A Canadian consensus on the management of newly diagnosed and relapsed acute promyelocytic leukemia in adults

(promyelocytic leukemia) and RARA (retinoic acid receptor alpha) genes2. In most of the remaining apl cases, the variant translocations are characterized by fusions of RARA to other genes. Cases in which RARA translocations are lacking occur very rarely. The PML–RARA translocation is not only a distinguishing feature of apl, it also drives the disease and is a key target for successful treatment. The presence of pml–rar-α leads to a differentiation block at a retinoic acid–dependent stage of myeloid differentiation and also to increased self-renewal of cells at an earlier stage in differentiation. However, those defects can specifically be overcome by pharmacologic amounts of the retinoid all-trans retinoic acid (atra) and by arsenic trioxide (ato), either alone or in combination3. Another distinguishing feature of apl is prominent coagulopathy, which is often found at presentation or shortly thereafter. Coagulopathy is associated with a high risk of hemorrhagic death, or thrombosis, or both1. Without early initiation of treatment, apl can be rapidly lethal. Even if definitive therapy is started early, mortality from hemorrhage (and thrombosis) occurs at a high rate during the first few days after presentation. Since the recognition of apl as a distinct disease in 1957, several key developments have changed its prognosis from highly fatal to very curable4. Those developments include the discovery of the apl cell’s heightened response to atra, to anthracyclines (with or without cytarabine) and to ato, the adoption of risk-adapted treatments, and the recognition that immediate aggressive supportive care is required to reduce the incidence of early death from the complications of coagulopathy and thrombosis3,5. The use of atra in combination with anthracyclines (with or without cytarabine) as first-line treatment has made it possible to attain complete remission rates exceeding 90% and cure rates close to 80%3. In patients with lowand intermediate-risk disease, further improvements in outcome have recently been described with the use of non-chemotherapeutic approaches in ABSTRACT

(promyelocytic leukemia) and RARA (retinoic acid receptor alpha) genes 2 .In most of the remaining apl cases, the variant translocations are characterized by fusions of RARA to other genes.Cases in which RARA translocations are lacking occur very rarely.
The PML-RARA translocation is not only a distinguishing feature of apl, it also drives the disease and is a key target for successful treatment.The presence of pml-rar-α leads to a differentiation block at a retinoic acid-dependent stage of myeloid differentiation and also to increased self-renewal of cells at an earlier stage in differentiation.However, those defects can specifically be overcome by pharmacologic amounts of the retinoid all-trans retinoic acid (atra) and by arsenic trioxide (ato), either alone or in combination 3 .
A nother disting uishing feat ure of a pl is prominent coagulopathy, which is often found at presentation or shortly thereafter.Coagulopathy is associated with a high risk of hemorrhagic death, or thrombosis, or both 1 .Without early initiation of treatment, apl can be rapidly lethal.Even if definitive therapy is started early, mortality from hemorrhage (and thrombosis) occurs at a high rate during the first few days after presentation.
Since the recognition of apl as a distinct disease in 1957, several key developments have changed its prognosis from highly fatal to very curable 4 .Those developments include the discovery of the apl cell's heightened response to atra, to anthracyclines (with or without cytarabine) and to ato, the adoption of risk-adapted treatments, and the recognition that immediate aggressive supportive care is required to reduce the incidence of early death from the complications of coagulopathy and thrombosis 3,5 .The use of atra in combination with anthracyclines (with or without cytarabine) as first-line treatment has made it possible to attain complete remission rates exceeding 90% and cure rates close to 80% 3 .In patients with low-and intermediate-risk disease, further improvements in outcome have recently been described with the use of non-chemotherapeutic approaches in

ABSTRACT
The use of all-trans-retinoic acid (atra) and anthracyclines (with or without cytarabine) in the treatment of acute promyelocytic leukemia (apl) has dramatically changed the management and outcome of the disease over the past few decades.The addition of arsenic trioxide (ato) in the relapsed setting-and, more recently, in reduced-chemotherapy or chemotherapyfree approaches in the first-line setting-continues to improve treatment outcomes by reducing some of the toxicities associated with anthracycline-based approaches.Despite those successes, a high rate of early death from complications of coagulopathy remains the primary cause of treatment failure before treatment begins.In addition to that pressing issue, clarity is needed about the use of ato in the first-line setting and the role of hematopoietic stem-cell transplantation (hsct) in the relapsed setting.The aim for the present consensus was to provide guidance to health care professionals about strategies to reduce the early death rate, information on the indications for hsct and on the use of ato in induction and consolidation in low-to-intermediate-risk and high-risk apl patients.

