Park et al report in this issue of Blood that, despite the results reported in major clinical trials, the rate of early death (ED) in acute promyelocytic leukemia (APL) found in a population-based study remains high over the past 15 years.1 

Based on data obtained from the US Surveillance, Epidemiology, and End Results (SEER) registry, the authors show that the ED rate for APL is not only considerably higher than that described in clinical trials (ie, 17% vs 3%–10%),1,2  and that it has not been affected significantly by the advent of modern treatment with all-trans retinoic acid (ATRA). Given the rarity of APL (0.2-0.3 cases/100 000/year) the total number of cases represents a meager figure. However, because of the reasons detailed below, the issues raised by this article are relevant for hematologists, oncologists, and health care providers in general.

First of all, we are dealing with a highly curable malignancy. Once regarded as the most aggressive and rapidly fatal human leukemia, APL has become over the past 2 decades the most frequently curable leukemia, with more than 80% of patients now being long-term survivors after combinatorial regimens including ATRA and anthracycline-based chemotherapy.2,3  However, it is extremely important that patients are managed in highly specialized and experienced units.4 

Early death, mainly because of hemorrhage, and disease relapse account for most failures currently reported in clinical trials.2,4  Given the above-mentioned therapeutic achievements, ED presently represents, together with disease relapse, the major obstacle to further increasing the cure rate of APL patients. In fact, the impressive progress with antileukemic therapy to decrease the relapse rate has not been paralleled by similar advances in reducing ED. This report by Park et al is therefore very appropriate and timely.

In terms of ED reporting, it may be that clinical trials only describe the tip of the iceberg. It is unclear at present what percentage of patients diagnosed with APL are in fact referred to specialized care. Unfortunately, this information is not available in the study by Park et al. Together with another recently reported population-based study carried out in Sweden,5  the article by Park et al strongly suggests that the rate of ED in APL is unexpectedly much higher than commonly believed, indicating that this number must be revised, taking into account real-world data. As suggested in both of these articles, more investigation and education are warranted to better address the issue.1,5 

We also believe that a better definition of ED and, particularly, an appropriate dissection of distinct ED types (before and during induction therapy) and causes of death (hemorrhage, infection, differentiation syndrome, etc) are needed to better identify factors with a relevant impact on each failure type.

It seems clear that ED in APL should be categorized in several distinct groups: (1) death before diagnosis (unrecognized although strongly suspected cases); (2) death because of misdiagnosis and/or inappropriate therapy; (3) pretherapy death in bona fide APL cases; and (4) death during induction therapy. As a first step, agreement is also needed on an adequate ED definition in terms of time frame. This definition should encompass all deaths occurring from the period before therapy initiation up to the end of induction (which may occasionally last more than 30 days!) as defined by morphologic complete remission coupled with complete hematologic recovery. Lack of precise definitions will inevitably generate confusion and difficulties in interpretation. To define ED as that occurring within 20 or 30 days is meaningless and incorrect. Furthermore, deaths occurring before and after the commencement of therapy should be analyzed separately because distinct factors likely affect them. Some examples include disease characteristics, delayed diagnosis, and late referral to specialized units that may impact significantly on pretherapy. Some additional factors such as exacerbation of the coagulopathy during therapy, infection related to treatment, and differentiation syndrome may also account for induction death. One of the limits of their study acknowledged by Park et al is the lack of information on the causes of death that was unfortunately not available in the SEER dataset.

One simple action to better establish the size of the problem could be to request that authors of clinical trial studies report in detail all relevant information for patients who were excluded from the study because of eligibility criteria. This could be stimulated by reviewers and editors requesting these data. With very few exceptions,6  these data are omitted from clinical trial reports. In parallel, epidemiologic registries should be encouraged to collect more information on patient history and causes of death, and a greater effort should be made in general to foster population-based studies such as the ones conducted by Park et al1  and Lehmann et al.5 

To conclude, it is important that the generalized sense of optimism on APL curability fostered by results with modern treatments be tempered by the notion that the disease remains highly fatal if not promptly recognized and adequately treated in highly specialized institutions. This article by Park et al is a timely and useful warning in this respect. A combined effort of epidemiologic studies and improved education tailored to health caregivers to increase awareness and expertise in this leukemia should result in diagnosing more cases, conveying to appropriate management, and ultimately saving more human lives.

Conflict-of-interest disclosure: The author declares no competing financial interests. ■

1
Park
 
JH
Qiao
 
B
Panageas
 
KS
et al. 
Early death rate in acute promyelocytic leucemia remains high despite all-trans retinoic acid.
Blood
2011
, vol. 
118
 
5
(pg. 
1248
-
1254
)
2
Sanz
 
MA
Lo-Coco
 
F
Modern approaches to treating acute promyelocytic leukemia.
J Clin Oncol
2011
, vol. 
29
 
5
(pg. 
495
-
503
)
3
Wang
 
ZY
Chen
 
Z
Acute promyelocytic leucemia: from highly fatal to highly curable.
Blood
2008
, vol. 
111
 
5
(pg. 
2505
-
2515
)
4
Sanz
 
MA
Grimwade
 
D
Tallman
 
MS
et al. 
Management of acute promyelocytic leukemia: recommendations from an expert panel on behalf of the European LeukemiaNet.
Blood
2009
, vol. 
113
 
9
(pg. 
1875
-
1891
)
5
Lehmann
 
S
Ravn
 
A
Carlsson
 
L
et al. 
Continuing high early death rate in acute promyelocytic leukemia: a population-based report from the Swedish Adult Acute Leukemia Registry.
Leukemia
2011
, vol. 
25
 
7
(pg. 
1128
-
1134
)
6
de la Serna
 
J
Montesinos
 
P
Vellenga
 
E
et al. 
Causes and prognostic factors of remission induction failure in patients with acute promyelocytic leukemia treated with all-trans retinoic acid and idarubicin.
Blood
2008
, vol. 
111
 
7
(pg. 
3395
-
3402
)
Sign in via your Institution