The Treatment Strategy for the Atrial Septal Defect in the Presence of Severe Pulmonary Hypertension.

Atrial septal defect is one of the most common congenital heart diseases in adults. The defect often leads to volume overload in the right heart coupled with the potential risk of right heart failure and pulmonary arterial hypertension. These conditions lead to worsening in quality of life, decrease in physical capacity, and even to fatal outcomes. The main strategy for treatment of atrial septal defect is a transcatheter or surgical closure of the defect, but in patients with severe pulmonary arterial hypertension, it is recommended to manage pulmonary arterial hypertension and after that treat the defect invasively. This strategy is called "treat and repair" strategy. We present an illustrative case report of management and treatment of atrial septal defect, complicated with severe pulmonary arterial hypertension. In this case, surgical closure of the defect was contraindicated because of the high pulmonary vascular resistance. Therefore, the "treat and repair" strategy was approached. After specific medical treatment of pulmonary arterial hypertension, surgical closure of the defect was chosen and proven successful.

A commentary regarding the article 'A meta-analysis of atrial septal defect closure in patients with severe pulmonary hypertension: Is there a room for poking holes amidst debate?'

Atrial septal defects (ASD) are a common congenital heart defect. The majority of patient with ASDs often follow an uncomplicated course of events. However, a proportion of patients with ASDs, may have their condition complicated by pulmonary hypertension (PH), with a subsequent significant impact on management, morbidity, and mortality. The presence of PH influences the suitability for defect closure. Suitability for ASD closure when PVR is between 2.3 and 4.6 WU (PVRi 4-8 WU/m2) is not straightforward and clinical decision-making is individualized. Considerations include, whether to intervene with a complete defect closure, fenestrated closure or the 'treat and repair' strategy. However, it is difficult to determine the outcomes for ASD closure in patients with moderately-to-severely elevated PVR. A "treat and repair strategy" might be an option. In addition, the patient should be carefully selected by the observation of PVR change through vasoreactivity and balloon occlusion tests, and then closure should be considered. For patients with a predictable poor prognosis, research on the risk assessment of ASD closure in patients with PAH will be needed for a more individualized treatment plan.

An editorial regarding the article 'A meta-analysis of atrial septal defect closure in patients with severe pulmonary hypertension: is there a room for poking holes amidst debate?'

Pulmonary arterial hypertension (PAH) related to an atrial septal defect (ASD) poses a challenge to transcatheter closure of an ASD. In patients with untreated ASDs, chronic pulmonary over-circulation due to shunt flow can cause pulmonary vascular remodeling and increased pulmonary vascular resistance. PAH is one of the difficult situations to treat. Complex pathophysiology, association of the multiple comorbidities make clinical scenario challenging. The closure of ASD in patients with PAH improves PAH severity and cardiac functional capacity and reduces atrial arrhythmias. However, some patients show remaining PAH or aggravation of PAH post-ASD closure. PAH is a strong predictor of mortality in older patients who undergo ASD closure. Hence, the decision to opt for ASD closure should be carefully considered in high-risk patients with PAH. As per the American Heart Association/American College of Cardiology 2018 guidelines, ASD with elevated pulmonary artery pressure (PAP) and pulmonary vascular resistance (PVR) more than two-thirds systemic is considered to be a contraindication for closure. However, it is difficult to determine the outcomes for ASD closure in patients with moderately-to-severely elevated PVR. A "treat and repair strategy" might be an option. In addition, the patient should be carefully selected by the observation of PVR change through vasoreactivity and balloon occlusion tests, and then closure should be considered. For patients with a predictable poor prognosis, research on the risk assessment of ASD closure in patients with PAH will be needed for a more individualized treatment plan.

Therapeutic effects of treat and repair strategy in pediatric patients with pulmonary arterial hypertension and simple congenital heart defects.

Surgical indications for patients with pulmonary arterial hypertension (PAH) and congenital heart defects are controversial. The treat and repair strategy has demonstrated efficacy in adult populations, but there have been no studies on pediatric patients. This study included pediatric patients with PAH and simple congenital heart defects who underwent corrective repair between 2012 and 2021. According to the preoperative treatment strategies, the patients were divided into a regular strategy group (Group 1) and a treat-and-repair strategy group (Group 2). Postoperative recovery and follow-up results were compared between the two groups. A total of 33 patients were included in this study. Group 1 consisted of 19 patients, whereas Group 2 consisted of 14 patients. The pulmonary vascular resistance index in Group 2 was higher than that in Group 1 (10.9 ± 4.1 vs. 8.2 ± 1.6 WU, p = 0.031). There were no differences in postoperative recovery between the two groups (p > 0.05). During follow-up, five patients were lost (three in Group 1 and two in Group 2). The median follow-up period was 59 months. One patient died in Group 1, and two patients died in Group 2. There was no significant difference in the survival curve (p = 0.39). At the last follow-up, another seven patients had experienced a non-low-risk condition, with a total of three non-low-risk patients in Group 1 and seven in Group 2, including one patient in each group who had a history of ICU admission. According to the ROC curve, a preoperative PVRi <8.2 WU×m2 can predict postoperative persistent low-risk state, PVRi <5.2 WU×m2 can avoid postoperative death and/or ICU administration. In pediatric patients with PAH and simple congenital heart defects, the treat and repair strategies may provide surgery opportunities, PVRi should be <8 WU×m2, and <5.2 WU×m2 is the best choice.

