Standardization and validation of neoLVOT assessment using three-dimensional trans-esophageal echocardiography before trans-catheter mitral valve replacement.

BACKGROUND: Trans-catheter mitral valve replacement (TMVR) procedures had emerged as an alternative solution for patients who are at high risk for mitral valve surgery. Although cardiac computed tomography (CT) remains the standard method for procedural planning, there is no full agreement on the best systolic phase for quantitation of the neoLVOT. Furthermore, a new three-dimensional trans-esophageal echocardiography (3DTEE) based software was developed to serve as filter and or an alternative for patients who cannot have CT due to any contraindication. AIM: To determine the systolic phase of the cardiac cycle that shows the narrowest NeoLVOT area in order to standardize the way of using these software and then to validate the 3DTEE-based software against the CT-based one as a gold standard, in mitral valve annulus (MA) and NeoLVOT assessment. METHODS: A single center, observational, retrospective study. Initially, a sample of 20 patients (age 62 ± 4 years, 70% men) had CT-based analysis at mid-diastole (80%), early-systole (10%), mid-systole (20%), late-systole (30%-40%), in order to detect the best systolic phase at which the neoLVOT area is the narrowest after TMVR. Then, the end systolic phase was standardized for the analysis of 49 patients (age 57 ± 6 years, 60% men), using both the commercially available CT-based software and the newly available 3DTEE-based software (3mensio Structural Heart, Pie Medical Imaging, The Netherlands). The 3DTEE derived parameters were compared with the gold standard CT-based measurements. RESULTS: The neoLVOT area was significantly narrower at end-systole (224 ± 62 mm2), compared to early-systole (299 ± 70 mm2) and mid-systole (261 ± 75 mm2), (p = .005). Excellent correlation was found between 3DTEE and CT measurements for MA AP diameter (r = .96), IC diameter (r = .92), MA area (r = .96), MA perimeter (r = .94) and NeoLVOT area (r = .96), (all p-values < .0001). Virtual valve sizing was based on annulus measurement and was identical between CT and 3DTEE. Interobserver and intraobserver agreements were excellent for all the measurements with ICCs > .80. CONCLUSIONS: End-systole is the phase that shows the narrowest neoLVOT and hence should be the standard phase used during the analysis. The 3DTEE based analysis using this new software is reliable compared to the CT-based analysis and can be serve as an alternative analysis tool in patients who cannot have CT for any clinical contraindication or as a screening test and/or filter for all patients before proceeding to a detailed CT scan.

3D TEE imaging in a patient with severe tricuspid regurgitation with dextrocardia and tricuspid commissural prolapse.

Although dextrocardia is a rare congenital anomaly, it may be accompanied by numerous pathologies. Tricuspid valve prolapse is an extremely uncommon cause of primary tricuspid valve disease, as is its association with dextrocardia. In this instance, we wished to share our knowledge of tricuspid commissural prolapse together with dextrocardia, which we augmented with 3D images.

Unexpected TEE Findings During Rheumatic Triple-Valve Surgery: Incidental, Yet Impactful.

This E-Challenge highlights an incidental prebypass transesophageal echocardiographic (TEE) finding of a right atrial membrane that impacted cardiac surgical management during triple-valve surgery. Two-dimensional and advanced 3-dimensional (3D) TEE were used in real-time to assist intraoperative decision-making. The findings, clinical course, discussion of the differential diagnosis, final diagnosis, and patient management are detailed here.

Sub-aortic membrane - A three-dimensional echocardiographic perspective.

INTRODUCTION: Subaortic membrane is an uncommon cause of left ventricular outflow tract obstruction. DISCUSSION: Whereas traditionally described of as a membrane, it is in fact a discreet circumferential shelf of raised endocardium in the left ventricular outflow tract, causing a fixed outflow obstruction. The circumferential nature of subaortic membranes is poorly appreciated on 2-dimensional imaging. CONCLUSION: Using a three-dimensional imaging and recently available on-cart rendition techniques of acquired images, we were able to better visualize the true extent of a sub-aortic membrane while also gaining insight into its origin and structure.

