Coarctation of the Aorta with Aortic Arch Hypoplasia: Midterm Outcomes of Aortic Arch Reconstruction with Autologous Pulmonary Artery Patch

Prenatal ultrasound prediction of coarctation of the aorta: a nomogram for risk stratification

BACKGROUND

Coarctation of the aorta is one of the most common congenital heart malformations, accounting for approximately 7% of all live births with congenital heart disease. It is crucial to make a definitive prenatal diagnosis as it can inform clinical treatment decisions.

OBJECTIVE

The diagnostic criteria for coarctation of the aorta are still controversial, and there is currently no risk nomogram available to assess the probability of coarctation of the aorta using routine ultrasound parameters. We explored the prenatal diagnostic efficacy of ultrasound parameters and established a nomogram for coarctation of the aorta.

MATERIALS AND METHODS

A total of 101 fetuses with suspected coarctation of the aorta diagnosed by prenatal ultrasound from July 2015 to June 2023 were collected retrospectively. The patients were divided into two groups according to the diagnostic results: a normal group (n=42; gestational weeks, 28.5±6.0) and a coarctation of the aorta group (n=59; gestational weeks, 26.7±5.1). Univariate and multivariate logistic regression analyses were used to identify echocardiographic predictors of coarctation of the aorta. Moreover, the patients were divided into a training set and a validation set in a ratio of 8:2, and a nomogram for the prenatal diagnosis of coarctation of the aorta was established using R.

RESULTS

(1) Aortic isthmus, aortic isthmus z-score, ascending aorta, ascending aorta z-score, pulmonary artery, pulmonary artery z-score, pulmonary artery/ascending aorta ratio, persistent left superior vena cava, and aortic arch dysplasia were the predictive markers of coarctation of the aorta in the univariate logistic regression analysis (P<0.05). (2) Aortic isthmus z-score, ascending aorta z-score, pulmonary artery/ascending aorta ratio, persistent left superior vena cava, and aortic arch dysplasia were identified as the final predictors after multivariate logistic regression analysis (P<0.05). (3) The combined model, which included aortic isthmus z-score, ascending aorta z-score, pulmonary artery/ascending aorta ratio, persistent left superior vena cava, and aortic arch dysplasia, demonstrated a larger area under the receiver operating characteristic curve (AUC) (AUC=0.96, sensitivity=93.22%, specificity=88.10%) than aortic isthmus z-score alone (AUC=0.77, sensitivity=77.97%, specificity=71.43%), ascending aorta z-score alone (AUC=0.78, sensitivity=54.24%, specificity=90.48%), pulmonary artery/ascending aorta ratio alone (AUC=0.68, sensitivity=72.88%, specificity=54.76%), aortic arch dysplasia alone (AUC=0.70, sensitivity=66.10%, specificity=73.81%), and persistent left superior vena cava alone (AUC=0.72, sensitivity=79.66%, specificity=64.29%). The nomogram, which was constructed with these parameters, also exhibited excellent calibration curves and a good decision curve analysis curve.

CONCLUSIONS

The nomogram established by aortic isthmus z-score, ascending aorta z-score, pulmonary artery/ascending aorta ratio, persistent left superior vena cava, and aortic arch dysplasia demonstrated excellent efficacy in the prenatal diagnosis of coarctation of the aorta.

End-to-side anastomosis and autologous pulmonary artery patch for aortic coarctation and hypoplastic aortic arch

Background

Aortic coarctation (CoA) is a congenital heart disease that usually combines various cardiovascular malformations, including hypoplastic aortic arch (HAA). We explore end-to-side anastomosis (ESA) and autologous pulmonary artery patch (APAP) in CoA with HAA, to provide more clinical experience.

Methods

This is a single-center retrospective study. The target population is patients with aortic stenosis and HAA who underwent surgery between 2015 and 2021. All cases included were consecutive, and no instances were omitted due to absent data, lack of consent, or other factors. Collect information on gender, age, and weight at the time of the operation, detailed information on the constricted segment and pressure gradient evaluated by echocardiography and computed tomography (CT), and other factors of patients, and these data were analyzed by statistical methods.