Treatment of left main coronary artery compression in the setting of unpalliated congenital heart disease: a case series.

Background: Left main coronary artery compression syndrome (LMCS) is a well-characterized phenomenon resulting from compression of the left main coronary artery (LMCA) between the aorta and an enlarged pulmonary arterial trunk. The development of LMCS is usually described in the context of severe pulmonary arterial hypertension. Cases of LMCS, in the context of unpalliated congenital heart disease (CHD), are complex clinical scenarios that challenge traditional treatment paradigms. Case summary: Here, we discuss two thought-provoking patients with unpalliated CHD complicated by severe pulmonary hypertension (PH). Both patients developed LMCS, one with severe non-ST elevation myocardial infarction and the other with refractory angina. Their pulmonary vascular resistance was severely elevated despite pulmonary vasodilator therapy, and concomitant surgical correction of their CHD in addition to bypass grafting was deemed high risk. They underwent successful percutaneous coronary intervention (PCI) of the LMCA with drug-eluting stents. Discussion: Pulmonary hypertension can develop in the setting of long-standing unpalliated CHD. Surgical correction of congenital heart defects may be performed in select patients with systemic-to-pulmonary shunts, contingent on the status of PH severity. Pulmonary vasodilator therapy modulates haemodynamics to ensure surgical correction without risk of cardiopulmonary demise-termed the 'treat and repair' strategy. LMCS, an increasingly recognized phenomenon in patients with long-standing PH, is a notable complicating factor in the 'treat and repair' strategy. We introduce the concept that PCI of the LMCA may bridge patients to corrective surgery for CHD by allowing time for optimization of their pulmonary vasodilator therapy.

A case of a middle-aged patient with a ventricular septal defect complicated by severe pulmonary hypertension-stepwise surgical repair with pulmonary vasodilators.

We report a case of ventricular septal defect (VSD) in which we attempted to treat pulmonary arterial hypertension (PAH) with the goal of VSD closure in an adult with suspected Eisenmenger syndrome in childhood. Four years previously (age 41 years), she was referred to our department due to repeated hemoptysis requiring further treatment of PAH. We started combination therapy with several pulmonary vasodilators. Two years later, her pulmonary vascular resistance (PVR) was improved but still not at the level where VSD closure was possible. To control the increased PA flow resulting from intensive PAH treatment and to reduce the risk of hemoptysis, we performed pulmonary artery banding (PAB). As the risk of hemoptysis decreased, a prostacyclin analog was introduced, and the dose was increased. More than 1 year after PAB, active vasoactivity testing became positive, suggesting that the pulmonary vascular lesion was now "reversible". We performed VSD closure and atrial septal defect creation even though her PVR was still high. After the operation, her exercise capacity was remarkably improved. We suggest that stepwise surgical repair with pulmonary vasodilators is an important treatment option for select patients with VSD with severe PAH. .

Treat-and-repair strategy is a feasible therapeutic choice in adult patients with severe pulmonary arterial hypertension associated with a ventricular septal defect: case series.

INTRODUCTION: Recent advances in pulmonary arterial hypertension (PAH)-specific drugs have dramatically changed the therapeutic strategy for PAH. A strategy that includes 'treatment' with PAH-specific drugs initially and then 'repair' by closure of the cardiac defect (i.e. 'treat and repair') was devised, and has been attempted, in patients with PAH associated with a cardiac defect. CASE PRESENTATION: We present three cases of severe PAH associated with a ventricular septal defect (VSD) in adult patients who were initially treated with PAH-specific drugs followed by VSD closure. Two of the patients were treated with a combination of an endothelin receptor antagonist (ERA), phosphodiesterase type 5 inhibitor, and intravenous prostacyclin before VSD closure. The third patient was treated with an ERA and pulmonary artery banding before VSD closure. After 12 months of anti-PAH treatment, the pulmonary vascular resistance index and the ratio of the pulmonary vascular index to the systemic vascular resistance index decreased to levels that allowed VSD closure. At the mid- and long-term follow-up measurements after surgical closure of the VSD, the mean pulmonary artery pressure had markedly decreased. DISCUSSION: Our case series suggests that the treat-and-repair strategy is a promising approach for adult patients with severe PAH associated with VSD.