Impending paradoxical embolism: about two cases. 3D echocardiographic imaging and discussion of treatment options.

INTRODUCTION: Impending paradoxical embolism (IPDE) is a rare condition where a thrombus straddles the foramen ovale with a high risk of arterial embolism. CASES REPORT: We report two cases of impending paradoxical embolism, an uncommon condition with a high mortality rate. The first in a young woman with acute right heart failure operated emergently, the second, in an old and frail lady presenting an ischemia of the left arm, treated by anticoagulants. 3 D echocardiography imaging is presented and treatment modality is discussed. CONCLUSION: Emergent treatment is mandatory for IPDE, a serious disease with a high early mortality. This paper is a reminder of how to deal with such a rare condition.

Added Value of Live 3-Dimensional Transesophageal Echocardiography During Procedures in Fontan Patients.

3D transesophageal echocardiography (3D-TEE) has proven useful and accurate during some operating room (OR), interventional cardiac catheterization (Cath), and electrophysiologic (EP) procedures. The use of 3D-TEE during similar procedures in patients who have undergone Fontan surgery and its additional value have not been previously reported. To determine if live 3D-TEE during procedures post Fontan has added value, 3D-TEEs in 58 post-Fontan patients over a 5-year study period were reviewed. Additional information provided by 3D-TEE (over 2D-TEE) was classified into the following: A: new information which changed/refined the plan and 0: no new important information. Pre- and post-bypass OR 3D-TEEs were counted as one study. A total of 67 3D-TEEs (41 Cath, 13 OR, and 13 EP procedures) were performed. Median age was 14 years (6-39 years). Median weight was 47 kg (21-109 kg). In Cath procedures, only 2/41 (5%) were graded A (R to L atrial level shunt [Fontan leak], n = 1; thrombus in pulmonary artery stump, n = 1). In the OR, 6/13 (46%) were graded A (atrioventricular valvuloplasty, n = 1; neo-aortic valvuloplasty, n = 1; relief of systemic and pulmonary venous outflow obstruction, n = 2 and n = 2; respectively). In EP procedures, 4/13 (31%) were graded A (thrombus, n = 3; mapping for lead placement to assist in multisite pacing for dyssynchrony, n = 1). 3D-TEE of Fontan improved visualization and frequently added value in the OR/EP lab and may be helpful in select catheterization cases. Future studies with a larger sample could build on this data to identify when 3D-TEE will be most useful.

Transesophageal Echocardiographic Evaluation of a Double Orifice Mitral Valve.

Intraoperative transesophageal echocardiography currently is used routinely for many cardiothoracic surgical procedures. Although it is often used for intraoperative cardiac monitoring and to confirm preoperative echocardiographic findings, it may sometimes result in the discovery of unexpected pathology. In this e-challenge, a patient was found to have a mitral valve abnormality that was not previously detected on the preoperative transthoracic echocardiogram. The mitral valve anomaly subsequently was evaluated to characterize the anatomy, interrogate the valve, and provide a diagnosis.

The Use of Intraoperative Three-Dimensional Echocardiography to Evaluate Origin of Bioprosthetic Aortic Valve Regurgitant Jets.

Degradation of bioprosthetic aortic valves can eventually lead to both paravalvular and intravalvular regurgitation. However, differentiating between the two may be difficult in the case of multiple lesions in close proximity or highly eccentric jets. Whereas such exact distinction may be of little procedural significance in open cardiac surgery, it is of crucial importance when approaching such lesions in the catheterization laboratory or hybrid operating room. Interventions on one lesion often have a significant effect on the other. For example, guidewires may damage new bioprosthetic valve leaflets and dislodge vascular plugs. Even more concerning is the possibility of undergoing a lengthy and risky procedure on a lesion that does not truly exist. Fortunately, the use of three-dimensional Doppler echocardiography can expand our vision beyond the single imaging plane of a standard two-dimensional examination, allowing extensive manipulation of cutting planes and a wider field of view. Regurgitant jets can thus be tracked in a way that may be otherwise impossible, better quantifying their true origins. Here the authors present a unique case of misdiagnosis after surgical aortic valve degradation, where the use of intraoperative three-dimensional echocardiography significantly altered the preoperative plan and reduced operative time.