INTRODUCTION
Acute promyelocytic leukemia (apl) is a relatively rare form of leukemia, accounting for about 10%-15% of adults diagnosed with acute myeloid leukemia in the United States each year 1 .Cells from 92% of patients diagnosed with apl are characterized by a balanced reciprocal translocation between chromosomes 15 and 17, resulting in a fusion of the PML which the atra-ato combination has resulted in a lower frequency of hematologic toxicities while still maintaining the high and durable response rates seen with conventional chemotherapy-based regimens 6 .Similar improvements in outcome have also been observed using reduced-chemotherapy ato-containing approaches in high-risk apl 7 .
Despite those successes, several unmet needs in apl treatment remain.The most significant challenge continues to be the high incidence of early death.In addition, although chemotherapy-based approaches have led to excellent response rates, they are associated with significant early hematologic toxicities and also with delayed long-term adverse effects, including cardiomyopathy and secondary malignancies such as therapy-related myelodysplasia and acute myeloid leukemia.In addition, for the small number of patients with relapsed apl, uncertainty remains about the best treatment options, especially the roles of autologous or allogeneic hematopoietic stem-cell transplantation (hsct) in that setting.Finally, there is a need to improve outcomes in older patients, who might not be able to tolerate regimens based on conventional chemotherapy.

PURPOSE
The present review provides health care professionals with guidance about strategies to reduce the early death rate and information concerning the indications for hsct and the use of ato in induction and consolidation therapies for low-to-intermediate-risk and highrisk apl patients.The recommendations presented here were developed by a panel of apl experts from across Canada and focus on the treatment and management of adult patients with newly diagnosed and relapsed apl with the classical t(15;17) translocation.

Identification and Selection of Studies
A systematic search of published papers in medline and of abstracts submitted to the annual meetings of the American Society of Hematology, the American Society of Clinical Oncology, and the European Hematology Association used these search terms: apl management, apl supportive, apl prophylaxis, apl infusion, ato first-line treatment, arsenic trioxide apl, Trisenox apl, transplant, apl transplant, apl allogeneic, and apl autologous.Publications were excluded if they were published before January 2009, if they included treatment with ato as a single agent in induction and consolidation, or if they examined the role of ato in maintenance.

Formulation of Recommendations
After review and discussion of the evidence, the panel formulated recommendations with the aim of updating recommendations published in 2009 by the European LeukemiaNet (eln) 8 .The panel considered both the level of evidence and the quality of the studies.

Question 1
How should patients with suspected apl be managed at first presentation?

