with 2D TEE and 2D TTE with positive predictive value of 96,5 %, Kappa = 0,65. In identifying valve vegetation, 3D TEE had positive predictive value of 93%, kappa =0,82 which were higher than those of 2D TEE and 2D TTE (positive predictive value of 89,6 % and Kappa = 0,73). In evaluating mitral valve regurgitation, 3D TEE had positive predictive value of 100%, kappa =1 compared with positive predictive value of 76,5%, kappa of 0,47 of 2D TEE and 2D TTE. Conclusions: 3D TEE is valuable in localizing prolapse valve segments, especially for A2, A3 and P3 prolapse, as well as in diagnosing anterior leaflet perforation and vegetation of mitral valve. 3D TEE is also more valuable than 2D TEE and 2D TTE in assessing mitral regurgitation severity.

Characteristics and outcomes of patients undergoing transcatheter mitral valve replacement with the Tendyne system

BackgroundTranscatheter mitral valve replacement (TMVR) has emerged as alternative to transcatheter edge-to-edge repair (TEER) for treatment of mitral regurgitation (MR); however, the role of TMVR with the Tendyne system among established treatments of MR is not well defined. We assessed characteristics and outcomes of patients treated with the Tendyne system in the current clinical practice.MethodsWe reviewed patients who underwent cardiac computed tomography and were judged eligible for the Tendyne system.ResultsA total of 63 patients were eligible for TMVR with the Tendyne system. Of these, 17 patients underwent TMVR, and 46 were treated by TEER. Patients treated with the Tendyne system were more likely to have a high transmitral pressure gradient and unsuitable mitral valve morphology for TEER than those treated with TEER. TMVR with the Tendyne system reduced the severity of MR to less than 1 + in 94.1% of the patients at discharge and achieved a greater reduction in left ventricular (LV) end-diastolic volume at the 30-day follow-up compared with TEER. In contrast, patients treated with the Tendyne system had a higher 30-day mortality than those treated with TEER, while the mortality between 30 days and one year was comparable between Tendyne and TEER.ConclusionsAmong patients eligible for the Tendyne system, approximately a quarter of the patients underwent TMVR with the Tendyne system, which led substantial reduction of MR and LV reverse remodeling than TEER. In contrast, the 30-day mortality rate was higher after TMVR with the Tendyne compared to TEER.

3D echocardiography in mitral valve prolapse.

Mitral valve prolapse (MVP) is the leading cause of mitral valve surgery. Echocardiography is the principal imaging modality used to diagnose MVP, assess the mitral valve morphology and mitral annulus dynamics, and quantify mitral regurgitation. Three-dimensional (3D) echocardiographic (3DE) imaging represents a consistent innovation in cardiovascular ultrasound in the last decades, and it has been implemented in routine clinical practice for the evaluation of mitral valve diseases. The focus of this review is the role and the advantages of 3DE in the comprehensive evaluation of MVP, intraoperative and intraprocedural monitoring.

Outcome of Percutaneous Transvenous Mitral Commisurotomy According to Age, Gender and Heart Rhythm

Background: Percutaneous transvenous mitral commisurotomy (PTMC) is the recommended treatment in the severe mitral stenosis with mitral valve area ≤ 1.5 sq. cm and favourable mitral valve morphology without Left atrium (LA) clot.&#x0D; Methods: A retrospective study done for one year among all the patients who had undergone PTMC in 2016. Successful PTMC was defined as increase in Mitral valve area (MVA) more than or equal to 1.5 sq. cm or increase in area by more than 50% from baseline. Data was analyze using SPSS-20.&#x0D; Results: Three hundred thirty sex patients with mean age 34.08 ±12.0 of which male were 97 ( 26.9 %.) and female were 239 (71.1 %). There were 225 (67%) sinus rhythm (SR) and 111 (33%) atrial fibrillation (AF). The median Pre PTMC area and Left atrial (LA) Pressure were 0.9 sq cm and 24 mmHg respectively. The overall success of PTMC was in 289 (86%). The successful outcome in age categories less than 20 years, 20-40, 40-60 and more than 60 years in order are 39 (83%), 174 (86.6%), 71 (86.6%) and 5 (83.3 %). Success for male was 84 (86.6%) and in female 205(86%). Success percentage in SR was 192 (86%) and in atrial fibrillation was 97 (87.4%).&#x0D; Conclusion: The outcome of PTMC in terms of change in mitral valve area was similar to the different age categories, gender and presence and absence of atrial fibrillation.

