Lungs are allocated in part based on the Lung Allocation Score (LAS), which considers risk of death without transplant and posttransplant. Wait-list additions have been increasing steadily after an initial decline following LAS implementation. In 2011, the largest number of adult candidates were added to the waiting list in a single year since 1998; donation and transplant rates have been unable to keep pace with wait-list additions. Candidates aged 65 years or older have been added faster than candidates in other age groups. After an initial decline following LAS implementation, wait-list mortality increased to 15.7 per 100 wait-list years in 2011. Short-and long-term graft survival improved in 2011; 10-year graft failure fell to an all-time low. Since 1998, the number of new pediatric (aged 0-11 years) candidates added yearly to the waiting list has declined. In 2011, 19 pediatric lung transplants were performed, a transplant rate of 34.7 per 100 wait-list years. The percentage of patients hospitalized before transplant has not changed. Both graft and patient survival have continued to improve over the past decade. Posttransplant complications for pediatric lung transplant recipients, similar to complications for adult recipients, include hypertension, renal dysfunction, diabetes, bronchiolitis obliterans syndrome, and malignancy.
Lung and heart allocation in the United States has evolved over the past 20-30 years to better serve transplant candidates and improve organ utilization. The current lung allocation policy, based on the Lung Allocation Score, attempts to take into account risk of death on the waiting list and chance of survival posttransplant. This policy is flexible and can be adjusted to improve the predictive ability of the score. Similarly, in response to the changing clinical phenotype of heart transplant candidates, heart allocation policies have evolved to a multitiered algorithm that attempts to prioritize organs to the most infirm, a designation that fluctuates with trends in therapy. The Organ Procurement and Transplantation Network and its committees have been responsive, as demonstrated by recent modifications to pediatric heart allocation and mechanical circulatory support policies and by ongoing efforts to ensure that heart allocation policies are equitable and current. Here we examine the development of US lung and heart allocation policy, evaluate the application of the current policy on clinical practice and explore future directions for lung and heart allocation.
The Worldwide Network of Blood and Marrow Transplantation (WBMT) pursues the mission of promoting hematopoietic cell transplantation (HCT) for instance by evaluating activities through member societies, national registries and individual centers. In 2016, 82,718 first HCTs were reported from 1662 HCT teams in 86 of the 195 World Health Organization member states representing a global increase of 6.2% in autologous and 7.0% in allogeneic HCT and bringing the total to 1,298,897 procedures. Assuming a frequency of 84,000/year, 1.5 million HCTs had been performed by 2019 from 1957. Slightly more autologous (53.5%) than allogeneic and more related (53.6%) than unrelated HCTs were reported. A remarkable increase was noted in haploidentical related HCT for leukemias and lymphoproliferative diseases, but even more in non-malignant diseases. Transplant rates (TR; HCT/10 million population) varied according to region reaching 560.8 in North America, 438.5 in Europe, 76.7 in Latin America, 53.6 in South East Asia/Western Pacific (SEA/WPR) and 27.8 in African/East Mediterranean (AFR/EMR). Interestingly, haploidentical TR amounted to 32% in SEA/WPR and 26% in Latin America, but only 14% in Europe and EMR and 4.9% in North America of all allogeneic HCT. HCT team density (teams/10 million population) was highest in Europe (7.7) followed by North America (6.0), SEA/WPR (1.9), Latin America (1.6) and AFR/EMR (0.4). HCTs are increasing steadily worldwide with narrowing gaps between regions and greater increase in allogeneic compared to autologous activity. While related HCT is rising, largely due to increase in haploidentical HCT, unrelated is plateauing and cord blood in decline.
SummaryTimely diagnosis and care are major determinants of the outcome in acute promyelocytic leukaemia (APL), a malignancy whose incidence may be increasing. The Canadian Cancer Registry (CCR) and health system represent valuable settings to study APL epidemiology. We analysed the CCR, which contains data on all Canadians with APL. To provide clinical information lacking in the CCR, we obtained data from five leukaemia referral centres during a similar time period. Between 1993 and 2007, there were 399 APL in Canada. Age-standardized incidence was 0Á083/100 000 and was stable over time. The early death (ED) rate was 21Á8% (10Á6% in patients <50 years old and 35Á5% for those aged >50 years), with no improvement over time. Five-year overall survival (OS) was 54Á6% (73Á3% in patients <50 years; 29Á1% older patients). In the referral cohort, 131 patients were diagnosed between 1999 and 2010. ED was 14Á6% and 2-year OS was 76Á5%. Within this cohort, ED and OS improved over time, although advanced patient age remained an adverse determinant of OS. In Canada, APL incidence is unexpectedly low and temporally stable. ED was higher than reported in clinical trials, but similar to reports from other registries. In contrast, ED was lower in referral centres and improved with time.