Background:
The high incidence of early death before and during induction treatment remains the most significant cause of treatment failure in apl 9,10 .Despite the use of atra therapy for almost two decades, early mortality has been reduced only modestly, as recently noted in a 2011 population-based study of the Surveillance, Epidemiology, and End Results database 11 .Contrary to reported incidence rates of early death from cooperative clinical trials (which are in the 5%-10% range) 11 , recent population-based studies have shown those rates to be much higher, ranging from 17% (in a study of the Surveillance, Epidemiology, and End Results database) to 29% in a study of the Swedish Adult Acute Leukemia Registry [11][12][13] .Consistent with those findings, the results of a Canadian study by Paulson et al. in 2014  showed that the incidence of early death was 22% 14 .Factors contributing to the discrepancy between clinical trials and population-based studies might be a failure to refer patients with poor performance status (including those with cranial and pulmonary hemorrhage) to a leukemia centre in a timely manner and exclusion of such patients from clinical trials 15 .
Overall, these recent studies identify a major unresolved issue in the management of an otherwise highly curable malignancy and should instruct health care providers to highlight the main cause of early death with an aim to identify treatment and management strategies that complement atra therapy.Given that early death occurs mainly as a result of complications from coagulopathy (bleeding and thrombosis) 11,16 , which develops early and can progress rapidly, early consideration of the possibility of apl and the immediate initiation of treatment once apl is suspected (and before it is proven) is critical.
Current guidelines recommend that first-line treatment of potential complications be initiated immediately based on clinical presentation and the morphology of apl cells in an analysis of a peripheral blood smear or bone aspirate and before genetic confirmation 8,17 .Later genetic confirmation of PML-RARA is still mandatory, because a positive response to induction treatment with atra or ato depends on the presence of the pml-rar-α fusion protein 17 .
The high risk of hemorrhagic early death in apl has prompted the authors of both the European and the North American guidelines to strongly recommend Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014 Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).implementation of three measures at the earliest suspicion of apl and before genetic confirmation 8,17 : • Immediate atra therapy to help resolve the coagulopathy • Aggressive replacement of cryoprecipitate, platelets, and fresh-frozen plasma • Frequent, ongoing clinical monitoring of the patient The eln guidelines also highlight several factors associated with an increased likelihood of fatal hemorrhage: higher counts of white blood cells (wbcs) or peripheral blasts, abnormal levels of creatinine, poor performance status, active bleeding, hypofibrinogenemia (<100 mg/dL) or higher levels of fibrin degradation products or D-dimers in combination with an increase in prothrombin time or activated partial thromboplastin time 8 .Immediate atra treatment is critical because atra is known to rapidly reduce the biologic drivers of apl-associated coagulopathy, and therefore is likely to reduce the risk of early death from severe bleeding 8 .To accompany immediate atra therapy initiation, the recommendations call for aggressive and ongoing transfusions with freshfrozen plasma, cryoprecipitate, and platelet concentrates to maintain fibrinogen levels above 1.5 g/L and platelet levels at 30-50×10 9 /L 8,17 .The initial workup for coagulopathy should include, at a minimum, platelet count, prothrombin time, activated partial thromboplastin time, and fibrinogen level 8 .
Patients presenting with a wbc count exceeding 10×10 9 /L also have a higher risk of differentiation syndrome than do patients with a count of 10×10 9 /L or fewer 8,17 .In a study by Kelaidi et al. examining high-risk patients in the apl 93 and apl 2000 trials, prophylactic dexamethasone was shown to reduce early induction deaths attributable to differentiation syndrome 18 .Based on that study, the eln and U.S. National Comprehensive Cancer Network (nccn) guidelines recommend considering prophylactic dexamethasone for patients with more than 10×10 9 /L wbcs or those showing the first signs of differentiation syndrome 8,17 .The use of anticoagulant or antifibrinolytic therapy such as heparin or tranexamic acid to reduce the risk of bleeding is not recommended, and invasive procedures such as lumbar puncture and central venous catheterization are to be avoided before and during the early stages of remission induction because of the high risk of bleeding in apl 8 .

Evidence:
We identified only three studies that focused on supportive care (Table i).The study by Ikezoe et al. 21examined the effects of recombinant human thrombomodulin on the clinical outcomes of patients with coagulopathy.Rescue from disseminated intravascular coagulation was shown to occur earlier in patients treated with recombinant human thrombomodulin than in historical control patients (log-rank p = 0.019).In the study by Barreto et al. 19 , the effect of the prophylactic antifungal agent voriconazole on the incidence of differentiation syndrome in patients receiving atra plus chemotherapy was examined.A trend toward an increased incidence of differentiation syndrome in patients receiving voriconazole was observed, although the difference was not statistically significant because of the small sample size (hazard ratio: 1.96; 95% confidence interval: 0.65 to 5.94; p = 0.23).A study by Chang et al. 20 identified a higher wbc count (26.73 ± 6.18/ μL vs. 13.03 ± 3.03/μL, p = 0.026) and prolonged prothrombin time (4.85 ± 0.70 s vs. 2.59 ± 0.28 s, p = 0.002) and activated partial thromboplastin time (3.98 ± 1.68 s vs. 0.96 ± 0.93 s, p = 0.017) as risk factors for bleeding in patients with apl.
Recommendations: Owing to a lack of high-level evidence on supportive care in the medical literature, the panel made no changes or new recommendations beyond those made by the eln.The panel strongly recommends prompt institution of supportive care measures as a critical strategy to reduce the early death rate in apl (Table ii).A provisional diagnosis of apl (based on clinical presentation and morphology of the leukemic cells in a blood smear or bone marrow aspirate) is routinely available before genetic confirmation.Therefore, if a patient is suspected of having apl, atra should be started immediately.Based on laboratory tests, cryoprecipitate, fresh-frozen plasma, and platelets should be infused immediately, with the goal of maintaining fibrinogen levels above 1.5 g/L and platelets at 30×10 9 /L.To consistently maintain those target levels, the panel recommends repeat monitoring at least every 6 hours, because daily monitoring can be inadequate in the presence of ongoing consumptive coagulopathy.Referral to a leukemia centre should occur promptly.Molecular genetic confirmation of the PML-RARA translocation should be obtained as quickly as possible to warrant initiation of full induction therapy (per the recommendations in response to question 2).The panel also recommends administering prophylactic steroids to all patients with high-risk disease 17 .

