Costs Before and After Left Ventricular Assist Device Implant and Preceding Heart Transplant: A Cohort Study

BACKGROUND

Up to 50% of heart transplant candidates require bridging with left ventricular assist devices (VAD). This study describes hospital activity and cost 1 year preceding and 1 year following VAD implant (pre-VAD) and for the year before transplant (pre-HTX). The sample comprises an Australian cohort and is the first study to investigate costs using both institutional and linked administrative data.

METHODS

Institutional activity was established for 77 consecutive patients actively listed for transplant between 2009 and 2012. Costs were sourced from the institution or Australian refined diagnosis groups (arDRGs) and the National Efficient Price for admissions to other public and private institutions. Data from 25/77 VAD recipients were analysed and compared with data from 52/77 pre-transplant patients. Total and per day at risk costs were assessed, as well as totals per resource.

RESULTS

Fifty per cent (50%) of the hospital costs in the pre-VAD year occurred during admission of VAD implant. Sixty-four per cent (64%) of costs in the pre-HTX and 38% in the pre-VAD period occurred outside the implanting centre. Costs in the year prior to VAD, $97,565 (IQR $86,907-$153,916), were significantly higher than costs accrued in the year prior to transplant, $40,250 ($13,493-$81,260), p < 0.0001. Once discharged, costs per day at risk for post-VAD patients approximated those from the pre-admission period, p = 0.16 and in the more clinically stable pre-HTX cohort, p = 0.08.

CONCLUSION

Compared with the year prior, VAD implant stabilised hospital cost in patients discharged home. A high proportion of the hospital costs in the pre-implant year occur outside the implanting centre and should be considered in economic models assessing the impact of VAD implant.

Dynamic Modulation of Device-Arterial Coupling to Determine Cardiac Output and Vascular Resistance

Clinical adoption of mechanical circulatory support for shock is rapidly expanding. Achieving optimal therapeutic benefit requires metrics of state to guide titration and weaning of support. Using the transvalvular positioning of a percutaneous ventricular assist device (pVAD), device:heart interactions are leveraged to determine cardiac output (CO) and systemic vascular resistance (SVR) near-continuously without disrupting therapeutic function. An automated algorithm rapidly alternates between device support levels to dynamically modulate physiological response. Employing a two-element lumped parameter model of the vasculature, SVR and CO are quantified directly from measurements obtained by the pVAD without external calibration or invasive catheters. The approach was validated in an acute porcine model across a range of cardiac (CO = 3-10.6 L/min) and vascular (SVR = 501-1897 dyn s/cm⁵) states. Cardiac output calculations closely correlated (r = 0.82) to measurements obtained by the pulmonary artery catheter-based thermodilution method with a mean bias of 0.109 L/min and limits of agreement from - 1.67 to 1.89 L/min. SVR was also closely correlated (r = 0.86) to traditional catheter-based measurements with a mean bias of 62.1 dyn s/cm⁵ and limits of agreement from - 260 to 384 dyn s/cm⁵. Use of diagnostics integrated into therapeutic device function enables the potential for optimizing support to improve outcomes for cardiogenic shock.

The First Pediatric Heart Transplantation Bridged by a Durable Left Ventricular Assist Device in Korea

Treatment options for children with end-stage heart failure are limited. We report the first case of a successful pediatric heart transplantation bridged with a durable left ventricular assist device in Korea. A 10-month-old female infant with dilated cardiomyopathy and left ventricular non-compaction was listed for heart transplantation. During the waiting period, the patient’s status deteriorated. Therefore, we decided to provide support with a durable left ventricular assist device as a bridge to transplantation. The patient was successfully bridged to heart transplantation with effective support and without any major adverse events.

Incidence of Infection and Antimicrobial Consumption in Ventricular Assist Device (VAD) Recipients at the Prince Charles Hospital (TPCH): A Retrospective Analysis

BACKGROUND

Ventricular assist devices (VADs) are frequently used as a bridge to heart transplant; however, infections are a common cause of increased morbidity and mortality. The optimal prophylactic antimicrobial regimen has not been effectively evaluated in literature.

METHODS

Forty-three (43) patients received a VAD over the 5-year study period (2012-2017) at The Prince Charles Hospital (TPCH), Brisbane Australia. Of these, 41 patients were followed from implantation until transplantation or death. Antimicrobial prophylactic regimens and individual episodes of infection were recorded. The infection profiles, including types and incidence were compared to published literature using definitions from the International Society for Heart and Lung Transplantation (ISHLT) guidelines for consistency.

