Elizabeth D. Blume

Seventh INTERMACS annual report: 15,000 patients and counting

The seventh annual report of the Interagency Registry for Mechanically Assisted Circulatory Support (INTERMACS) summarizes the first 9 years of patient enrollment. The Registry includes >15,000 patients from 158 participating hospitals. Trends in device strategy, patient profile at implant and survival are presented. Risk factors for mortality with continuous-flow pumps are updated, and the major causes/modes of death are presented. The adverse event burden is compared between eras, and health-related quality of life is reviewed. A detailed analysis of outcomes after mechanical circulatory support for ambulatory heart failure is presented. Recent summary data from PediMACS and MedaMACS is included. With the current continuous-flow devices, survival at 1 and 2 years is 80% and 70%, respectively.

Sixth INTERMACS annual report: a 10,000-patient database.

The sixth annual report of the Interagency Registry for Mechanically Assisted Circulatory Support (INTERMACS) summarizes the first 8 years of patient enrollment. The analysis is based on data from >10,000 patients and updates demographics, survival, adverse events and risk factors. Among patients with continuous-flow pumps, actuarial survival continues to be 80% at 1 year and 70% at 2 years. The report features a comparison of two eras of continuous-flow durable devices in the USA in terms of device strategy, patient profiles, adverse event burden, survival and quality of life.

Outcomes of Children Bridged to Heart Transplantation With Ventricular Assist Devices A Multi-Institutional Study

Background— Current ventricular assist devices (VADs) in the United States are designed primarily for adult use. Data on VADs as a bridge to transplantation in children are limited. Methods and Results— A multi-institutional, prospectively maintained database of outcomes in children after listing for heart transplantation (n=2375) was used to analyze outcomes of VAD patients (n=99, 4%) listed between January 1993 and December 2003. Median age at VAD implantation was 13.3 years (range, 2 days to 17.9 years); diagnoses were cardiomyopathy (78%) and congenital heart disease (22%). Mean duration of support was 57 days (range, 1 to 465 days). Seventy-three percent were supported with a long-term device, with 39% requiring biventricular support. Seventy-seven patients (77%) survived to transplantation, 5 patients were successfully weaned from support and recovered, and 17 patients (17%) died on support. In the recent era (2000 to 2003), successful bridge to transplantation with VAD was achieved in 86% of patients. Peak hazard for death while waiting was the first 2 weeks after VAD placement. Risk factors for death while awaiting a transplant included earlier era of implantation (P=0.05), female gender (P=0.02), and congenital disease diagnosis (P=0.05). There was no difference in 5-year survival after transplantation for patients on VAD at time of transplantation as compared with those not requiring VAD. Conclusions— VAD support in children successfully bridged 77% of patients to transplantation, with posttransplantation outcomes comparable to those not requiring VAD. These encouraging results emphasize the need to further understand patient selection and to delineate the impact of VAD technology for children.

Waiting List Mortality Among Children Listed for Heart Transplantation in the United States

Background— Children listed for heart transplantation face the highest waiting list mortality in solid-organ transplantation medicine. We examined waiting list mortality since the pediatric heart allocation system was revised in 1999 to determine whether the revised allocation system is prioritizing patients optimally and to identify specific high-risk populations that may benefit from emerging pediatric cardiac assist devices. Methods and Results— We conducted a multicenter cohort study using the US Scientific Registry of Transplant Recipients. All children <18 years of age who were listed for a heart transplant between 1999 and 2006 were included. Among 3098 children, the median age was 2 years (interquartile range 0.3 to 12 years), and median weight was 12.3 kg (interquartile range 5 to 38 kg); 1294 (42%) were nonwhite; and 1874 (60%) were listed as status 1A (of whom 30% were ventilated and 18% were on extracorporeal membrane oxygenation). Overall, 533 (17%) died, 1943 (63%) received transplants, and 252 (8%) recovered; 370 (12%) remained listed. Multivariate predictors of waiting list mortality include extracorporeal membrane oxygenation support (hazard ratio [HR] 3.1, 95% confidence interval [CI] 2.4 to 3.9), ventilator support (HR 1.9, 95% CI 1.6 to 2.4), listing status 1A (HR 2.2, 95% CI 1.7 to 2.7), congenital heart disease (HR 2.2, 95% CI 1.8 to 2.6), dialysis support (HR 1.9, 95% CI 1.2 to 3.0), and nonwhite race/ethnicity (HR 1.7, 95% CI 1.4 to 2.0). Conclusions— US waiting list mortality for pediatric heart transplantation remains unacceptably high in the current era. Specific high-risk subgroups can be identified that may benefit from emerging pediatric cardiac assist technologies. The current pediatric heart-allocation system captures medical urgency poorly. Further research is needed to define the optimal organ-allocation system for pediatric heart transplantation.