Results

Ninety-six patients (67 males and 29 females) with median age of 76 (41.75, 128.50) days and median weight of 4.20 (3.70, 5.10) kg were enrolled. The follow-up period was 46.20 (34.40, 54.70) months. The patients were divided into two groups based on surgery: ESA (G1, 59) and APAP (G2, 37). The combined cardiovascular malformations were treated simultaneously. None of the patients had neurological events or renal failure, and three died early after the operation. Finally, 93 patients were successfully followed-up. Cox regression showed that ESA was a risk factor for aortic arch geometry is closer to Gothic (G-AAg), elevated blood pressure (EBp), and aortic recoarctation (reCoA) after surgery. In G1, 18 patients had G-AAg (P=0.03), 13 had EBp (P=0.041), and 12 had reCoA (P=0.041), all of which were significantly higher than those in G2 (three had G-AAg, one of whom had EBp and reCoA).

Conclusions

It is safe and effective to repair CoA and HAA and other cardiovascular malformations through one-stage median sternotomy. Compared with ESA, APAP can lower the risks of G-AAg, EBp, and reCoA. Although APAP takes longer, the proper application of selective antegrade cerebral perfusion may lower the risks. We recommend expanding the indications for APAP when circumstances allow, which will benefit patients.

Automatic Laplacian-based shape optimization for patient-specific vascular grafts

Cognitional heart disease is one of the leading causes of mortality among newborns. Tissue-engineered vascular grafts offer the potential to help treat cognitional heart disease through patient-specific vascular grafts. However, current methods often rely on non-personalized designs or involve significant human intervention. This paper presents a computational framework for the automatic shape optimization of patient-specific tissue-engineered vascular grafts for repairing the aortic arch, aimed at reducing the need for manual input and improving current treatment outcomes, which either use non-patient-specific geometry or require extensive human intervention to design the vascular graft. The paper's core innovation lies in an automatic shape optimization pipeline that combines Bayesian optimization techniques with the open-source finite volume solver, OpenFOAM, and a novel graft deformation algorithm. Specifically, our framework begins with Laplacian mode computation and the approximation of a computationally low-cost Gaussian process surrogate model to capture the minimum weighted combination of inlet-outlet pressure drop (PD) and maximum wall shear stress (WSS). Bayesian Optimization then performs a limited number of OpenFOAM simulations to identify the optimal patient-specific shape. We use imaging and flow data obtained from six patients diagnosed with cognitional heart disease to evaluate our approach. Our results showcase the potential of online training and hemodynamic surrogate model optimization for providing optimal graft shapes. These results show how our framework successfully reduces inlet-outlet PD and maximum WSS compared to pre-lofted models that include both the native geometry and human-designed grafts. Furthermore, we compare how the performance of each design optimized under steady-state simulation compares to that design's performance under transient simulation, and to what extent the optimal design remains similar under both conditions. Our findings underscore that the automated designs achieve at least a 16% reduction in blood flow pressure drop in comparison to geometries optimized by humans.

Virtual Planning and Patient-Specific Graft Design for Aortic Repairs

PURPOSE

Patients presenting with coarctation of the aorta (CoA) may also suffer from co-existing transverse arch hypoplasia (TAH). Depending on the risks associated with the surgery and the severity of TAH, clinicians may decide to repair only CoA, and monitor the TAH to see if it improves as the patient grows. While acutely successful, eventually hemodynamics may become suboptimal if TAH is left untreated. The objective of this work aims to develop a patient-specific surgical planning framework for predicting and assessing postoperative outcomes of simple CoA repair and comprehensive repair of CoA and TAH.

METHODS

The surgical planning framework consisted of virtual clamp placement, stenosis resection, and design and optimization of patient-specific aortic grafts that involved geometrical modeling of the graft and computational fluid dynamics (CFD) simulation for evaluating various surgical plans. Time-dependent CFD simulations were performed using Windkessel boundary conditions at the outlets that were obtained from patient-specific non-invasive pressure and flow data to predict hemodynamics before and after the virtual repairs. We applied the proposed framework to investigate optimal repairs for six patients (n = 6) diagnosed with both CoA and TAH. Design optimization was performed by creating a combination of a tubular graft and a waterslide patch to reconstruct the aortic arch. The surfaces of the designed graft were parameterized to optimize the shape.

RESULTS

Peak systolic pressure drop (PSPD) and time-averaged wall shear stress (TAWSS) were used as performance metrics to evaluate surgical outcomes of various graft designs and implantation. The average PSPD improvements were 28% and 44% after the isolated CoA repair and comprehensive repair, respectively. Maximum values of TAWSS were decreased by 60% after CoA repair and further improved by 22% after the comprehensive repair. The oscillatory shear index was calculated and the values were confirmed to be in the normal range after the repairs.