For adults with Philadelphia chromosome negative (Ph-) acute lymphoblastic leukemia (ALL) in first complete remission (CR1), allogeneic hematopoietic cell transplantation (HCT) is an established curative strategy. However, pediatric-inspired chemotherapy may also offer durable leukemia free survival in the absence of HCT. We compared 422 HCT recipients aged 18-50 years with Ph-ALL in CR1 reported to the CIBMTR with an age-matched concurrent cohort of 108 Ph- ALL CR1 patients who received a Dana-Farber Consortium pediatric-inspired non-HCT regimen. At four years follow-up, incidence of relapse after HCT was 24% [95% C.I. 19-28] vs. 23% [95% C.I. 15-32] for the non-HCT (“chemo”) cohort (p=0.97). Treatment-related mortality (TRM) was higher in the HCT cohort (HCT 37% [95% C.I. 31-42] vs. chemo 6% [95% C.I. 3 – 12], p<0.0001). DFS in the HCT cohort was 40% [95% C.I. 35-45] vs. 71% [95% C.I. 60-79] for chemo, p<0.0001. Similarly, OS favored chemo (HCT 45% [95% C.I. 40-50]) vs. chemo 73% [95% C.I. 63-81], p<0.0001). In multivariable analysis, the sole factor predictive of shorter OS was the administration of HCT (HR 3.12 [1.99 – 4.90], p<0.0001). For younger adults with Ph- ALL, pediatric-inspired chemotherapy had lower TRM, no increase in relapse, and superior overall survival compared to HCT.
Background: Current chemotherapy regimens in children with ALL produce disease-free survival (DFS) rates of greater than 80%. In contrast, adults with ALL have a much poorer prognosis, with DFS rates of 30-40%. Recent prospective studies suggest that young adults may have superior outcomes when treated with intensive pediatric regimens. We recently reported a 4-yr DFS and overall survival (OS) of 69% (n=78 who achieved CR) and 67% (n=92), respectively (DeAngelo et al. Leukemia 2015) using a native E. coliasparaginase based regimen. This phase II successor trial was performed to determine if a pediatric regimen using pegylated-asparaginase (peg-asp) could be feasibly administered to adults. Methods: Patients (pts) between 18-50 yrs with de novo ALL were eligible. The primary objective of this study was to determine the feasibility of a single dose of peg-asp during induction and of delivering peg-asp every 2 wks during a 30 wk consolidation period. The therapeutic backbone of this protocol was based on the very high-risk arm of the DFCI Childhood ALL Consortium Protocol 05-01. Pts received induction chemotherapy, which included doxorubicin, prednisone, vincristine, pegylated-asparaginase (peg-asp), and triple intrathecal therapy. Consolidation I consisted of a course of high-dose methotrexate, followed by a BFM-like intensification and a course of high-dose cytarabine, etoposide and dexamethasone. CNS prophylaxis included triple intrathecal therapy and cranial radiation. Intensification therapy consisted of eight 3-wk courses of doxorubicin, vincristine, dexamethasone, 6-mercaptopurine and 30 wks of IV peg-asp initially dosed at 2500 IU/m2every 2 wks. Continuation therapy consisted of 3 wk courses of vincristine, dexamethasone, methotrexate and 6-mercaptopurine for a total of 2 yrs from complete remission (CR). Imatinib at 600 mg/d was administered to those pts who were Philadelphia chromosome (Ph) positive. Results: Of 112 pts enrolled, 110 were eligible. The first 65 pts were treated with the initial study design of IV peg-asp during induction and peg-asp every two wks for 15 doses during consolidation. However, due to the high frequency of asparaginase toxicities mainly hyperbilirubinemia, peg-asp was replaced with native E. coli asp at a dose of 25,000 IU/m2 IM during induction and the dose and frequency peg-asp was decreased to 2000 IU/m2 every 3 wks during the consolidation phase in the subsequent 45 pts. The median age was 32 yrs, (range, 18-50), 61% were male, 82% had B-lineage phenotype, and 21 were Ph positive. The CR rate after 4 wks was 89%. 70 pts had the opportunity to receive peg-asp intensification therapy (42 at the 2500 IU/m2 every 2 wks schedule and 28 on the 2000 IU/m2 every 3 wk schedule). Of the 42, 18 pts (43%; 80% CI, 32-54%) on the 2 wk schedule completed at least 13 of 15 doses of peg-asp (26 wks) and 22 of 28 pts (79%; 80% CI, 65-88%) on the 3 wk schedule completed at least 8 of 10 doses of peg-asp, which met the feasibility endpoint (lower bound CI > 60%). The median asp levels post the induction dose of peg-asp were 0.025, 0.78, 0.28, 0.10, at baseline, 7, 11 and 25 days and >0.20 for each consolidation time point for both the 2 and 3 wk cohorts. Two deaths occurred during induction therapy (sepsis; CNS hemorrhage). Post-induction four pts developed pancreatitis, 14 pts had an allergic reaction to the asp, 12 pts developed osteonecrosis, 2 had a bone fracture, 13 pts had