Outcome of Listing for Cardiac Transplantation for Failed Fontan A Multi-Institutional Study

Background— The Fontan procedure is a successful palliation for children with single-ventricle physiology; however, many will eventually require heart transplantation. The purpose of this study was to determine risk factors for death awaiting transplantation and to examine results after transplantation in Fontan patients. Methods and Results— A retrospective, multi-institutional review was performed of 97 Fontan patients <18 years of age listed at 17 Pediatric Heart Transplant Study centers from 1993 to 2001. Mean age at listing was 9.7 years (0.5 to 17.9 years); 25% were <4 years old; 53% were United Network for Organ Sharing status 1; 18% required ventilator support. Pretransplantation survival was 78% at 6 months and 74% at 12 months and was similar to 243 children with other congenital heart disease (CHD) and 747 children without congenital heart disease (No-CHD), who were also awaiting transplantation. Patients who were younger, status 1, had shorter interval since Fontan, or were on a ventilator were more likely to die while waiting. At 6 months, the probability of receiving a transplant was similar for status 1 and 2 (65% versus 68%); however, the probability of death was higher for status 1 (22% versus 5%). Seventy patients underwent transplantation. Survival was 76% at 1 year, 70% at 3 years, and 68% at 5 years, slightly less than CHD and No-CHD patients. Causes of death included infection (30%), graft failure (17%), rejection (13%), sudden death (13%), and graft coronary artery disease (9%). Protein-losing enteropathy (present in 34 patients) resolved in all who survived >30 days after transplantation. Conclusions— Heart transplantation is an effective therapy for pediatric patients with a failed Fontan. Although early posttransplantation survival is slightly lower than other patients with CHD, long-term results are encouraging, and protein-losing enteropathy can be expected to resolve.

Predictors of Death and Transplant in Patients With a Mechanical Circulatory Support Device: A Multi-institutional Study

BACKGROUND INTERMACS is a registry of FDA-approved durable mechanical circulatory support (MCS) devices used for the strategies of destination therapy (DT) and bridge to transplantation (BTT) or recovery. This study identifies predictors for death and transplantation based on initial results from INTERMACS. METHODS From June 23, 2006 to December 31, 2007, 420 patients from 75 institutions were prospectively entered into the INTERMACS database in which pre-implant data, indication for MCS device use, adverse events, demographics, hemodynamics, laboratory values and outcomes were recorded. Using competing outcomes methodology, risk factors were identified for the events of death and transplantation. RESULTS The devices included 314 left ventricular assist devices (LVADs), 5 right VADs (RVADs), 77 biventricular VADs (biVADs) and 24 total artificial hearts (TAHs) for a total of 497 pumps in 420 patients. Among the BTT patients at 6 months, 33% were alive with a device in place, 42% were transplanted, 22% had died, and 3% were explanted for recovery. Among the DT patients at 6 months, 68% were alive with a device in place, 5% were transplanted, 25% had died, and 2% were explanted for recovery. The risk factors identified for death across all patient groups include older age (relative risk [RR] = 1.41, p < 0.001), ascites (RR = 2.04, p = 0.003), increased bilirubin (RR = 1.49, p < 0.05) and INTERMACS Level 1 (cardiogenic shock) (RR = 1.59, p = 0.02). The most common causes of death were central nervous system (CNS) event (18.3% of deaths), multiple-organ failure (16.4%) and cardiac cause (right ventricular failure and arrhythmias, 15.4%). CONCLUSIONS Cardiogenic shock, advanced age and severe right heart failure manifested as ascites or increased bilirubin are risk factors for death after MCS therapy. BTT patients who require biVAD support have a transplant rate similar to that of LVAD-only patients, but their mortality at 6 and 12 months exceeds that of LVAD-only patients. Consideration should be given to MCS referral before the sequelae of right ventricular failure dominate the advanced heart failure syndrome.

