Three-Dimensional Echocardiography in the Evaluation of Right Ventricular Global and Regional Systolic Function in Patients with Atrial Septal Defect before and after Percutaneous Closure

Trans-thoracic echocardiographic findings after the closure of ostium secundum atrial septal defect: A six-month follow-up study

Introduction

Adults with an atrial septal defect (ASD) have the third most frequent congenital heart disease. We aimed to determine the echocardiography findings after the defect closure in patients with ostium secundum ASD.

Methods

We included patients who underwent the closure of ostium secundum ASD using trans-catheter or surgical procedures. All patients were subjected to transthoracic echocardiography at admission, one month, and six months following successful closure. The remaining shunt were measured using contrast echocardiography and none of our patients had the remaining shunt.

Results

We evaluated 28 patients with a mean age of 35.67±11.55 years. Twelve (42.85%) individuals had trans-catheter, and 16 (57.14%) patients had surgical closure of ASD. After ASD closure, the left ventricular (LV) ejection fraction (P=0.02), and LV end-diastolic diameter significantly increased while S'_TAPSE, right atrial (RA) area, RA volume, and pulmonary artery pressure (PAP) markedly diminished (P<0.001). During follow-up, RV size changes showed a significant decrease during one (17.93%) and six (25.78%) months (P<0.001 for both cases) and become normal following six months after the ASD closure. In addition, the RA/LA area ratio dropped by 24.31% during the first month and 33.17% after six months (P<0.001). In addition, the changes in measured echocardiographic parameters were not significantly different over time between the trans-catheter and surgical procedures. The decrease in S'_TAPSE was significantly greater in the surgical group than in trans-catheter closure.

Conclusion

Closure of ostium secundum ASD dramatically decreased right cardiac chamber size and PAP while enhancing LV diameter and LV ejection fraction.

Echocardiography Imaging of the Right Ventricle: Focus on Three-Dimensional Echocardiography

Right ventricular function strongly predicts cardiac death and adverse cardiac events in patients with cardiac diseases. However, the accurate right ventricular assessment by two-dimensional echocardiography is limited due to its complex anatomy, shape, and load dependence. Advances in cardiac imaging and three-dimensional echocardiography provided more reliable information on right ventricular volumes and function without geometrical assumptions. Furthermore, the pathophysiology of right ventricular dysfunction and tricuspid regurgitation is frequently connected. Three-dimensional echocardiography allows a more in-depth structural and functional evaluation of the tricuspid valve. Understanding the anatomy and pathophysiology of the right side of the heart may help in diagnosing and managing the disease by using reliable imaging tools. The present review describes the challenging echocardiographic assessment of the right ventricle and tricuspid valve apparatus in clinical practice with a focus on three-dimensional echocardiography.

Three-Dimensional Echocardiography Assessment of Right Ventricular Volumes and Function: Technological Perspective and Clinical Application

Right ventricular (RV) function has important prognostic value in a variety of cardiovascular diseases. Due to complex anatomy and mode of contractility, conventional two-dimensional echocardiography does not provide sufficient and accurate RV function assessment. Currently, three-dimensional echocardiography (3DE) allows for an excellent and reproducible assessment of RV function owing to overcoming these limitations of traditional echocardiography. This review focused on 3DE and discussed the following points: (i) acquisition of RV dataset for 3DE images, (ii) reliability, feasibility, and reproducibility of RV volumes and function measured by 3DE with different modalities, (iii) the clinical application of 3DE for RV function quantification.

Ventricular function and dyssynchrony in children with a functional single right ventricle using real time three-dimensional echocardiography after fontan operation

BACKGROUND

This study aimed to evaluate the feasibility and clinical value of real time three-dimensional echocardiography (RT-3DE) for assessing ventricular systolic dysfunction and dyssynchrony in children with an functional single right ventricle (FSRV) having undergone the Fontan procedure.

METHODS

Twenty-five children with an FSRV and 25 healthy children were enrolled in our study. RV volume analysis was performed compared with magnetic resonance imaging (MRI) as the reference standard in FSRV patients. The patients were divided into wide and narrow QRS interval groups. Global and regional functions of the RV in three compartments (inflow, body, and outflow) were compared between FSRV and control subjects, including RV systolic dyssynchrony indices of maximal difference of time to minimal volume (Tmsv-Dif), standard deviation of time to minimal volume (Tmsv-SD), maximal difference of time to minimal volume corrected by R-R interval (Tmsv-Dif%), and standard deviation of time to minimal volume corrected by R-R interval (Tmsv-SD%).

RESULTS

RT-3DE measurements were significantly lower than MRI measurements for RV-EDV, RV-ESV, RV-SV, and RVEF (p < 0.01).Compared with controls, patients with an FRSV had significantly higher dyssynchrony indices and significantly lower global EF in both narrow QRS interval and wide QRS interval groups. Tmsv-SD% was shown to be most strongly correlated with MRI-RVEF (r = -.570, p = 0.003).

