The ultimate goal in the treatment of end-stage heart failure is the recovery of cardiac function following mechanical assistance of the left ventricle. The HVAD™ pump (HeartWare Inc.) left ventricular assist device (LVAD) can be explanted without resternotomy. This article demonstrates that the use of a custom-made mechanical plug (manufactured by INNOVO Solutions GmbH), which can be inserted into the LVAD's sewing ring, is feasible. This mechanical plug explicitly designed for device explantation is a viable alternative to the current standard of care. This article adopts a less invasive technique to explant the pump. The following case illustrates this technique.
This case report describes an initially stabilized transcatheter heart valve that embolized in the ascending aorta, leading to a postprocedural acute type A aortic dissection.
Pseudoaneurysm of the mitral-aortic intervalvular fibrosa (P-MAIVF) can be a rare but life-threatening complication of infective endocarditis, cardiac surgery, or blunt chest trauma. Congenital heart diseases especially in young patients are reported as additionally predisposing factors. We present the case of an asymptomatic 52 years-old male with bicuspid aortic valve and gastrointestinal polyposis syndrome in whom a P-MAIVF was incidentally detected. The patient successfully underwent pseudoaneurysm surgical repair and aortic valve replacement and despite no evident causes were found we hypothesized addiotional underlying mechanism of P-MAIVF.
Background: Left ventricular assist devices (LVADs) have been a significant development in the treatment of patients with advanced heart failure supporting circulation as a bridge to transplant, recovery, or long-term destination therapy. When ventricular recovery occurs, there are multiple described ways of proceeding. HM2 decommissions are well described with varying degrees of explant operations, less so in HM3 due to the novelty of the device. In certain situations, invasive surgery can carry high risk and so a minimally invasive decommission, leaving the LVAD essentially intact in situ can be considered.
Case report: In this report, we describe the case of a 35-year-old male diagnosed with an idiopathic dilated cardiomyopathy requiring an LVAD with subsequent identification of cardiac recovery with the asymptomatic thrombosis of the second HM3 device. Investigations demonstrated absent flow through the pump whilst the patient-reported NYHA I functional class symptoms. The Driveline was cut with the remaining internal pump components decommissioned and left in situ. At 1 year, the patient continues to do well with continued features of cardiac recovery with an LVEF of over 40%.
Conclusion: LV recovery is well recognized with typical management being LVAD explant surgeries performed. Each case should be analyzed for risks and benefits to the patient and future research showed be directed towards levels of decommissioning surgery and management post-LVAD decommission patient care.
Background: Immunoglobulin G4-related disease is a rare systemic inflammatory disease that can lead to vascular manifestations such as periarteritis.
Case presentation: A 41-year-old man with stress angina was referred for coronary bypass surgery due to triple vessel coronary disease.
Conclusions: Operative findings revealed significant adhesions and dense peri-coronary and periaortic thickening, also involving the left internal mammary artery. The IgG4-associated disease was confirmed by aortic pathology. The stress angina subsequently improved with the initiation of treatment with prednisone and rituximab.
Acute type A aortic dissection (ATAAD) is a life-threatening vascular disease. We report a case of ATAAD treated with interventional therapy using 3D-printing assisted pre-windowing coated stent combined with in situ window-opening technology. There were few complications and the patient experienced an uneventful recovery.