Lymphoproliferative disorders after paediatric heart transplantation: a multi-institutional study

BACKGROUND Post-transplant lymphoproliferative disorders (PTLD) are an important cause of morbidity and mortality after organ transplantation. We sought to better define the prevalence, pathology, current therapeutic approaches, and outcomes of PTLD in a large group of children who had received heart transplants. METHODS We assessed data on patients followed up at 19 centres in the Pediatric Heart Transplant Study (PHTS) from 1993 to 2002. Probability of freedom from PTLD was assessed along with details of presentation, pathology, treatment, and outcomes. Risk factors for survival and event-free survival were investigated. FINDINGS Of 1184 primary transplant recipients, 56 (5%) developed PTLD. Probability of freedom from PTLD was 98% at 1 year, 94% at 3 years, and 92% at 5 years. Mean time to PTLD was 23.8 months. Most common sites of disease were gastrointestinal tract (n=22, 39%) and respiratory system (n=14, 25%). Histology was polymorphic in 35 (65%) and monomorphic in 19 (35%). 47 of 48 cases were of B-cell origin, 39 of 45 (87%) were Epstein-Barr virus positive. Probability of survival was 75% at 1 year, 68% at 3 years, and 67% at 5 years after diagnosis. Death from graft loss was as frequent as death from PTLD. INTERPRETATION About 5% of paediatric heart-transplant recipients develop PTLD, almost always of B-cell lineage and driven by Epstein-Barr virus. Although many achieve satisfactory outcomes, mortality remains substantial with death due to progressive disease and allograft loss. Advances in management should focus on strategies to protect the allograft as well as improved therapies for PTLD.

Cardiovascular outcomes after the arterial switch operation for D-transposition of the great arteries.

Background— Data regarding long-term outcomes after the arterial switch operation for D-transposition of the great arteries are scarce. Methods and Results— A single-institution retrospective cohort study was conducted to assess cardiovascular outcomes after an arterial switch operation between 1983 and 1999. Patients without follow-up visits within 3 years were contacted and secondary sources of information obtained. Overall, 400 patients, 154 (38.3%) with a ventricular septal defect, 238 (59.5%) with an intact septum, and 9 (2.3%) with a Taussig-Bing anomaly, were followed for a median of 18.7 years. In perioperative survivors, overall and arrhythmia-free survival rates at 25 years were 96.7±1.8% and 96.6±0.1%, respectively. Late mortality was predominantly a result of sudden deaths and myocardial infarction. At 25 years, 75.5±2.5% remained free from surgical or catheter-based reintervention. Freedom from an adverse cardiovascular event was 92.9±1.9% at 25 years. Independent predictors were a single right coronary artery (hazard ratio, 4.58; 95% confidence interval, 1.32-15.90), P=0.0166) and postoperative heart failure (hazard ratio, 6.93; 95% confidence interval, 1.57-30.62; P=0.0107). At last follow-up, the left ventricular ejection fraction was 60.3±8.9%, 97.3% had class I symptoms, and 5.2% obstructive coronary artery disease. Peak oxygen uptake was 35.1±7.6 mL/kg/min (86.1±15.1% predicted), with a chronotropic index <80% in 34.2%. At least moderate neoaortic and pulmonary regurgitation were present in 3.4% and 6.6%, respectively, and more than mild neoaortic and pulmonary stenosis in 3.2% and 10.3%. Conclusions— Long-term and arrhythmia-free survival is excellent after arterial switch operation. Although sequelae include chronotropic incompetence and neoaortic, pulmonary, and coronary artery complications, most patients maintain normal systolic function and exercise capacity.