thrombosis/embolism and 32 pts had a grade 3-4 neutropenic infection. With a median follow-up time of 39 mos, the estimated 3-yr DFS is 73% for those who achieved a CR (n=90) and the estimated 3-yr OS is 75%. Conclusions: The administration of a dose intensified pediatric regimen with peg-asp to adults with ALL is feasible. However, the dose and schedule of peg-asp that is well-tolerated in adults is lower and less frequent as compared to that of pediatric pts. Although the DFS and OS are high for an adult cohort, longer follow up is needed. Pediatric-like therapies, including those using intensive peg-asp, are tolerable in young adults with ALL and represent a major therapeutic advance. Table 1. Outcome Summary n 3-yr % OS [95% CI] n 3-yr % DFS [95% CI] All Pts./CR Pts. 110 75 [66-82] 90 73 [62-81] Immunophenotype B cell 90 74 [64-82] 72 70 [58-80] T cell 20 78 [52-91] 18 83 [57-94] Ph- 89 80 [70-87] 78 75 [63-84] Figure 1. Figure 1. Disclosures DeAngelo: Pfizer: Consultancy; Amgen: Consultancy; Incyte: Consultancy; Bristol Myers Squibb: Consultancy; Agios: Consultancy; Ariad: Consultancy; Novartis: Consultancy; Celgene: Consultancy. Storring:Celgene Canada: Honoraria, Membership on an entity's Board of Directors or advisory committees; Novartis Canada: Honoraria, Membership on an entity's Board of Directors or advisory committees. Steensma:Celgene: Consultancy; Amgen: Consultancy; Incyte: Consultancy; Onconova: Consultancy. Stone:Pfizer: Consultancy; Juno: Consultancy; AROG: Consultancy; Amgen: Consultancy; Agios: Consultancy; Celator: Consultancy; Novartis: Research Funding; Sunesis: Consultancy, Other: DSMB for clinical trial; Abbvie: Consultancy; Karyopharm: Consultancy; Celgene: Consultancy; Merck: Consultancy; Roche/Genetech: Consultancy.
Allogeneic hematopoietic cell transplantation (alloHCT) is offered in a limited number of medical centers and is associated with significant direct and indirect costs. The degree to which social and geographic barriers reduce access to alloHCT is unknown. Data from the Surveillance, Epidemiology and End Results Program (SEER) and the Center for International Blood and Marrow Transplant Research (CIBMTR) were integrated to determine the rate of unrelated donor (URD) alloHCT for acute myelogenous leukemia (AML), acute lymphoblastic leukemia (ALL), and myelodysplastic syndrome (MDS) performed between 2000 and 2010 in the 612 counties covered by SEER. The total incidence of AML, ALL, and MDS was determined using SEER, and the number of alloHCTs performed in the same time period and geographic area were determined using the CIBMTR database. We then determined which sociodemographic attributes influenced the rate of alloHCT (rural/urban status, median family size, percentage of residents below the poverty line, and percentage of minority race). In the entire cohort, higher levels of poverty were associated with lower rates of alloHCT (estimated rate ratio [ERR], .86 for a 10% increase in the percentage of the population below the poverty line; P < .01), whereas rural location was not (ERR, .87; P = .11). Thus, patients from areas with higher poverty rates diagnosed with ALL, AML, and MDS are less likely patients from wealthier counties to undergo URD alloHCT. There is need to better understand the reasons for this disparity and to encourage policy and advocacy efforts to improve access to medical care for all.
The impact of pre transplant (HCT) cytarabine consolidation therapy on post HCT outcomes has yet to be evaluated after reduced intensity or non-myeloablative conditioning. We analyzed 604 adults with acute myeloid leukemia (AML) in first complete remission (CR1) reported to the CIBMTR who received a RIC or NMA HCT from an HLA-identical sibling, HLA-matched unrelated donor (URD), or umbilical cord blood (UCB) donor in 2000–2010. We compared transplant outcomes based on exposure to cytarabine post remission consolidation. Three year survival rates were 36% (29–43%, 95% CI) in the no consolidation arm and 42% (37–47%, 95% CI) in the cytarabine consolidation arm (p=0.16). Disease free survival was 34% (27–41%, 95% CI) and 41% (35–46%, 95% CI) (p=0.15), respectively. Three year cumulative incidences of relapse were 37% (30–44%, 95% CI) and 38% (33–43%, 95% CI), respectively (p=0.80). Multivariate regression confirmed no effect of consolidation on relapse, DFS and survival. Prior to RIC/NMA HCT, these data suggest pre-HCT consolidation cytarabine does not significantly alter outcomes and support prompt transition to transplant as soon as morphologic CR1 is attained. If HCT is delayed while identifying a donor, our data suggest that consolidation does not increase transplant TRM and is reasonable if required.
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