Question 2
How should ato be used in induction and consolidation for newly diagnosed apl patients?Background: In combination with an anthracycline, and with or without cytarabine, atra has been the standard backbone in induction and consolidation treatment for newly diagnosed apl patients for more than a decade.Induction therapy using such a regimen yields a complete response (cr) rate in the 90%-95% range 3 .The role of ato became clearer after several studies showed efficacy and safety for ato with or without atra in the relapsed setting 22,23 and, more recently, in first-line induction and consolidation 6,7,[24][25][26] .In 1998, Soignet et al. 22 were the first to corroborate reports from China about the efficacy of ato in treating apl by showing that ato is highly efficacious at inducing remission in relapsed disease.Those results were confirmed in a larger multicentre trial in 2001 by the same group, who reported a cr rate of 85%, and 18-month overall survival (os) and relapse-free survival rates of 66% and 56% respectively in relapsed apl 23 .Those studies formed the basis for the approval of ato for the treatment of relapsed or refractory apl in Europe,  the United States, and Canada.Several subsequent studies demonstrated similar results, with cr rates of 80%-100% and 2-year os rates ranging from 56% to 82% [27][28][29] .Overall, ato has been shown to be well tolerated, with most patients experiencing only mild toxic effects.In some patients, ato is associated with differentiation syndrome and QTc prolongation, both of which are effectively counteracted when specific preventive measures are implemented 30 .The published studies also show that hematologic toxicity with ato is lower than it is with chemotherapeutic regimens for re-induction of remission 3 .
Currently, apl treatment is based on risk stratification by wbc count 17 .Patients with a count of 10×10 9 /L or less are classified as low risk (platelets > 40×10 9 /L) or intermediate risk (platelets ≤ 40×10 9 /L) for relapse, and patients with a count exceeding 10×10 9 /L are considered at high risk of relapse.
In 2009 and 2011 respectively, the eln and the nccn recommended 1 cycle of atra plus anthracycline-based chemotherapy (idarubicin alone, or daunorubicin plus cytarabine) as the standard first-line induction treatment for newly diagnosed patients with low-to-intermediate-risk and high-risk apl 8,17 .In 2013, the nccn guidelines were updated to include ato plus atra (without chemotherapy) as an option for first-line induction and consolidation treatment in newly diagnosed patients with low-tointermediate-risk apl 17 .Consolidation treatment after induction has been more controversial and varied.However, the eln recommends atra plus 2-3 cycles of anthracycline-based chemotherapy as the standard approach for consolidation therapy, and at least 1 dose of cytarabine is recommended in high-risk patients less than 60 years of age 8 .For consolidation in high-risk patients, the nccn recommends three options: ato in combination with atra and daunorubicin, daunorubicin plus cytarabine with 5 doses of intrathecal chemotherapy, or atra in combination with idarubicin, cytarabine, and mitoxantrone.For low-to-intermediate-risk patients, the nccn recommends four options: ato plus atra, atra in combination with idarubicin and mitoxantrone, daunorubicin plus cytarabine, and ato in combination with atra and daunorubicin.
Evidence: Our literature search revealed nine studies that examined the efficacy and safety of ato in combination with chemotherapy in first-line treatment, and another five studies that examined the efficacy and safety of the chemotherapy-free approach of ato plus atra in first-line treatment of newly diagnosed apl patients (Table iii).
ATO Plus ATRA: One phase iii randomized clinical trial compared the efficacy and safety of ato plus atra with those of atra plus chemotherapy in newly diagnosed patients with low-to-intermediate-risk apl (Table iii) 6 .Patients at low or intermediate risk received either ato plus atra (n = 77) for induction and consolidation, or atra plus idarubicin for induction (n = 79), followed by 3 cycles of atra plus chemotherapy for consolidation, and low-dose chemotherapy plus atra for maintenance.Rates of cr in the ato plus atra group and the atra plus chemotherapy group were 100% and 95% respectively (p = 0.12).The 2-year event-free survival (efs) rates were 97.1% in the ato plus atra group and 86% in the atra plus chemotherapy group (p = 0.02,   Patients in the ato plus atra group experienced more QTc prolongation (16% vs. 0%, p < 0.001), more hepatic toxicity (63% vs. 6%, p < 0.001), and more hyperleukocytosis (47% vs. 24%, p = 0.007).
Four other studies examined the efficacy and safety of ato plus atra as induction and consolidation therapy (Table iii).The cr rate ranged from 92% to 98% [37][38][39][40] , with an early death rate of 5.5% reported in one study 40 and an 8% induction failure rate because of death reported in another 38 .The 5-year os rates ranged from 83% to 98.9% 33,36,39,41 .One study reported a 3-year disease-free survival rate of 92.9% 37 , and one study reported a 5-year efs rate of 86% 39 .