RESULTS

Median duration of VAD insertion was 79 days (IQR: 36-167). Patients received aztreonam, fluconazole and vancomycin (median duration 8 days). Twenty-two (22) (53.6%) patients experienced a VAD-specific and/or a VAD-related infective episode. Incidence of infection in the study cohort was 0.60 infections per 100 patient days. Thirteen (13) patients (31.7%) experienced 16 VAD-specific infections which were all driveline infections. Thirteen (13) patients (31.7%) experienced 14 VAD-related infections. The predominant VAD-related infection type was bacteraemia (36%). Predominant bacterial profiles of VAD-specific as well as VAD related infections were gram positive. Only three episodes had a gram negative as a causative pathogen which occurred much later post VAD insertion. Median time till VAD-specific or VAD-related infection was 46 and 15 days respectively. Obesity was significantly associated with increased risk of infection (HR: 3.2; 95% CI: 1.3-7.4).

CONCLUSIONS

Infection is a common complication of VAD implantation. In our study population gram positive bacteria were the predominant causative pathogen. Based on the micro-organism profile there may be scope for a narrowing of the antibiotic regimen. A larger, multicentre study would be able to accurately guide a change. The information gathered in our study offers a strong foundation for such a multicentre study.

[Recommendations for emergency management of patients with permanent mechanical circulatory support : Consensus statement of DGTHG, DIVI, DGIIN, DGAI, DGINA, DGfK and DGK]

The prevalence of patients living with long-term mechanical circulatory support (MCS) is rapidly increasing due to improved technology, improved survival, reduced adverse event profiles, greater reliability and mechanical durability, and limited numbers of organs available for donation. Patients with long-term MCS are very likely to require emergency medical support due to MCS-associated complications (e.g., right heart failure, left ventricular assist device malfunction, hemorrhage and pump thrombosis) but also due to non-MCS-associated conditions. Because of the unique characteristics of mechanical support, management of these patients is complicated and there is very little literature on emergency care for these patients. The purpose of this national scientific statement is to present consensus-based recommendations for the initial evaluation and resuscitation of adult patients with long-term MCS.

Weight evolution after implantation of left ventricular assist device: Do we need to interfere?

OBJECTIVES

Weight change after left ventricular assist device implantation may influence outcomes and can affect transplant candidacy. We questioned if there is a systematic weight change after left ventricular assist device implantation and examined the evolution in functional capacity.

METHODS

A retrospective analysis of 84 patients who received a left ventricular assist device in Universitaire Ziekenhuizen Leuven between 2008 and 2016 was performed. Patients were divided into four groups based on their baseline body mass index, and we also examined weight evolution for patients presenting with new-onset heart failure versus those suffering from chronic heart failure. Body mass index was assessed at baseline, 6, 12, 18, and 24 months. To indicate the functional capacity, we analyzed the results of routine 6-Minute Walk Test performed at 6, 12, and 18 months.

RESULTS

During the first 6 months after surgery, the underweight patients evolved to normal weight and the body mass index of the obese patients reduced significantly. Afterward, all patients gained weight. The weight loss of the obese was not maintained over time. The weight of patients with normal weight and overweight evolved to overweight and obesity, respectively. No body mass index changes were demonstrated for patients presenting with new-onset heart failure, and the body mass index of patients suffering from chronic HF significantly increased. There was a significant improvement in functional capacity at 6 months, but this level remained unchanged at 12 and 18 months after surgery.

CONCLUSION

Although the initial 6 months evolve beneficial, all patients gain weight in the second year and do not further improve their exercise capacity.

Cerebral Microembolization in Left Ventricular Assist Device Associated Ischemic Events

INTRODUCTION

The significance of microembolic signals (MES) detected by transcranial Doppler ultrasound emboli monitoring (TCD-e) in patients supported with left ventricular assist devices (LVAD) remains unclear. We aimed to investigate the relationship between cerebral microembolization detected by TCD-e and acute ischemic events in LVAD patients.

METHODS

We reviewed consecutive patients with acute ischemic stroke or transient ischemic attack (TIA) in a prospectively collected database of LVAD patients. TCD-e exams consisted of monitoring the middle cerebral arteries for microembolic signals (MES) over 30 minutes.