CONCLUSION

The results showed that the comprehensive repair outperforms the simple CoA repair and may be more advantageous in the long term in some patients. We demonstrated that the surgical planning and patient-specific flow simulations could potentially affect the selection and outcomes of aorta repairs.

Whole exome sequencing reveals genetic landscape associated with left ventricular outflow tract obstruction in Chinese Han population

Left ventricular outflow tract obstruction (LVOTO), a major form of outflow tract malformation, accounts for a substantial portion of congenital heart defects (CHDs). Unlike its prevalence, the genetic architecture of LVOTO remains largely unknown. To unveil the genetic mutations and risk genes potentially associated with LVOTO, we enrolled a cohort of 106 LVOTO patients and 100 healthy controls and performed a whole-exome sequencing (WES). 71,430 rare deleterious mutations were found in LVOTO patients. By using gene-based burden testing, we further found 32 candidate genes enriched in LVOTO patient including known pathological genes such as GATA5 and GATA6. Most variants of 32 risk genes occur simultaneously rather exclusively suggesting polygenic inherence of LVOTO and 14 genes out of 32 risk genes interact with previously discovered CHD genes. Single cell RNA-seq further revealed dynamic expressions of GATA5, GATA6, FOXD3 and MYO6 in endocardium and neural crest lineage indicating the mutations of these genes lead to LVOTO possibly through different lineages. These findings uncover the genetic architecture of LVOTO which advances the current understanding of LVOTO genetics.

Progressive changes in residual gradient after aortic coarctation repair and its role in the prediction of reintervention: A longitudinal data analysis

Background

Repair of aortic coarctation through left thoracotomy is the standard treatment when anatomically feasible. Long-term outcomes are well studied, including the need for reintervention. However, the timely variation in residual gradients across the repaired segment is ill-defined. The aim of this work was to study the progressive changes of estimated peak gradient (ePG) acquired by transthoracic continuous-wave Doppler echocardiography across the aortic arch after repair and to assess the role of timing of assessment and values of ePG in prediction of reintervention.

Materials and Methods

All eligible patients for this study who underwent aortic coarctation repair through left thoracotomy from 2001 to 2017 were reviewed. Details of the aortic arch dimensions and associated lesions were obtained by transthoracic echocardiography (TTE). The primary outcome was the ePG across the aortic arch after repair. Longitudinal data analyses with mixed effect modeling were used to determine independent predictors for ePGs.

Results

A total of 312 patients were included. Median age and weight were 30 days and 4 kg, respectively. Associated lesions included ventricular septal defect (VSD) (53%), bicuspid aortic valve (53%) and mitral stenosis (25%). Over 15-years follow-up the freedom from reintervention was 92.3%, while 24 out of the 312 patients underwent reintervention (7.7%). Longitudinal data analyses of serial 2566 TTE studies were done. The graphical display showed that the ePG across coarctation area in the first postoperative TTE was the most notable difference between those who underwent reintervention and those who did not. Further testing with proportional hazard and logistic regression modeling confirmed this finding. The area under receiver operating curve statistics showed that an ePG of 25 mmHg is an optimal cutoff value for the prediction of the reintervention.

Conclusions

The ePG acquired in the first postoperative TTE is the most important predictor for reinterventions. The presence of VSD is associated with decreased ePGs. We propose that an ePG in the first postoperative TTE of 25 mmHg or more is a strong predictor for the need of reintervention.

Contemporary outcomes of aortic arch hypoplasia and coarctation repair in a tertiary paediatric cardiac surgery centre

OBJECTIVES

There are several studies reporting the outcomes of hypoplastic aortic arch and aortic coarctation repair with combination of techniques. However, only few studies reported of aortic arch and coarctation repair using a homograft patch through sternotomy and circulatory arrest with retrograde cerebral perfusion. We report our experience and outcomes of this cohort of neonates and infants.

METHODS

We performed retrospective data collection for all neonates and infants who underwent aortic arch reconstruction between 2015 and 2020 at our institute. Data are presented as median and inter-quartile range (IQR).