CONCLUSIONS

RT-3DE tended to underestimate RV ventricular volume in children with FSRV. Children with an FSRV and either a wide or narrow QRS interval had reduced ventricular function and higher dyssynchrony than normal subjects. Worsening RV dyssynchrony is associated with overall decline in function after the Fontan operation.

Assessment of long-term cardiac adaptation in adult patients with type II atrial septal defect : A cardiovascular magnetic resonance (CMR) study

OBJECTIVES

In type II atrial septal defect (ASD) patients, the left-to-right (LR) shunt causes adaptation of the heart and circulation. The study objective was to evaluate with cardiovascular magnetic resonance imaging (CMR) the impact of LR shunt on left (LV) and right ventricular (RV) volumes, function, and myocardial strain.

METHODS

Thirty-five patients (42 ± 17 years, 17 male) were compared to a control group (n = 40). Cine imaging was used to calculate ventricular volumes and ejection fraction (EF), global longitudinal (GLS) and circumferential strain (GCS), and longitudinal free wall (FWS) and interventricular septal (IVS) strain. Phase-contrast imaging was used to calculate pulmonary flow to systemic flow ratio (Qp/Qs).

RESULTS

The LR shunt (Qp/Qs 2.2 ± 0.6) resulted in larger RV end-diastolic volume (EDVi) (152 ± 42 vs 82 ± 11 ml/m²), lower LV EDVi (72 ± 16 vs 83 ± 9 ml/m²⁾, and higher RV/LV EDVi ratio (2.2 ± 0.5 vs 1.0 ± 0.1) than controls (all p < 0.001). Functionally, stroke volumes were larger in RV and lower in LV (both p < 0.001) with a strong trend toward lower RV EF in patients (p = 0.08). The LR shunt negatively impacted RV GLS (p = 0.03) but not RV GCS. Longitudinal IVS but not RV FWS were significantly lower in patients, i.e., p < 0.001, of longitudinal IVS. Shunt severity correlated with RV size and stroke volume, right atrial size, and pulmonary trunk diameter (all p < 0.001), but not with functional nor strain parameters.

CONCLUSION

Long-term cardiac adaptation in ASD patients, with RV overfilling and LV underfilling, has a negative impact on systolic RV performance, a phenomenon which likely can be attributed to longitudinal dysfunction of the interventricular septum.

KEY POINTS

• An LR shunt in type II ASD patients causes cardiac remodeling characterized by RV overfilling and conversely underfilling of the left ventricle. • At the long term, there is evidence of systolic dysfunction of the right ventricle in this group of patients. • Septal dysfunction underlies the observed impairment in RV function.

Impact of Right Ventricular Dilatation in Patients with Atrial Septal Defect

Objective

The aim of this study was to examine the relationship between right ventricular (RV) volume and exercise capacity in adult patients with atrial septal defect (ASD) and to determine the degree of RV dilatation for transcatheter ASD closure.

Background

RV dilatation is an indication of transcatheter ASD closure; however, few studies have reported the clinical significance of RV dilatation.

Methods

We enrolled 82 consecutive patients (mean age, 49 ± 18 years; female, 68%) who underwent cardiac magnetic resonance imaging and symptom-limited cardiopulmonary exercise test before ASD closure. The relationship between RV volume and peak oxygen uptake (VO₂) was evaluated.

Results

The mean RV end-diastolic volume index was 108 ± 27 ml/m² (range, 46 to 180 ml/m²). The mean peak VO₂ was 24 ± 7 ml/min/kg (range, 14 to 48 ml/min/kg), and the mean predicted peak VO₂ was 90 ± 23%. There were significant negative relationships of RV end-diastolic volume index with peak VO₂ (r = -0.28, p < 0.01) and predicted peak VO₂ (r = -0.29, p < 0.01). The cutoff value of RV end-diastolic volume index <80% of predicted peak VO₂ was 120 ml/m², with the sensitivity of 49% and the specificity of 89%.

Conclusions

There was a relationship between RV dilatation and exercise capacity in adult patients with ASD. RV end-diastolic volume index ≥120 ml/m² was related to the reduction in peak VO₂. This criterion of RV dilatation may be valuable for the indication of transcatheter ASD closure.

Left and right ventricular speckle tracking study before and after percutaneous atrial septal defect closure in children

Objectives

To analyze the acute and short-term deformation changes of both right (RV) and left (LV) ventricular wall before and after transcatheter closure of atrial septal defect (ASD) secundum in children.