RESULTS

Of 515 persons with LVAD, 41 TCD-e studies were performed in 35 patients with acute ischemic stroke or transient ischemic attack (TIA) in a median of 1 day (Interquartile range [IQR]: 0-2) after the event. MES were present in 15 (44%) TCD-e studies with a median MES count of 4 (IQR: 2-15.5). Bloodstream infections were more common in patients with MES (38% versus 8%, P = .039). There were trends for lower international normalized ratio (1.39 versus 1.69, P = .214), lower activated partial thromboplastin (33.2 versus 36.6, P = .577), higher lactate dehydrogenase (531 versus 409, P = .323) and a higher frequency of pump thrombosis (13% versus 8%, P = .637) in patients with MES compared with those without MES.

CONCLUSIONS

LVAD patients with acute ischemic stroke or TIA have a high prevalence of MES on TCD-e, which may serve as a marker for a prothrombotic state. Further study of MES in LVAD patients is warranted.

Device exchange from HeartMate II to HeartMate 3 left ventricular assist device

The HeartMate II (HMII) left ventricular assist device can be exchanged to HeartMate 3 (HM3) to reduce the risk of device thrombosis and stroke. However, data of this procedure are still limited. We reviewed early and mid-term outcomes of 9 patients who received a HMII to HM3 exchange at our institution. The median age of the cohort was 58 years [interquartile range (IQR) 53-61], and 7 (78%) patients were men. The median duration of HMII support was 608 days (IQR 493-1116). Indications for device exchange include device thrombosis (n = 8.89%) and driveline injury (n = 1.11%). Procedures were performed through a lateral thoracotomy in all patients. The median cardiopulmonary bypass time was 117 min (IQR 97-133). In-hospital mortality was 0%. One patient required repositioning of the HM3 pump through full sternotomy due to inflow malposition. During 486 days (IQR 235-712) of follow-up, 3 patients (33%) developed late HMII pump pocket infection after discharge. Five patients had a successful heart transplant and 1 patient died due to unknown reason. HMII to HM3 exchange can be performed via lateral thoracotomy. However, there is a risk of inflow malposition and previous pump pocket infection.

Pneumopericardium suggesting left ventricular assist device-related gastrointestinal complication

We report an uncommon case of ventricular assist device-related infection and resultant fistula formation into the gastrointestinal tract. A 69-year-old man, who had undergone implantation of a HeartMate II 1 year earlier secondary to ischemic cardiomyopathy, presented to our hospital with a high fever. Computed tomography showed unusual gas collection around the heart apex (i.e., pneumopericardium), which had not been detected before. The patient developed sudden melena with fresh blood without abdominal symptoms 1 month after beginning antibiotic therapy. Emergent colonoscopy showed that the HeartMate II strain relief of the inflow conduit had penetrated the transverse colon. We immediately performed laparoscopy-assisted left-sided hemicolectomy and found intraoperatively that a fistula had formed between the splenic flexure and the pericardial cavity. Subsequently, the HeartMate II system was totally explanted and replaced with an Impella 5.0 for alternative hemodynamic support. In our patient, pneumopericardium might have been an early sign of a hidden gastrointestinal complication. Our experience is a caution for clinicians who manage patients with ventricular assist device support via the apex.

Management of Anticoagulation with Impella® Percutaneous Ventricular Assist Devices and Review of New Literature

Cardiogenic shock is a life-threatening condition that may occur secondary to a variety of cardiac conditions, and may require temporary support with percutaneous ventricular devices like the Impella®. Anticoagulation in patients with Impella® devices can often be complicated due to unpredictable purge flow rates, pre-existing coagulopathy, or heparin allergies. The purpose of this article is to discuss the various options for anticoagulation in the setting of Impella®. The article will also describe recent updates (2014-current) in literature surrounding anticoagulation therapy for Impella® devices. At total of 228 articles were initially obtained through the PubMed search, with inclusion of 6 articles. A total of 51 patients had data in the six studies that were included in the review. Heparin for anticoagulation in the purge solution, at two different dextrose concentrations (5% and 20%), was associated with similar therapeutic activated partial thromboplastin time rates, thrombotic and bleeding events. One case series described the use of argatroban in the purge solution for anticoagulation in two patients with suspected heparin-induced thrombocytopenia, without bleeding or thrombotic complications. Pump thrombosis was not reported in any of the six studies. Anticoagulation in the setting of mechanical circulatory support devices is a challenging aspect of critical care. Institutions should have set protocols that clearly define the options for anticoagulation. Future studies that look at longer durations of support and possible operation of the Impella® device with a heparin-free purge solution are needed.