Recommendations:
The panel recommends ato plus atra as induction and consolidation treatment for untreated, low-to-intermediate-risk apl patients.This recommendation is based on the results of the randomized phase iii study by Lo-Coco et al. 6 , which showed that this combination was noninferior to the aida regimen (atra plus idarubicin).The study also showed that ato plus atra was associated with less hematologic toxicity and infection 6 .For high-risk patients, the panel recommends induction with combination chemotherapy consisting of idarubicin, atra, and ato, followed by consolidation with ato and atra, as used in the phase ii study reported by Iland et al. 7 .

Question 3
What is the role of hsct in the treatment of relapsed apl?
Background: Although some evidence suggests that treatment intensification with hsct can improve patient outcomes after ato-induced second remission 42 , the best consolidation treatment in that setting remains unknown 8 .The selection of the best treatment option (hsct or chemotherapy) in second cr after ato-and also the choice between allogeneic and autologous hsct-depends on several factors, including molecular status at second complete response, duration of first remission, age, and donor availability 8 .Compared with allogeneic hsct, autologous hsct is associated with a lower risk of transplantation-related morbidity and mortality and might be an appropriate treatment choice for patients with a second remission who do not have minimal residual disease detectable by polymerase chain reaction (pcr) at the time of collection of hematopoietic stem cells.Compared with autologous hsct, allogeneic hsct is associated with a greater risk of transplantation-related death.However, because allogeneic hsct has a strong anti-leukemic effect, it could be considered for patients who have failed to achieve a second molecular remission or for those with a very short first cr duration.
For patients with relapsed apl, the nccn guidelines recommend ato plus atra for induction of remission or for patients who fail to achieve molecular remission Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014 Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).
after completion of consolidation treatment after relapse 17 .After a morphologic remission, patients should be evaluated for PML-RARA status by pcr and treated with one of the following options: • Autologous hsct (if pcr-negative) • Further courses of ato (if pcr-negative and not suitable for hsct) • Allogeneic hsct (if pcr-positive) • Enrolment in a clinical trial For patients who fail to reach a morphologic remission, the nccn recommends allogeneic hsct or enrolment in a suitable clinical trial.Recommendations by the eln are consistent with those of the nccn 8 .
Evidence: Nine studies examined the role of hsct in consolidation treatment of apl patients after first relapse (Table iv).Six of the studies examined the role of autologous or allogeneic hsct after remission induction with chemotherapy, cytarabine, or ato, with or without atra.Yanada et al. reported a 5-year os rate 77% in patients receiving autologous hsct after a median follow-up of years 43 .In their respective studies, Yanada et al., Shepard et al. 47 , and Ferrara et al. 48reported relapse rates of 8.5%, 25%, and 23% in patients treated with autologous hsct.A study by Thirugnanam et al. 49 showed a higher 5-year efs rate in patients treated with autologous hsct than in those receiving only ato with or without atra (83.33% vs. 34.45%,p = 0.001).Ramadan et al. 46 examined the role of allogeneic hsct in second remission and beyond, reporting a 4-year os rate of 62% when hsct was performed in the second cr and 31% in patients transplanted beyond the second cr (p = 0.05).A study by Linker et al. showed a 5-year disease-free survival rate of 67% after a median follow-up of 8.2 years in patients receiving two-step autologous hsct 50 .
Three studies compared clinical outcomes in patients treated with autologous or allogeneic hsct and in those who did not receive hsct.The Fujita et al. 44 study compared outcomes in patients receiving autologous hsct, allogeneic hsct, and no hsct.The 5-year os and efs rates were 83.3% and 41.7% respectively in the autologous-hsct group, 76.2% and 71.1% in the allogeneic-hsct group, and 77.4% and 50.7% in the non-hsct group.In a retrospective study, Pemmaraju et al. 45 demonstrated 7-year os rates of 85.7%, 49.4%, and 40% in patients treated with autologous hsct, allogeneic hsct, and chemotherapy respectively (p = 0.48).In a study by Holter Chakrabarty et al., the 5-year os rate was higher for patients who received autologous hsct than for those who underwent allogeneic hsct (75% vs. 54%, p = 0.002) 51 .The same study also showed a numerically higher 5-year disease-free survival rate for patients who underwent autologous transplantation (63% vs. 50%, p = 0.10).