Outcome measures

To determine the feasibility of tissue Doppler and myocardial deformation imaging for evaluating RV and LV functions in children undergoing transcatheter ASD closure.

Patients and methods

A prospective study was performed for 32 children with hemodynamic significant ASD secundum before and 6 months after percutaneous ASD closure in the Pediatric Cardiology Division of Specialized Pediatric Hospital, Cairo University. Speckle tracking echocardiography (STE) of LV and RV global analysis (longitudinal and circumferential strain) before and after ASD transcatheter closure was performed.

Results

The mean age of the patients was 6.01 ± 3.19 (range: 3–9) years with a female to male ratio of 1.3:1. There was an improvement in the RV and LV myocardial performance index (MPI) 6 months post-ASD closure (RVMPI = 0.46 ± 0.069 vs. 0.38 ± 0.05, p < 0.0001; LVMPI = 0.49 ± 0.12 vs. 0.38 ± 0.08, p < 0.0001, respectively). By 2D STE, there was a significant improvement in the RV global longitudinal strain (GLS) 6 months post-ASD closure (−20.17 ± 3.14% vs. −25.86 ± 5.02%, p < 0.0001). There was a significant increase in the LV end-diastolic volume (EDV) and LV end-systolic volume (ESV) using 4D STE after device closure (LVEDV = 32.96 ± 10.99 mL vs. 44.024 ± 14.9017 mL, p < 0.0001; LVESV = 15.16 ± 6.08 mL vs. 21.76 ± 8.34 mL, p < 0.0001, respectively). Additionally, there was a significant improvement in the LV GLS after device occlusion (−19.17 ± 3.67% vs. −22.36 ± 4.72%, p = 0.009) using 4D TomTec software. There was a significant decrease in the RVEDV (54.65 ± 10.05 mL vs. 15.73 ± 8.67 mL) and RV stroke volume (25.15 ± 6.36 vs. 20.06 ± 7.2) after device occlusion using 4D TomTec software.

Conclusion

By using 4D STE, the LV GLS was significantly improved; in contrast, by 2D STE, the RV volume overload decreased and the RV GLS was improved on short term after transcatheter ASD secundum closure in children.

Echocardiographic guidance of interventions in adults with congenital heart defects

Cardiac catheterization procedures have revolutionized the treatment of adults with congenital heart disease over the past six decades. Patients who previously would have required open heart surgery for various conditions can now undergo percutaneous cardiac catheter-based procedures to close intracardiac shunts, relieve obstructive valvular lesions, stent stenotic vessels, or even replace and repair dysfunctional valves. As the complexity of percutaneous cardiac catheterization procedures has increased, so has the use of echocardiography for interventional guidance in adults with congenital heart disease. Transthoracic, transesophageal, intracardiac, and three-dimensional echocardiography have all become part and parcel of the catheterization laboratory experience. In this review, we aim to describe the different echocardiographic techniques and their role in various cardiac catheterization interventions specific to adults with congenital heart disease.

Atrial septal defect and patent foramen ovale: early and long-term effects on endothelial function after percutaneous occlusion procedure

Percutaneous closure of atrial septal defect (ASD)/patent foramen ovale (PFO) can influence systemic hemodynamics. The aim of this research was to evaluate the influence of the closure procedure on morphological and functional characteristics of systemic vascular walls. Fourteen ASD (mean age 40 ± 16 years) and 14 PFO (45 ± 8 years) patients were enrolled in this retrospective study. All underwent percutaneous closure procedure; physical, clinical and biochemical evaluations; echocardiography; carotid evaluation; and brachial artery flow-mediated vasodilatation (FMD). All the evaluations were performed at the time of enrollment, 24 h post-procedure, at 1-6-12-month follow-up. FMD at enrollment was higher in PFO patients as compared to ASD (8.5% [7.6-10.7%] versus 6.5% [5.6-7.6%], p < 0.0001). FMD values in ASD patients significantly increased during follow-up (enrollment: 6.5% [5.6-7.6%], 12-month follow-up: 8.8% [7.2-10.3%], p < 0.01). PFO patients showed reduced FMD values 24 h after the procedure (enrollment: 8.5% [7.6-10.7%], 24 h post-procedure: 7% [6.3-9%], p < 0.001), while recovering endothelial function during follow-up period to baseline values (FMD at 12-month follow-up: 8.2% [7.6-10.5%]). At one-year follow-up, FMD remained inversely related to systolic pulmonary arterial pressure and right and left atrial/ventricle chambers dimensions (RV proximal diameter efflux tract, right atrium [RA] longitudinal diameter, RA transverse diameter, RA area, left ventricle [LV] end-diastolic diameter, left atrium [LA] anteroposterior diameter, LA area; p < 0.01) in ASD patients. Endothelial function improved after percutaneous closure of ASD, while remaining stable after PFO closure. Therefore, ASD patients seem to improve their cardiovascular risk profile after percutaneous closure of their defect.

