Ambulatory intraaortic balloon pump use as bridge to heart transplant (original) (raw)
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The Journal of Thoracic and Cardiovascular Surgery, 2012
Objective: Axillary intra-aortic balloon pump therapy has been described as a bridge to transplant. Advantages over femoral intra-aortic balloon pump therapy include reduced incidence of infection and enhanced patient mobility. We identified the patients who would benefit most from this therapy while awaiting heart transplantation. Methods: We conducted a single-center, retrospective observational study to evaluate outcomes from axillary intra-aortic balloon pump therapy. These included hemodynamic parameters, duration of support, and success in bridging to transplant. We selected patients on the basis of history of sternotomy, elevated panel-reactive antibody, and small body habitus. Patients were made to ambulate aggressively beginning on postoperative day 1.
Ambulatory Intra Aortic Balloon Pump in Advanced Heart Failure
Cardiac failure review, 2018
Cardiac transplantation is the gold standard treatment for patients with advanced congestive heart failure that is refractory to maximal medical therapy. However, donor heart availability remains the major limiting factor, resulting in a large number of patients waiting long periods of time before transplantation. As a result, mechanical circulatory support devices have been increasingly used as a 'bridge' in order to sustain organ function and stabilise haemodynamics while patients remain on the transplant waiting list or undergo left ventricular assist device surgery. Intra aortic balloon pumps (IABP) are commonly used for temporary circulatory support in patients with advanced heart failure. IABP is traditionally placed percutaneously through the transfemoral artery approach. The major limitation with this approach is ambulatory restriction that can promote deconditioning, particularly in situations of prolonged circulatory support. A subclavian/axillary artery approach I...
The Subclavian Intraaortic Balloon Pump: A Compelling Bridge Device for Advanced Heart Failure
The Annals of thoracic surgery, 2015
A subclavian intraaortic balloon pump (SC-IABP) can help to optimize patients with advanced congestive heart failure as a bridge to definitive therapy. We retrospectively reviewed our experience to assess the application and safety of this technique. We studied 88 patients with decompensated advanced congestive heart failure who received SC-IABP placement between January 2011 and December 2014. The SC-IABP was placed through a graft in the subclavian artery. The intended therapeutic goals for SC-IABP were bridge to transplant (n = 61), mechanical circulatory support (n = 21), or recovery (n = 6). Success was defined as stroke-free survival, achievement of therapeutic goal, and maintenance or improvement in renal function, hemodynamics, and physical conditioning through ambulation and rehabilitation. Eighty patients were successfully bridged to the next therapy (transplant 93.4%, mechanical circulatory support 95.3%, recovery 50%). There was no mortality related to SC-IABP placement....
Short-Term Bridge to Heart Transplant Using the BVS 5000 External Ventricular Assist Device1,2
American Journal of Transplantation, 2002
71 patients with cardiogenic shock using the BVS 5000 were treated or accepted in transfer. Of the 24 transplanted, nine had dilated cardiomyopathy, ischemic cardiomyopathy, acute myocardial infarction, giant cell myocarditis and previous Fontan procedure (group I, n Ω 13). The others had postcardiotomy shock (group II, n Ω 11); seven were transferred to our center after device implantation. Age ranged from 8 to 67 years. Ten (77%) patients in group I were implanted without cardiopulmonary bypass. The mean duration of support was 6.7 (2-24) d. Twelve patients were extubated before transplantation and 13 (five in group I, eight in group II) received nonstandard donor organs. Survival to discharge and 1-year actuarial survival was 85 and 77% for group I and 73 and 64% for group II, respectively. Patients with post-implant serum bilirubin levels Ͼ 10 mg/dL had a tendency to expire from multiple systemic organ failure. Patients not ventilator-dependent at the time of transplant had the best outcomes. Short-term bridge to transplantation using the BVS 5000 is feasible in selected patients. Caution is recommended when directing such patients to transplant if they need ventilator support and have high serum bilirubin levels.
The Annals of Thoracic Surgery, 2003
Background. Pulsatile left ventricular assist devices are used with increasing frequency to bridge patients with end-stage heart failure to heart transplantation (HTx). Implantation of pulsatile devices is a cumbersome surgical procedure that is associated with major complications, such as bleeding, thromboembolism, and infection. Recently, a continuous axial flow left ventricular assist device (DeBakey ventricular assist device) has been introduced with the goal of reducing the incidence of major complications.
The Journal of Heart and Lung Transplantation, 2008
Background: The increasing prevalence of chronic heart failure has stimulated the ongoing development of left ventricular assist devices (LVADs) for both bridge-to-transplant (BTT) and destination therapy (DT). The aim of this prospective, multicenter clinical trial was to determine the efficacy and safety of a third-generation LVAD, the VentrAssist, in a BTT cohort. Methods: Patients (n ϭ 33) with end-stage chronic heart failure who required circulatory support as BTT therapy were implanted with a VentrAssist device. The primary outcome was survival until transplant or transplant eligibility with the device in situ at trial end-point (Day 154 after implant). The secondary outcomes were pump flow index and end-organ function. Safety, patient functional status and resource use were also assessed. Results: At trial end-point, the success rate was 82% (39.4% transplanted, 42.4% transplant-eligible). The LVAD pump flow index (median Ն2.7 liters/min/m 2) was sufficient to maintain an adequate circulation and significantly improve end-organ function. Of the 77 protocol-defined serious adverse events, most occurred within 30 days of implantation. No patients died as a direct result of pump failure or malfunction. After implantation, patient functional status improved, with 70% of patients achieving hospital discharge, and resource use was reduced. Conclusions: This trial demonstrated a favorable efficacy and safety profile for use of the VentrAssist LVAD in BTT patients.