Echocardiography in Infective Endocarditis: State of the Art.

PURPOSE OF REVIEW: In this review, we examine the central role of echocardiography in the diagnosis, prognosis, and management of infective endocarditis (IE). RECENT FINDINGS: 2D transthoracic echocardiography (TTE) and transesophageal echocardiography TEE have complementary roles and are unequivocally the mainstay of diagnostic imaging in IE. The advent of 3D and multiplanar imaging have greatly enhanced the ability of the imager to evaluate cardiac structure and function. Technologic advances in 3D imaging allow for the reconstruction of realistic anatomic images that in turn have positively impacted IE-related surgical planning and intervention. CT and metabolic imaging appear to be emerging as promising ancillary diagnostic tools that could be deployed in select scenarios to circumvent some of the limitations of echocardiography. Our review summarizes the indispensable and central role of various echocardiographic modalities in the management of infective endocarditis. The complementary role of 2D TTE and TEE are discussed and areas where 3D TEE offers incremental value highlighted. An algorithm summarizing a contemporary approach to the workup of endocarditis is provided and major societal guidelines for timing of surgery are reviewed.

Real time three-dimensional transesophageal echocardiography guided coronary sinus cannulation during CARILLON mitral annuloplasty device therapy for a patient with chronic severe mitral regurgitation.

The coronary sinus (CS) has become a clinically important structure especially through its role in providing access for different cardiac procedures such as arrhythmia ablation, biventricular pacing and recently, percutaneous valvular interventions. Fluoroscopy with or without two-dimensional transesophageal echocardiography is the widely used method for guidance. A 78-year-old female patient undergoing percutaneous CARILLON mitral annuloplasty device therapy for chronic severe symptomatic mitral regurgitation. After insertion of the CS catheter through the right internal jugular vein, multiple trials for CS cannulation guided by fluoroscopy and two-dimensional transesophageal echocardiography were unsuccessful. So, real time three-dimensional zoom mode was used. Then, the volume was rotated to have the anatomically oriented enface view of the interatrial septum from the right atrial perspective. The CS ostium was identified adjacent to the eustachian valve. Then the catheter was reintroduced through the superior vena cava into the right atrium then easily navigated to cannulate the CS ostium. The position was confirmed by the fluoroscopically known course of the CS plus the pattern of the invasive pressure wave form. CS cannulation is not always feasible using fluoroscopy and/or two-dimensional Echocardiography guidance. Real time three-dimensional transesophageal echocardiography can be used to guide CS cannulation as it provides an anatomically oriented and informative enface view of the CS ostium. It can help reducing fluoroscopic radiation time.

Dynamic indices of mitral valve function using perioperative three-dimensional transesophageal echocardiography.

OBJECTIVE: Perioperative transesophageal echocardiography is essential for decision-making for mitral valve surgery. While two-dimensional transesophageal echocardiography represents the standard of care, tracking of dynamic changes using three-dimensional imaging permits assessment of morphologic and functional characteristics of the mitral valve. The authors hypothesized that quantitative three-dimensional analysis would reveal distinct differences among diseased, repaired, and normal mitral valves. DESIGN: Case-control observational clinical study. SETTING: Tertiary care hospital. PARTICIPANTS: Using novel mitral valve quantification software, the authors retrospectively analyzed 80 datasets of cardiac surgery patients who underwent intraoperative transesophageal echocardiographic imaging. Twenty patients with degenerative mitral regurgitation were evaluated before and after mitral valve repair. Twenty patients had functional mitral regurgitation, and 20 patients had no mitral valve disease. MEASUREMENTS AND MAIN RESULTS: Primary outcome measures of dynamic mitral valve function were: 1) three-dimensional annulus area, 2) annular displacement distance, 3) annular displacement velocity, and 4) annular area fraction. Other mitral annular tracking indices, in addition to intraobserver reliability and interobserver agreement, also were reported. Annulus area was enlarged in degenerative and functional mitral regurgitation. Annular displacement distance was decreased in functional mitral regurgitation and repaired valves. Annular displacement velocity was decreased in functional mitral regurgitation. Annular area fraction was decreased in functional mitral regurgitation and repaired valves. Intraobserver reliability and interobserver agreement were high for all 4 analyzed indices. CONCLUSIONS: Normal, functional regurgitant, degenerative, and repaired mitral valves have distinctly different dynamic signatures of anatomy and function as reliably determined by perioperative echocardiographic tracking.