Experience with Temporary Centrifugal Pump Bi-ventricular Assist Device for Pediatric Acute Heart Failure: Comparison with ECMO

Though ventricular assist devices (VADs) are an important treatment option for acute heart failure, an extracorporeal membrane oxygenator (ECMO) is usually used in pediatric patients for several reasons. However, a temporary centrifugal pump-based Bi-VAD might have clinical advantages versus ECMO or implantable VADs. From January 2000 to July 2018, we retrospectively reviewed 36 pediatric patients who required mechanical circulatory support (MCS) for acute heart failure. Cases with postoperative MCS were excluded. Since 2016, we have tried to immediately add a right VAD rather than ECMO, when the patients begin to present features of right heart failure after left VAD support started in cases that the patients' respiratory function did not require an oxygenator. Original diagnoses included dilated cardiomyopathy (n = 18), myocarditis (n = 11), and others (n = 7). Eleven patients were supported by Bi-VAD, and 25 patients were supported by ECMO; of these. Four patients were successfully weaned from VAD, and 10 patients were weaned from ECMO. Eleven patients underwent heart transplantation. Overall, we have 15 (41.7%) early mortalities. There were no significant differences in early mortality, morbidity, and weaning rate between the Bi-VAD group and the ECMO group. During the support, patients with Bi-VADs significantly required fewer platelets and showed less hemolysis than ECMO patients. Patients with myocarditis were successfully weaned from Bi-VAD support and bridged to transplantation thereafter. A temporary centrifugal pump-based Bi-VAD was clinically comparable to ECMO for pediatric patients with acceptable pulmonary function.

Ventricular Assist Device Therapy and Fontan: A Story of Supply and Demand

The last 10 years have seen an increase in the number of Fontan patients with heart failure. There has been a coincident rapid evolution in the field of pediatric and congenital heart disease ventricular assist device therapy. Herein, we describe the existing body of literature regarding the use of ventricular assist device therapy in the Fontan circulation as well as the current approach to clinical decision-making and device implantation within the field.

Long-term continuous flow mechanical biventricular support: 9 years and counting

We report 2 continuous flow HeartWareTM left ventricular assist devices successfully used in a patient with advanced heart failure of giant cell myocarditis origin in a biventricular configuration. Despite technical challenges of adapting a left ventricular assist device engineered for systemic pressure to function as a right ventricular assist device, the addition of dynamic banding on the right ventricular assist device outflow graft allowed successful adaptation of afterload. This patient has now been on biventricular configuration support for 9 years, and remains stable to this day.

Infrastructural needs and expected benefits of telemonitoring in left ventricular assist device therapy: Results of a qualitative study using expert interviews and focus group discussions with patients

BACKGROUND

Heart failure is one of the most expensive chronic diseases, as it leads to considerable expenses due to increasing hospitalisation rates. In addition to the implications of the demographic transition and the lack of available organs for transplantation, a major challenge in this context is that conservative treatment options are limited. This has led to the research and development of mechanical circulatory assist systems. Telemonitoring is anticipated to be an effective tool in outpatient management, which may be a key to improved outcomes of left ventricular assist devices therapy. In patients with chronic cardiac diseases, telemedicine is already used and has been shown to reduce premature mortality. This study aims to provide insights into the left ventricular assist device-specific requirements for telemonitoring and infrastructural translation from caregivers' and patients' points of view.

METHOD

A qualitative investigation based on guided interview and focus group techniques was conducted at two German heart centres. The study included 15 patients and 7 caregivers (4 cardiac surgeons, 3 ventricular assist device coordinators). Qualitative content analysis was used for data analysis. The categories for analysis were (1) benefits for patients, (2) benefits for hospitals and the healthcare system, (3) acceptance and causative factors and (4) infrastructural implementation.