Journal of Cardiovascular Medicine, 2006
Objective Left ventricular assist devices (VADs) are an accepted therapy to bridge patients with end-stage heart failure to heart transplantation. The DeBakey VAD, a continuous axial flow pump weighing 93 g, has been introduced into clinical practice as a bridge to transplant. Methods Starting from April 2000, 17 patients (12 males, five females, mean age 44.3 W 12.8 years; 11 dilated idiopathic cardiomyopathy, five ischaemic cardiomyopathy, one pulsatile device failure) with end-stage heart failure were implanted with a DeBakey VAD as a bridge to transplantation at our institution. Before implant, all patients suffered from severe heart failure (New York Heart Association functional class IV) despite optimal medical therapy and were put on the waiting list for heart transplantation. Mean cardiac index was 1.59 W 0.51 l/min/m 2. Results Fourteen patients were successfully transplanted after 99 W 117 days of assistance (range 11-443 days). Two patients died during assistance of multiorgan failure, one patient is still on VAD. No patient needed additional right ventricular mechanical support. Left ventricular/left VAD thrombosis occurred in one patient who was successfully treated conservatively. No clinical elevation of plasma free haemoglobin was detected. Neither device, driveline, abdominal pocket infection nor device failure occurred. Conclusions In our experience with the continuous axial flow DeBakey VAD, a high success rate was obtained associated with a low risk of complications. All the patients tolerated continuous blood flow for extended periods that makes this device a valuable alternative to pulsatile VADs as a bridge to transplantation.
Bridge to transplantation from mechanical circulatory support: a narrative review
Journal of Thoracic Disease
Objective: To highlight recent developments in the utilization of mechanical circulatory support (MCS) devices as bridge-to-transplant strategies and to discuss trends in MCS use following the changes to the United Network for Organ Sharing (UNOS) heart allocation system. Background: MCS devices have played an increasingly important role in the treatment of heart failure patients. Over the past several years, technological advancements have led to new developments in MCS devices and expanding indications for MCS use. In October of 2018, the UNOS heart allocation policy was revised to prioritize higher-urgency patients, including those supported with temporary MCS devices. Since then, changes in trends of MCS utilization have been observed. Methods: Articles from the PubMed database regarding the use of MCS devices as bridge-to-transplant strategies were reviewed. Conclusions: Over the past decade, utilization of temporary MCS devices, which include the intraaortic balloon pump (IABP), percutaneous ventricular assist devices (pVADs), and extracorporeal membrane oxygenation (ECMO), has become increasingly common. Recent advancements in MCS include the development of pVADs that can fully unload the left ventricle (LV) as well as devices designed to provide right-sided support. Technological advancements in durable left ventricular assist devices (LVADs) have also led to improved outcomes both on the device and following heart transplantation. Following the 2018 UNOS heart allocation policy revision, the utilization of temporary MCS in advanced heart failure patients has further increased and the proportion of patients bridged directly from a temporary MCS device has exponentially risen. However, following the start of the COVID-19 pandemic, the trends have reversed, with a decrease in the percentage of patients bridged from a temporary MCS device. As long-term data following the allocation policy revision becomes available, future studies should investigate how trends in MCS use for patients with advanced heart failure continue to evolve.
European Journal of Cardio-Thoracic Surgery, 2003
Objective: The MicroMed DeBakey left ventricular assist device (LVAD) axial blood flow pump was used as bridge to heart transplantation (HTx) in patients with terminal heart failure. The aim was to evaluate this novel mechanical circulatory support system in regard to overall outcome. Methods: Prospective study in 15 HTx candidates (mean age 40^7 years) with terminal heart failure and maximal medical treatment due to ischemic cardiomyopathy (CMP, n ¼ 5), dilated CMP ðn ¼ 3Þ, restrictive CMP ðn ¼ 2Þ, unclassified CMP ðn ¼ 1Þ, metabolic CMP ðn ¼ 1Þ, valvular CMP ðn ¼ 1Þ and congenital CMP ðn ¼ 2Þ. All patients were implanted with a MicroMed DeBakey LVAD. A rescue procedure was necessary in eight critical patients, while seven underwent elective LVAD implantation. Procedures were performed via median sternotomy, in normotherm femoro-femoral CPB (mean duration 59^1 min). Oral Marcoumar q (INR 2.0-3.0) and Aspirin q (100 mg daily) were started as soon as possible. Patients were discharged into a specialized rehabilitation clinic from which it was possible to release them home after a few weeks. Results: Successful implantation and discharge from ICU (mean stay 10^7 days) was possible in 11 patients. Seven were transplanted (mean support 50.7 days) and one is awaiting HTx (support .310 days) in the comfort of his home (NYHA I). Survival was 100% among the transplanted patients. Of the seven elective implants, five, and of the eight rescue procedures three patients underwent successful HTx. Four patients died early, while three patients died late on pump support due to intracranial hemorrhage (n ¼ 2, 73 and 76 days) and chest infection (n ¼ 1, 124 days). All survivors were discharged from hospital, with significant decrease in NYHA class (mean 3.8-2.4 ðn ¼ 11Þ). Treadmill testing showed increased exercise tolerance, from 35 to 71 W ðn ¼ 4Þ. Plasma BNP values (mean 950-162 ng/l ðn ¼ 4Þ) and pulmonary resistance (mean 316 -194.5 dyne s/cm 5 ðn ¼ 3Þ) decreased significantly during LVAD support. Conclusions: The MicroMed DeBakey LVAD is simple to implant; outpatient treatment is safe and efficient. Patients' condition and pulmonary resistances normalize within 6 weeks, making previously considered inoperable patients amenable for HTx. HTx can be performed in low-risk situation, allowing better donor -recipient matching and improving overall outcome. q