The paramount of three-dimensional echocardiography in percutaneous closure of large oval perimembranous ventricular septal defect: a case report.

Background: Ventricular septal defect (VSD) is the most common type of congenital heart abnormality with perimembranous VSD (pmVSD) accounting for ∼70% of all VSD. Nowadays, transcatheter closure is the first choice for suitable pmVSD. However, there was no report about closing the large oval-shaped VSD percutaneously. Case summary: A 34-year-old male with known VSD was referred for transcatheter closure after failed attempts in other hospital. Patient had been diagnosed with VSD at a young age, but he was lost to follow-up. He presented with shortness of breath due to heart failure and pulmonary hypertension. The initial measurement of the defect was 6-7 mm by transthoracic echocardiography (TTE), transoesophageal echocardiography (TEE), and LV angiography. However, re-measurement using TEE and 3D echocardiography revealed that the VSD is oval with diameters of 18 mm × 6 mm. Initially, device No. 12/14 was used, but it was dislodged on two attempts. The operator then decided to upsize the device size to No. 16/18 that was successful. The patient's condition was good, and 6 months follow-up after the procedure showed good outcomes without any residual defect or arrhythmia. Discussion: In this study, we would like to highlight the rarity of large oval pmVSD that almost failed to be closed with the conventional measurement with echocardiography and fluoroscopy. Transoesophageal echocardiography especially 3D can be the new modality of choice that might be superior to fluoroscopy to decide the right device size in some cases such as oval-shaped pmVSD.

Novel sizing role of 3D transesophageal echocardiography in a novel left atrial appendage clip device for patients undergoing video-assisted atrial fibrillation ablation: a cohort study.

Background: Three-dimensional (3D) transesophageal echocardiography (TEE) has been successfully used in the sizing of left atrial appendage (LAA) occlusion devices, but its use has not yet been studied in LAA clip devices. We sought to develop and validate the novel use of 3D-TEE sizing in a novel LAA clip device for atrial fibrillation (AF) patients undergoing video-assisted thoracic surgery (VATS) ablation. Methods: Consecutive patients with isolated AF undergoing LAA clipping or excision during VATS ablation were included in the study between June 2021 and September 2022 at Fuwai Hospital. The patients underwent 3D-TEE examinations preoperatively and postoperatively. The VATS length, LAA clip effective length, and LAA excision margin length were recorded. A correlation analysis, intraclass correlation coefficient (ICC) analysis, and Bland-Altman plot analysis were conducted to examine the TEE parameters, VATS length, LAA clip effective length, and LAA excision margin length. Results: In total, 26 AF patients undergoing LAA clipping and 15 undergoing LAA excision were included in the study. In the LAA clipping group, in which the Atriclip size served as the control, the 3D-TEE with volumetric measurement (the perimeter-derived maximum orifice diameter) (R=0.938; ICC =0.934; Bland-Altman plot variability, 3.85%) showed the best sizing efficacy for the LAA clip device among the 3D-TEE with multiplanar reformatting sizing (the perimeter-derived maximum orifice diameter) (R=0.808; ICC =0.772; Bland-Altman plot variability, 3.85%), VATS sizing (R=0.851; ICC =0.756; Bland-Altman plot variability, 11.54%), and VATS plus 0.5-cm sizing (R=0.851; ICC =0.775; Bland-Altman plot variability, 11.54%) measurements (all P<0.001). In addition, for the distribution of matched sizing in the LAA clip group, 3D-TEE with volumetric measurement sizing (20/26) had a higher proportion than 3D-TEE with multiplanar reformatting sizing (11/26, P=0.011), VATS sizing (9/26, P=0.002), and VATS plus 0.5-cm sizing (14/26, P=0.08). Using the LAA excision margin length as the control, the mean difference in the LAA diameter was 1.17 cm [95% confidence interval (CI): 0.71-1.62 cm , P<0.001] in the maximum orifice diameter of two-dimensional-TEE, 0.15 cm (95% CI: -0.32 to 0.61 cm , P=0.523) in the perimeter-derived 3D multiplanar reformatting (the maximum orifice diameter), and 0.03 cm (95% CI: -0.47 to 0.53, P=0.901) in the perimeter-derived 3D volumetric (3DV) measurement (the maximum orifice diameter), and the related Pearson correlation coefficients for these modalities were 0.760 (P=0.001), 0.843 (P<0.001), and 0.963 (P<0.001), respectively. Conclusions: Our study showed that 3D-TEE might be employed in the sizing of a novel LAA clip device using the VATS approach in patients with AF. The 3DV measurement (the perimeter-derived maximum orifice diameter) was superior to the VATS measurement. These findings might also apply to LAA VATS excision patients with AF.