RESULTS

Patients and experts expect the following benefits for telemonitored patients: added safety, early detection of complications, rapid intervention in case of emergency, regular inspection of pump parameters, fewer outpatient clinic visits and the ability to provide more informed feedback and instructions to the family members who take care of the patient. However, the expected acceptance of telemonitoring in left ventricular assist device therapy differed among the interviewed groups. Alongside the aforementioned expected benefits, patients and clinical experts criticised the reduced self-determination for the patient, probable large amounts of time/effort required of the patient and caregiver and data protection/integrity issues (data misuse, device manipulation and mistransfer). Interviewees expected easy handling, proper education and safe data transmission to be necessary factors leading to acceptance. Complication rate reduction, fewer hospitalisations and cost reductions were benefits recorded for the healthcare system and clinics. Clinical experts preferred a telemonitoring centre run by ventricular assist device coordinators.

CONCLUSION

Although positive expectations are associated with the use of telemonitoring in left ventricular assist device therapy, further action is needed. For example, software and infrastructure developers will need to address issues such as variations among patients and may need to find a balance between designing individualised solutions for compliant patients and a safe and easy-to-handle set-up. In addition, proper elucidation of users will contribute to the successful implementation of a left ventricular assist device telemonitoring programme among patients and caregivers.

Emergency laparoscopic cholecystectomy for intraabdominal hemorrhage in a patient with a left ventricular assist device: a case report

Background

Continuous-flow left ventricular assist devices (LVADs), called “second generation LVADs,” have significantly improved the survival and quality of life outcomes. Accordingly, non-cardiac surgery in a patient with LVADs has required for conditions not directly related to their LVADs. And the management of bleeding in non-cardiac site remains one of long-term critical topics. Laparoscopic approach is useful in a patient with LVADs; however, there have been only few clinical reports. This report describes the first case of laparoscopic cholecystectomy (LC) for intraabdominal hemorrhage from the gallbladder serosa in a patient with LVADs.

Case presentation

A 56-year-old man with an LVAD had undergone LVAD (Jarvik 2000™; Jarvik Heart, Inc., New York, NY, USA) implantation at 53 years of age. He was in shock, and contrast-enhanced computed tomography revealed abdominal hemorrhage from the gallbladder serosa. Emergency laparoscopic cholecystectomy was performed. We could avoid injury of the LVADs driveline, which was located across the upper abdominal midline, near the right hypochondriac region, by laparoscopic approach. LVADs (Jarvik 2000) did not disturb the operating field because of its smaller size. There were no intra- and postoperative complications.

Conclusions

Laparoscopic approach is useful and safe in a patient with LVADs for abdominal surgery. We could perform LC for intraabdominal hemorrhage from gallbladder serosa safety.

Impact of Socioeconomic Factors on Patient Desire for Early LVAD Therapy Prior to Inotrope Dependence

BACKGROUND

Worsening heart failure (HF) and health-related quality of life (HRQOL) have been shown to impact the decision to proceed with left ventricular assist device (LVAD) implantation, but little is known about how socioeconomic factors influence expressed patient preference for LVAD.

METHODS AND RESULTS

Ambulatory patients with advanced systolic HF (n=353) reviewed written information about LVAD therapy and completed a brief survey to indicate whether they would want an LVAD to treat their current level of HF. Ordinal logistic regression analyses identified clinical and demographic predictors of LVAD preference. Higher New York Heart Association (NYHA) class, worse HRQOL measured by Kansas City Cardiomyopathy Questionnaire, lower education level, and lower income were significant univariable predictors of patients wanting an LVAD. In the multivariable model, higher NYHA class (OR [odds ratio]: 1.43, CI [confidence interval]: 1.08-1.90, P = .013) and lower income level (OR: 2.10, CI: 1.18 - 3.76, P = .012 for <$40,000 vs >$80,000) remained significantly associated with wanting an LVAD.

CONCLUSION

Among ambulatory patients with advanced systolic HF, treatment preference for LVAD was influenced by level of income independent of HF severity. Understanding the impact of socioeconomic factors on willingness to consider LVAD therapy may help tailor counseling towards individual needs.

Cardiac Biomarkers in Advanced Heart Failure: How Can They Impact Our Pre-transplant or Pre-LVAD Decision-making

PURPOSE OF REVIEW

Decision-making in advanced heart failure (HF) is a complex process that involves careful consideration of competing tradeoffs of risks and benefits in regard to heart transplantation (HT) or left ventricular assist device (LVAD) placement. The purpose of this review is to discuss how biomarkers may affect decision-making for HT or LVAD implantation.