RESULTS

The cohort included 76 patients: 49 were males (64.5%). Median age at operation was 16 days (IQR 9-43.25 days). Median weight was 3.5 kg (IQR 3.10-4 kg). There was no 30 days mortality. Three patients died in hospital after 30 days (3.95%), neurological adverse events occurred in only one patient (1.32%) and recurrent laryngeal nerve injury was noted in four patients (5.26%). Only three patients required the support of extracorporeal membrane oxygenation (ECMO) with a median ECMO run of 4 days. Median follow-up was 35 months (IQR 18.9-46.4 months); 5 years survival was 93.42% (n = 71). The rate of re-intervention on the aortic arch was 9.21% (n = 7).

CONCLUSION

Our experience shows excellent outcomes in repairing aortic arch hypoplasia with homograft patch under moderate to deep hypothermia with low in-hospital and 5 years mortality rates.

Surgical options for proximal and distal transverse arch hypoplasia in infants with coarctation

BACKGROUND

Although various surgical techniques have been reported for aortic arch reconstruction for proximal and distal transverse arch (PDTA) hypoplasia, no consensus has been reached on a surgical option for initial arch reconstruction. This study was undertaken to review various arch reconstruction options for PDTA hypoplasia in Chinese infants.

METHODS

A retrospective review of 121 infants who underwent initial arch reconstruction of the proximal and distal aortic arches between 2010 and 2020 was performed. Freedom from recoarctation was analyzed using Kaplan-Meier analysis. Univariate and multivariable Cox regression analyses were performed to determine perioperative data associated with an increased risk of recoarctation after surgery.

RESULTS

Aortic arch reconstruction was performed by end-to-side anastomosis (ESA) (n=37) or patch repair [autologous pericardial patch (APP), n=53; bovine pericardial patch (BPP), n=20; autologous pulmonary artery patch (APAP), n=11]. The relative diameter of the proximal arch was 0.51±0.07, and the relative diameter of the distal arch was 0.43±0.07. The median follow-up time was 679 (range, 388-1,362) days. Recoarctation was observed in 44 (36.4%) patients. ESA was an independent risk factor for further development of recoarctation after the initial aortic arch reconstruction [hazard ratio (HR) =2.13; P=0.020].

CONCLUSIONS

Aortic arch reconstruction via ESA was an independent risk factor for late recoarctation of the proximal and distal aortic arches in patients who underwent the initial surgery in infancy.

TRIAL REGISTRATION

Chinese Clinical Trials Registry ChiCTR2100048212.

Modified technique for coarctation of aorta with hypoplastic distal aortic arch

BACKGROUND

A combination of coarctation of aorta with various severity of distal arch hypoplasia frequently occurs in newborns. Traditional techniques in the neonatal period such as extended end-to-end anastomosis or inner curve patch are controversial. Arch geometry has a marked role in long-term outcomes. We introduce a modified Amato technique of distal aortic arch enlargement with native tissue-to-tissue reconstruction.

METHODS

Neonatal patients with coarctation of aorta and distal aortic arch hypoplasia who underwent surgical reconstruction using this technique between January 2016 and December 2019 in our center were included. Patients with concomitant complex heart defects were excluded. Data were obtained from echo protocols, CT scans before and after repair. The dimensions of the arch were assessed using Z-score, arch geometry was evaluated with height/width ratio.

RESULTS

Thirty-two patients (22 males, 10 females) were included. Median age and weight were 7 days (5; 18) and 3.5 kg (3.1; 4.0), respectively. The Z-score of distal part of the arch before and after procedure was significantly different (<0.01). No mortality, recoarctation, or bronchial compression was found during 18 (6-38) months of follow-up.

CONCLUSION

Modified technique for coarctation of aorta with hypoplastic distal aortic arch provides favorable geometry of the aorta with a low risk of morbidity. The proper selection and accurate technique could minimize potential risks. This method is relatively safe and might improve long-term outcomes associated with the geometry of aorta.

Short- and midterm outcomes of aortic arch reconstruction: Beating heart versus cardiac arrest

OBJECTIVES

We aimed to compare the short- and midterm results of perfusion strategies used for arch reconstruction surgery.

MATERIAL AND METHODS

One hundred and seventy-three consecutive patients who underwent aortic arch reconstruction surgery for transverse arcus hypoplasia between January 2011 and February 2020 were retrospectively analyzed. The patients were divided into two groups, as beating heart (BH) group and cardiac arrest (CA) group.