Cryoballoon ablation for atrial fibrillation guided by real-time three-dimensional transoesophageal echocardiography: a feasibility study.

AIMS: Cryoballoon ablation (CBA; Arctic Front, Medtronic) has proven very effective in achieving pulmonary vein isolation. Real-time three-dimensional transoesophageal echocardiography (RT 3D TEE) is a novel technology, which permits detailed visualization of cardiac structures in a 3D perspective. The aim of the present study was to assess the feasibility, advantages, and safety of RT 3D TEE in guiding CBA in a series of patients affected by paroxysmal atrial fibrillation. METHODS AND RESULTS: Forty-five patients (34 males, mean age: 63 ± 12 years) underwent CBA guided by 3D TEE. A total of 190 veins could be documented by TEE. Real-time three-dimensional transoesophageal echocardiography successfully guided the operator to position the CB in the pulmonary vein (PV) ostium and obtain complete occlusion in all 190 (100%) veins. Transoesophageal echocardiography identified leakages in 25 (13%) veins led to successful elimination of PV-left atrium (LA) backflow by guiding correct balloon repositioning. In four (2%) veins, this imaging tool led to perform successful pull-down manoeuvres. After a mean 2.6 ± 1.4 applications, isolation could be documented in 190 (100%) PVs. Median procedural and fluoroscopy times were 145 and 24 min. During a median follow-up of 278 days, 37 (82%) patients did not experience atrial fibrillation recurrence following a 3-month blanking period. CONCLUSION: Cryoballoon ablation is safe and feasible under RT 3D TEE guidance. This imaging tool permits perfect visualization of all PV ostia and neighbouring LA structures. Most importantly, it proved very efficient in guiding the operator to achieve complete occlusion and successful isolation in all veins.

Taking Command of Three-Dimensional Stitching Artifacts: From an Annoyance to an Easy Tool for Navigating Three-Dimensional Transesophageal Echocardiography.

Despite many recent advances in three-dimensional (3D) transesophageal echocardiography (TEE) imagining, the process of orienting 3D TEE images is nonintuitive and uses assumptions based on idealized anatomy. Correlating two-dimensional TEE cross-sectional images to 3D reconstructions remains an additional challenge. In this article, we suggest the repurposing of the stitching artifact generated in 2-beat electrocardiogram-gated 3D TEE as a means of exactly orienting 3D images within a patient's unique anatomy. We demonstrate the application of this strategy to assess a normal mitral valve to localize scallops of mitral valve prolapse and to visualize typical left atrial appendage two-dimensional cuts in a 3D space. By taking command of stitching artifacts, cardiac imagers can successfully navigate the complex structures of the heart for optimal, individualized echocardiographic views.