RECENT FINDINGS

N-Terminal probrain natriuretic peptide, soluble suppression of tumorigenicity-2, galectin-3, copeptin, and troponin T levels are associated with HF survival and can help identify the appropriate timing for advanced HF therapies. Patients at risk of right ventricular failure after LVAD implantation can be identified with preimplant biomarkers of extracellular matrix turnover, neurohormonal activation, and inflammation. There is limited data on the adoption of biomarker measurement for decision-making in the allocation of advanced HF therapies. Nonetheless, biomarkers can improve risk stratification and prognostication thereby optimizing patient selection for HT and LVAD implantation.

"The heart supporters": systematic review for ventricle assist devices in congenital heart surgery

Ventricular assist device (VAD) implantation is a widely used procedure in children with cardiac failure refractory to medical therapy as a long-term bridge to recovery or transplant. This strategy has proved to be of an enormous advantage in the cure of these children. The aim of this review is to evaluate the current strategies used for clinical monitoring of paediatric patients with a VAD, focusing on the management of several aspects such as anticoagulant and antiplatelet therapy, haemorrhagic and thrombotic complications, as well as the effects that VADs have on the exposure, effectiveness and the safety of drugs. The sources used for this research are MEDLINE, PubMed and Cochrane Library. The use of key words such as "paediatric ventricular assist device", "clinical management", "anticoagulant therapy" and "infections" retrieved 146 papers. With the application of the inclusion criteria, 42 articles have been selected, but following further analysis, only 21 were eligible. The post-implant process is still complicated due to the lack of guidelines regarding clinical management and for the frequent occurrence of adverse events including bleeding, infection and thromboembolic episodes. From these findings, we can highlight the importance of establishing a suitable antithrombotic therapy, as well as ensuring that the prevention and treatment of infection are paramount during the management of these patients. The clinical management of VAD paediatric children is complex and challenging. At the moment, there are no guidelines regarding strategies to adopt, but from the analysed surveys, it has been possible to highlight a relative coherence between adopted therapies in different centres worldwide.

The European Registry for Patients with Mechanical Circulatory Support (EUROMACS) of the European Association for Cardio-Thoracic Surgery (EACTS): second report

OBJECTIVES

The European Registry for Patients with Mechanical Circulatory Support (EUROMACS) was founded in Berlin, Germany. EUROMACS is supported fully by the European Association for Cardio-Thoracic Surgery (EACTS) and, since 2014, has functioned as a committee of the EACTS. The purpose of having the EUROMACS as a part of the EACTS is to accumulate clinical data related to long-term mechanical circulatory support for scientific purposes and to publish annual reports.

METHODS

Participating hospitals contributed surgical and cardiological pre-, peri- and long-term postoperative data of mechanical circulatory support implants to the registry. Data for all implants performed from 1 January 2011 to 31 December 2016 were analysed. Several auditing methods were used to monitor the quality of the data. Data could be provided for in-depth studies, and custom data could be provided at the request of clinicians and scientists. This report includes updates of patient characteristics, implant frequency, mortality rates and adverse events.

RESULTS

Fifty-two hospitals participated in the registry. This report is based on 2947 registered implants in 2681 patients. Survival of adult patients (>17 years of age) with continuous-flow left ventricular assist devices with a mean follow-up of 391 days was 69% (95% confidence interval 66-71%) 1 year after implantation. On average, patients were observed for 12 months (median 7 months, range 0-70 months). When we investigated for adverse events, we found an overall event rate per 100 patient-months of 3.56 for device malfunction, 6.45 for major bleeding, 6.18 for major infection and 3.03 for neurological events within the first 3 months after implantation.

CONCLUSIONS

Compared to the first EUROMACS report, the number of participating hospitals increased from 21 to 52 (+148%), whereas the number of registered implants more than tripled from 825 to 2947 (+257%). The increase in the number of participating hospitals led us to increase the quality control measures through data input control, on-site audits and statistical analyses.

The incidence, risk factors, and outcomes of gastrointestinal bleeding in patients with a left ventricular assist device: a Japanese single-center cohort study