Abstract 12425: The Interplay Between Left Atrial and Mitral Valvular Remodeling in Subtypes of Mitral Regurgitation

Background: The interaction between left atrial (LA) mechanics and mitral valve remodeling patterns in patients with mitral regurgitation (MR) is poorly described. Objectives: To assess three-dimensional (3D) LA volumes and strain in relation to 3D mitral valve morphology in patients with degenerative vs. functional MR. Methods: Patients included in the 3D-PRIME (3D Echocardiography and Cardiovascular Prognosis in Mitral Regurgitation) study at our heart valve clinic between 2020-2022 and with moderate or severe MR by combined transthoracic/transesophageal assessment were examined. LA remodeling was assessed by 3D maximum and minimum LA volume, reservoir strain (LASr) and contraction strain (LASct). Mitral valve annulus area, anterior and posterior leaflet length and area, tenting volumes and non-planar angle were measured using dedicated 3D mitral valve software. Results: 100 patients with moderate or severe MR were included. Patients with atrial functional MR (n=26) were older, more often women and had higher heart rate compared to degenerative MR (n=54) and ventricular functional MR (n=20) (p &lt;0.05). They also had larger LA volumes and severely impaired LASr and LASct despite smaller MR regurgitation volumes compared to MR by other mechanisms (Figure). Mitral annulus area was comparable between groups, but anterior mitral leaflet was higher, with larger area and the non-planar angle wider in functional MRs (p &lt;0.05). In multivariable analysis, low LASr (below median) was associated with larger LA volume, and higher anterior mitral leaflet height independent of age, sex, heart rate, left ventricular global longitudinal strain, and right ventricular stroke volume (Nagelkerke R 2 0.67, p &lt;0.01). In a similar model, low LASct was only associated with larger LA volumes. Conclusions: Patients with atrial functional MR have large LAs with severely impaired LA function and a specific mitral valve remodeling pattern at lower MR regurgitation volumes.

Abstract 13431: Comparative Evaluation of Diastolic Left Heart Dynamics Post-Mitral Valve Interventions

Introduction: Mitral valve (MV) leaflet morphology plays an important role insuring efficient, unidirectional blood flow from the left atrium (LA) to ventricle (LV). When treating severe mitral regurgitation (MR), surgical repair, valve replacement, or transcatheter edge-to-edge (E-2-E) repair all provide valid options depending on anatomy and clinical circumstances. These interventions alter the MV morphology, impacting LV filling dynamics. We used fluid-structure interactions (FSI) to evaluate LV filling dynamics after MV interventions, taking into consideration full left-heart (LH) dynamics. Methods: 3-D MV model of a patient suffering from severe MR was reconstructed from echocardiographic data. A LH wall motion algorithm was developed and applied to CT-derived LA and LV walls to realistically represent LH dynamics. LH wall motion, MV dynamics and blood flow in LA and LV during MV function was simulated using a strongly coupled fluid structure interaction approach. Virtual interventions using a surgical 33mm bioprosthetic valve (BPV) and transcatheter E-2-E repair were performed and evaluated. Results: Our FSI model predicted a physiological vortex ring developing in the LV for the pre-op MV during early diastole. BPV produced complex asymmetrical vortices. Due to its double orifice, the E-2-E clip produced two separate vortex rings with the largest velocity magnitude. Of all the three treatments, BPV had the greatest leaflet deformation rate. Conclusion: This model provides realistic quantitative insights into post-op filling dynamics that can be used to personalize and optimize valve intervention. These methodologies may help clinicians to realistically predict and evaluate patient-specific LV filling dynamics to tailor MV interventions.