Accuracy of aortic annulus measurements by three-dimensional transesophageal echocardiography and predictive value for thoracic aorta aneurysm in patients with aortic regurgitation.

Background: Accurate assessment of the aortic annulus (AA) dimension and judgment of thoracic aorta aneurysm is crucial for patients with aortic regurgitation (AR) before surgery. The aim of this study was to evaluate the accuracy and reproducibility of three-dimensional transesophageal echocardiography (3D-TEE) methods for AA measurement and explore the predictive value of the AA dimensions obtained by 3D-TEE for high-risk thoracic aorta aneurysms using the gold standard of multi-slice computed tomography (MSCT). Methods: 3D-TEE was performed on 111 patients with pure moderate-to-severe AR, and MSCT examination was conducted simultaneously. AA dimensions were obtained using reconstruction software for these two imaging techniques. Thoracic aortic diameters at standard anatomic landmarks were also measured by MSCT. All patients were divided into two groups depending on the presence of high-risk thoracic aorta aneurysms. Results: Compared to MSCT, 3D-TEE overestimated all AA parameters. However, no statistically significant differences were found in the average bias between methods (minimum diameter: 26.07±3.57 vs. 25.88±3.68 mm, P=0.52; maximum diameter: 32.30±2.68 vs. 31.78±4.06 mm, P=0.11; area: 669.76±155.19 vs. 660.05±168.28 mm2, P=0.44; perimeter: 93.52±10.42 vs. 92.26±11.71 mm, P=0.12). 3D-TEE demonstrated good correlations with MSCT measurement for AA minimum diameter, maximum diameter, area, and perimeter (r=0.63, 0.64, 0.74, 0.69, P<0.05 for all). According to the multivariate logistic regression analysis, the AA minimum diameter obtained by 3D-TEE was the best predictor for the presence of high-risk thoracic aorta aneurysms. The sensitivity and specificity for prediction were 84.6% and 63.9%, respectively, for an AA minimum diameter ≥25.74 mm (AUC: 0.759, 95% CI: 0.668-0.850). Conclusions: AA measurements obtained by the 3D-TEE method are feasible and reliable for patients with pure AR. The AA minimum diameter measured by 3D-TEE can effectively predict the presence of high-risk thoracic aorta aneurysms.

Variations in Mitral Valve Leaflet and Scallop Anatomy on Three-Dimensional Transesophageal Echocardiography.

BACKGROUND: Textbook depictions of the mitral valve (MV) often illustrate it as composed of a single nonscalloped anterior leaflet, with the posterior leaflet having three symmetric and evenly spaced scallops. However, common variations in this anatomy have been noted in autopsy series for decades. Improved cardiac imaging with three-dimensional transesophageal echocardiography (TEE) now affords the ability to detect variations in scallop anatomy in vivo. The aims of this study were to catalog variations in mitral anatomy and to examine for association with mitral regurgitation in patients referred for clinical three-dimensional TEE. METHODS: Three-dimensional transesophageal echocardiographic images of the MV from 107 subjects were reviewed for MV variations. Three-dimensional analysis software was used to characterize mitral leaflet anatomy and assess the relative sizes of posterior leaflet scallops. RESULTS: Variations from the classic MV configuration were seen in 58.9%. Symmetric variations in the posterior leaflet (dominant P2 scallop, accessory P2 scallop, absent P2 scallop, and dichotomous P2 scallop) were seen in 33.6% of the study group. Asymmetric variants in the posterior leaflet (fused P1 and P2, fused P2 and P3, commissural scallop, accessory scallops, dichotomous P1 or P3, and dominant P2 or P3) were seen in 24.3%. Indentations or folds in the anterior leaflet were noted in 5.6%. Leaflet variations were not associated with patient demographics, indication for TEE, mitral regurgitation, mitral annular dimensions, or Carpentier class. CONCLUSIONS: Mitral leaflet morphologic variants were well characterized using three-dimensional TEE. Variants are common and were present with a frequency consistent with autopsy series. Mitral scallop variations were not associated with mitral regurgitation.