Three-dimensional echocardiography in adult congenital heart disease

Congenital heart disease (CHD) is now more common in adults than in children due to improvements in fetal echo, neonatal and pediatric care, and surgical techniques leading to dramatically increased survivability into adulthood. Adult patients with CHD, regardless of prior cardiac surgery, experience further cardiac problems or therapeutic challenges; therefore, a non-invasive, easily accessible echocardiographic examination is an essential follow-up tool. Among echocardiographic modalities, three-dimensional (3D) echocardiography provides better delineation of spatial relationships in complex cardiac geometries and more accurate volumetric information without geometric assumptions. For atrial septal defects, an en face view of the tissue defect allows better decisions on device closure. For tricuspid valve malformations, an en face view provides diagnostic information that is difficult to obtain from routine 2D tomography. In repaired tetralogy of fallot with pulmonary regurgitation, preoperative 3D echocardiography- based right ventricular volume may be used to determine the timing of a pulmonary valve replacement in conjunction with cardiovascular magnetic imaging. For optimal adult CHD care, 3D echocardiography is an important complement to routine 2D echocardiography.

Dynamic characteristic mechanism of atrial septal defect using real-time three-dimensional echocardiography and evaluation of right ventricular functions

The dynamic characteristics of the area of the atrial septal defect (ASD) were evaluated using the technique of real-time three-dimensional echocardiography (RT 3DE), the potential factors responsible for the dynamic characteristics of the area of ASD were observed, and the overall and local volume and functions of the patients with ASD were measured. RT 3DE was performed on the 27 normal controls and 28 patients with ASD. Based on the three-dimensional data workstations, the area of ASD was measured at P wave vertex, R wave vertex, T wave starting point, and T wave terminal point and in the T-P section. The right atrial volume in the same time phase of the cardiac cycle and the motion displacement distance of the tricuspid annulus in the corresponding period were measured. The measured value of the area of ASD was analyzed. The changes in the right atrial volume and the motion displacement distance of the tricuspid annulus in the normal control group and the ASD group were compared. The right ventricular ejection fractions in the normal control group and the ASD group were compared using the RT 3DE long-axis eight-plane (LA 8-plane) method. Real-time three-dimensional volume imaging was performed in the normal control group and ASD group (n=30). The right ventricular inflow tract, outflow tract, cardiac apex muscular trabecula dilatation, end-systolic volume, overall dilatation, end-systolic volume, and appropriate local and overall ejection fractions in both two groups were measured with the four-dimensional right ventricular quantitative analysis method (4D RVQ) and compared. The overall right ventricular volume and the ejection fraction measured by the LA 8-plane method and 4D RVQ were subjected to a related analysis. Dynamic changes occurred to the area of ASD in the cardiac cycle. The rules for dynamic changes in the area of ASD and the rules for changes in the right atrial volume in the cardiac cycle were consistent. The maximum value of the changes in the right atrial volume occurred in the end-systolic period when the peak of the curve appeared. The minimum value of the changes occurred in the end-systolic period and was located at the lowest point of the volume variation curve. The area variation curve for ASD and the motion variation curve for the tricuspid annulus in the cardiac cycle were the same. The displacement of the tricuspid annulus exhibited directionality. The measured values of the area of ASD at P wave vertex, R wave vertex, T wave starting point, T wave terminal point and in the T-P section were properly correlated with the right atrial volume (P<0.001). The area of ASD and the motion displacement distance of the tricuspid annulus were negatively correlated (P<0.05). The right atrial volumes in the ASD group in the cardiac cycle in various time phases increased significantly as compared with those in the normal control group (P=0.0001). The motion displacement distance of the tricuspid annulus decreased significantly in the ASD group as compared with that in the normal control group (P=0.043). The right ventricular ejection fraction in the ASD group was lower than that in the normal control group (P=0.032). The ejection fraction of the cardiac apex trabecula of the ASD patients was significantly lower than the ejection fractions of the right ventricular outflow tract and inflow tract and overall ejection fraction. The difference was statistically significant (P=0.005). The right ventricular local and overall dilatation and end-systolic volumes in the ASD group increased significantly as compared with those in the normal control group (P=0.031). The aRVEF and the overall ejection fraction decreased in the ASD group as compared with those in the normal control group (P=0.0005). The dynamic changes in the area of ASD and the motion curves for the right atrial volume and tricuspid annulus have the same dynamic characteristics. RT 3DE can be used to accurately evaluate the local and overall volume and functions of the right ventricle. The local and overall volume loads of the right ventricle in the ASD patients increase significantly as compared with those of the normal people. The right ventricular cardiac apex and the overall systolic function decrease.