Continuous flow-left ventricular assist devices (CF-LVADs) have become a therapeutic option in the management of advanced heart failure. Several studies show that patients with CF-LVAD are at an increased risk of gastrointestinal bleeding (GIB). However, few reports have presented the characteristics of GIB in Japanese populations. We investigated the incidence, etiology, and outcome of GIB in patients with CF-LVAD. Records of adult patients who received CF-LVADs between October 2008 and January 2017 were reviewed. GIB was defined as detection of bleeding sites by any type of diagnostic imaging. 54 patients received CF-LVAD, of which eight (14%) presented with overt GIB (12 events). GIB patients are significantly older (p = 0.04) and their pre-operative inferior vena cava diameter was larger (p = 0.02). Multivariate analysis revealed that the use of Jarvik 2000 (p = 0.003) was a risk factor for GIB. In total, 85.8% of patients were free from GIB at 1 year. The most common site was the small intestine (67%). The most common cause was angiodysplasia (50%). Six patients required blood transfusion (nine events) and four underwent endoscopic clippings (five events); however, no patients needed surgeries. The incidence of GIB in our cohort was similar to the global registry data. Double balloon endoscopy is useful for diagnosis and treatment of small intestinal lesions. Future efforts to further understand the incidence of GIB in Japanese populations by multicenter data are needed.

Impact of Obesity on Ventricular Assist Device Outcomes

BACKGROUND

Obesity remains a relative contraindication for heart transplantation, and hence, obese patients with advanced heart failure receive ventricular assist devices (VADs) either as a destination or "bridge to weight loss" strategy. However, impact of obesity on clinical outcomes after VAD implantation is largely unknown. We sought to determine the clinical outcomes of obese patients with body mass index (BMI) ≥ 35 kg/m²) following contemporary VAD implantation.

METHODS

The Interagency Registry for Mechanically Assisted Circulatory Support (INTERMACS) registry was queried for patients who underwent VAD implantation. Patients were categorized into BMI groups based on World Health Organization classification.

RESULTS

Of 17,095 patients, 2620 (15%) had a BMI ≥ 35 kg/m². Obese patients were likely to be young, non-white, females with dilated cardiomyopathy and undergo device implantation as destination. Survival was similar amongst BMI groups (P = .058). Obese patients had significantly higher risk for infection (hazard ratio [HR]: 1.215; P = .001), device malfunction or thrombosis (HR: 1.323; P ≤ .001), cardiac arrhythmia (HR: 1.188; P = .001) and hospital readmissions (HR: 1.073; P = .022), but lower risk of bleeding (HR: 0.906; P = .018). Significant weight loss (≥10%) during VAD support was achieved only by a small proportion (18.6%) of patients with BMI ≥ 35 kg/m². Significant weight loss rates observed in obese patients with VAD implantation as destination and bridge to transplant strategy were comparable. Obese patients with significant weight loss were more likely to undergo cardiac transplantation. Weight loss worsened bleeding risk without altering risk for infection, cardiac arrhythmia, and device complications.

CONCLUSIONS

Obesity alone should not be considered a contraindication for VAD therapy in contemporary era. Given durability of heart transplantation, strategies should be developed to promote weight loss, which occurs infrequently in obese patients. Impact of weight loss on clinical outcome of obese patients warrants further investigation.

A 3D printed exoskeleton facilitates HeartMate III inflow cannula position

The optimal placement of the inflow cannula is critical for adequate ventricular unloading and device function in left ventricular assist device implantation. The anatomy of the left ventricle varies widely between patients yielding unpredictable surgical results depending on cannula position. We therefore aimed at devising a novel approach for optimal placement of the cannula in the clinical setting using computer-aided three-dimensional (3D) reconstruction and 3D printed guiding exoskeleton. This novel cannula positioning technique provides a personalized left ventricular assist device implantation considering the anatomical aspects of the implantation before the surgery. Local Ethical Board number 202/2005.

First Experience of Transfer with Impella 5.0 Over the Long Distance in Japan

We recently experienced a 43-year-old man with dilated cardiomyopathy transported under the Impella support to a high-volume left ventricular assist device (LVAD) center. Stabilized hemodynamics with the Impella and firm fixation of the device were important for safe transportation of the patient.

Jarvik 2000 with postauricular cable as destination therapy: first clinical case in Japan

Currently in Japan, a left ventricular assist device powered by an abdominal driveline is the only type of left ventricular assist device available. The driveline is vulnerable to infection secondary to inappropriate fixation and the traditional Japanese custom of bathing is prohibited in patients with an abdominal driveline. The Jarvik 2000 with postauricular cable is a left ventricular assist device in which the driveline exits the body behind the ear (postauricular) instead of exiting through an abdominal site. This case report is the first to describe the implantation of Jarvik 2000 with postauricular cable as destination therapy in a Japanese patient. This device enables patients to take a bath and may reduce the incidence of driveline infection.