RESULTS

The CA group comprised 60 (35%) patients and the remaining 113 (65%) patients were in the BH group. The median age of the patients was 30 (interquartile range: 18-95) days. The incidences of acute renal failure (ARF) and delayed sternal closure were higher in the CA group (p = .05, <.001, respectively). Balloon angioplasty was performed in 5 (2%) patients and reoperation was performed in 11 (6%) patients due to restenosis. There were no statistically significant differences between the two groups in terms of reoperation or reintervention rates (p = .44 and .34, respectively).

CONCLUSIONS

Both strategies were associated with satisfactory midterm prevention of reintervention and reoperation. Given the lower incidence of ARF and delayed sternal closure in the postoperative period and similar midterm outcomes, we believe that the BH strategy is preferable.

Diagnosis and Surgical Repair for Coarctation of the Aorta With Intracardiac Defects: A Single Center Experience Based on 93 Infants

Introduction: This study aims to summarize the clinical characteristics of coarctation of the aorta (CoA) associated with intracardiac anomalies in infants. Methods: Medical records of 93 infants who were diagnosed with CoA and intracardiac anomalies from August 2009 to August 2018 were retrospectively reviewed. Results: All of the 93 infants underwent single-stage repair for CoA associated with intracardiac anomalies. The mean operative time was 264.6 ± 57.1 min, and the time of ICU stay was 7.0 ± 4.1 days. The residual transcoarctation pressure gradient before discharge was lower than the pressure gradient prior to surgery (48.3 ± 17.5 vs. 22.4 ± 9.6 mmHg, P < 0.01). Early death before discharge was found in five infants. The mean follow-up time of 88 hospital survivors was 40.0 ± 26.4 months, and no subsequent death occurred in the follow-up. Transcoarctation pressure gradient of the 88 survivors in their last follow-up was 19.6 ± 10.5 mmHg. The pressure gradient of 27 cases was higher than 20 mmHg. Significant lower limb retardation was observed in four cases; therefore, balloon angioplasty consult was recommended. The cumulative recoarctation-free survival rate in 3-year follow-up was 73.5%. Conclusions: To avoid secondary operations in early period, single-stage repair of CoA associated with intracardiac anomalies was effective and safe, and the outcomes in early to mid-term follow-up were satisfactory.

Figure of 3-sign: a case report

Background

Case summary

Discussion

Perioperative Outcomes of Using Different Temperature Management Strategies on Pediatric Patients Undergoing Aortic Arch Surgery: A Single-Center, 8-Year Study

Background: With the widespread application of regional low-flow perfusion (RLFP), development of surgical techniques, and shortened circulatory arrest time, deep hypothermia is indispensable for organ protection. Clinicians have begun to increase the temperature to reduce hypothermia-related adverse outcomes. The aim of this study was to evaluate the safety and efficacy of elevated temperatures during aortic arch surgery with lower body circulatory arrest (LBCA) combined with RLFP. Methods: We retrospectively analyzed data from 207 consecutive pediatric patients who underwent aortic arch repair with LBCA & RLFP between January 2010 and July 2017 and evaluated different hypothermia management strategies. The overall cohort was divided into three groups: deep hypothermia (DH, 20.0-25.0°C), moderate hypothermia (MoH, 25.1-30.0°C) and mild hypothermia (MH, 30.1-34.0°C). Results: The percentage of AKI-1 occurrences was significantly increased in the MH group (51.52%) compared to those in the DH (25.40%) and MoH (37.84%) groups (P = 0.036); prolonged hospital stay occurrences were decreased with elevated temperature (DH 47.62%, MoH 28.83%, MH 18.18%, P = 0.006). Neurological complications, peritoneal dialysis, hepatic dysfunction, 30-day hospital mortality, delay extubation occurrences were no significant among the groups. Logistic analysis showed that the MH group was negatively associated with post-op AKI-1 compared with the DH group [OR = 0.329 (0.137-0.788), P = 0.013], no differences were found between the MoH and the MH group. Compared to other groups, the intubation time (P = 0.006) and postoperative hospital stay (P = 0.009) were significantly decreased in the MH group. Multivariate logistic analysis showed hypothermia levels were not significant with prolonged hospital stay. Conclusions: This retrospective analysis demonstrated that for pediatric patients undergoing surgeries with RLFP & LBCA, three different gradient temperature management strategies are available: deep, moderate, and mild hypothermia. Utilizing mild or moderate hypothermia is safe and feasible. Although the number of AKI-1 occurrences in the MH group was significantly increased compared to those in the other groups, further analysis showed no significance in the MoH and MH group, mild hypothermia management is as safe as others when used appropriately.