Recommendations:
The panel recommends consolidation treatment options consistent with those stated in the nccn guideline: autologous hsct for patients who achieve molecular remission after ato-induced second cr, with allogeneic hsct reserved for patients with persistent disease by molecular monitoring (pcr-positive).Patients who achieve pcr-positive remissions, but who are not suitable for hsct, should be treated with up to 6 cycles of ato for consolidation treatment.The panel recommends consideration of allogeneic hsct or enrolment in clinical trials for patients who do not achieve remission.

ACKNOWLEDGMENTS
The

table i
Clinical trial data for supportive care treatments in acute promyelocytic leukemia (apl) atra plus chemotherapy plus voriconazole atra plus chemotherapy (no fungal prophylaxis) 31 56 Only body mass index differed between study arms [higher in patients receiving voriconazole (hr: 1.04; 95% ci: 1.001 to 1.078; p=0.0427)].The overall incidence of ds was 35% (n=16), with patients receiving voriconazole being more likely to experience ds (hr: 2.31; 95% ci: 0.78 to 6.874; p=0.1308).After adjusting for body mass index, patients receiving voriconazole had a higher tendency to experience ds [especially severe ds (13 of 16 cases, 81%)]; however, because of small numbers, the trend was not statistically significant (hr: 1.96; 95% ci: 0.65 to 5.94; p=0.23).Admission to the intensive care unit was needed for management of severe ds in 7 patients (44%), 5 of whom had received voriconazole.Mean length of those stays was 4 days (range: 1-7 days), with no patients requiring intubation, but 29% receiving vasopressor support.No deaths were attributable to ds.Rescue from dic occurred earlier in patients treated with rtm than in historical controls (log-rank p=0.019).

table ii
Recommendations for supportive care in newly diagnosed or suspected acute promyelocytic leukemia (apl) atra = all-trans-retinoic acid.Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).tableiiiClinicaltrialdatafor first-line arsenic trioxide(ato)treatments in acute promyelocytic leukemia (apl) Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014 Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014 Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014 Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014 Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014 Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).

OnCOlOgy-VOlume 21, number 5, OCtOber 2014
authors acknowledge support by Lundbeck Canada for the development of this article, as well as medical writing support provided by Wissam Assaily, Benjamin Fuerth, and Anna Christofides of New Evidence.Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).Clinical trial data for hematopoietic stem-cell transplantation (hsct) in acute promyelocytic leukemia (apl) Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014 Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).Current OnCOlOgy-VOlume 21, number 5, OCtOber 2014 Copyright © 2014 Multimed Inc.Following publication in Current Oncology, the full text of each article is available immediately and archived in PubMed Central (PMC).