Mechanical circulatory supportPredictors of Death and Transplant in Patients With a Mechanical Circulatory Support Device: A Multi-institutional Study

BACKGROUND INTERMACS is a registry of FDA-approved durable mechanical circulatory support (MCS) devices used for the strategies of destination therapy (DT) and bridge to transplantation (BTT) or recovery. This study identifies predictors for death and transplantation based on initial results from INTERMACS. METHODS From June 23, 2006 to December 31, 2007, 420 patients from 75 institutions were prospectively entered into the INTERMACS database in which pre-implant data, indication for MCS device use, adverse events, demographics, hemodynamics, laboratory values and outcomes were recorded. Using competing outcomes methodology, risk factors were identified for the events of death and transplantation. RESULTS The devices included 314 left ventricular assist devices (LVADs), 5 right VADs (RVADs), 77 biventricular VADs (biVADs) and 24 total artificial hearts (TAHs) for a total of 497 pumps in 420 patients. Among the BTT patients at 6 months, 33% were alive with a device in place, 42% were transplanted, 22% had died, and 3% were explanted for recovery. Among the DT patients at 6 months, 68% were alive with a device in place, 5% were transplanted, 25% had died, and 2% were explanted for recovery. The risk factors identified for death across all patient groups include older age (relative risk [RR] = 1.41, p < 0.001), ascites (RR = 2.04, p = 0.003), increased bilirubin (RR = 1.49, p < 0.05) and INTERMACS Level 1 (cardiogenic shock) (RR = 1.59, p = 0.02). The most common causes of death were central nervous system (CNS) event (18.3% of deaths), multiple-organ failure (16.4%) and cardiac cause (right ventricular failure and arrhythmias, 15.4%). CONCLUSIONS Cardiogenic shock, advanced age and severe right heart failure manifested as ascites or increased bilirubin are risk factors for death after MCS therapy. BTT patients who require biVAD support have a transplant rate similar to that of LVAD-only patients, but their mortality at 6 and 12 months exceeds that of LVAD-only patients. Consideration should be given to MCS referral before the sequelae of right ventricular failure dominate the advanced heart failure syndrome.

Cardiovascular Outcomes Following the Arterial Switch Operation for D-Transposition of the Great Arteries

Background— Data regarding long-term outcomes after the arterial switch operation for D-transposition of the great arteries are scarce. Methods and Results— A single-institution retrospective cohort study was conducted to assess cardiovascular outcomes after an arterial switch operation between 1983 and 1999. Patients without follow-up visits within 3 years were contacted and secondary sources of information obtained. Overall, 400 patients, 154 (38.3%) with a ventricular septal defect, 238 (59.5%) with an intact septum, and 9 (2.3%) with a Taussig-Bing anomaly, were followed for a median of 18.7 years. In perioperative survivors, overall and arrhythmia-free survival rates at 25 years were 96.7±1.8% and 96.6±0.1%, respectively. Late mortality was predominantly a result of sudden deaths and myocardial infarction. At 25 years, 75.5±2.5% remained free from surgical or catheter-based reintervention. Freedom from an adverse cardiovascular event was 92.9±1.9% at 25 years. Independent predictors were a single right coronary artery (hazard ratio, 4.58; 95% confidence interval, 1.32-15.90), P=0.0166) and postoperative heart failure (hazard ratio, 6.93; 95% confidence interval, 1.57-30.62; P=0.0107). At last follow-up, the left ventricular ejection fraction was 60.3±8.9%, 97.3% had class I symptoms, and 5.2% obstructive coronary artery disease. Peak oxygen uptake was 35.1±7.6 mL/kg/min (86.1±15.1% predicted), with a chronotropic index <80% in 34.2%. At least moderate neoaortic and pulmonary regurgitation were present in 3.4% and 6.6%, respectively, and more than mild neoaortic and pulmonary stenosis in 3.2% and 10.3%. Conclusions— Long-term and arrhythmia-free survival is excellent after arterial switch operation. Although sequelae include chronotropic incompetence and neoaortic, pulmonary, and coronary artery complications, most patients maintain normal systolic function and exercise capacity.