Myths and Lessons from the Adult/Pediatric Interface in Acute Lymphoblastic Leukemia

doi:10.1182/asheducation-2006.1.128

HOME

HELP

FEEDBACK

SUBSCRIPTIONS

Myths and Lessons from the Adult/Pediatric Interface in Acute Lymphoblastic Leukemia

Stephen E. Sallan

Correspondence: Stephen Sallan, MD, Dana Farber Cancer Institute, 44 Binney St, Rm 1642, Boston MA 02115-6084; Phone 617-632-3316; Fax 617-632-5511; Email stephen_sallan{at}dfci.harvard.edu

Abstract

The development of effective therapy for children with acutelymphoblastic leukemia (ALL) is one of the great successes ofclinical oncology, with long-term survival achieved in over80% of patients. However, cure rates for adults with ALL remainrelatively low, with only 40% of patients cured. With an age-unrestricted,biology-based approach, we anticipate a better understandingabout why these outcome differences exist, and think that byextending successful pediatric clinical programs to includeadult patients with ALL, we can directly compare uniformly treatedadults and children in terms of response to therapy, toxicityand underlying biology.

"The child is the father of the man"...

William Wordsworth

Background

Within childhood acute lymphoblastic leukemia (ALL) populations,older children have had inferior outcomes¹ and within adultALL populations, younger adults have had superior outcomes.²^,³In recent reports, "overlapping" populations of older childrenand young adults have been compared for the likelihood of inducinga complete remission and long-term event-free survival (Table1).⁴^–⁸

View this table:
[in this window]
[in a new window]

Table 1. Older child/young adult acute lymphoblastic leukemia (ALL) outcomes.

None of the clinical trials listed in Table 1 was designed tobe compared to its age-overlapping pediatric or adult counterpart;thus, the comparisons were all retrospective. Although well-recognizedage-related dissimilarities in the biology of ALL and event-freesurvival exist (Tables 2 and 3), the more favorable outcomesfor older adolescents treated on pediatric regimens in Table1 cannot be explained by differences in patient characteristics.Nor would one expect other potential "adult vs. pediatric" differences(for example, co-morbidities associated with smoking, or hostpharmacokinetic differences based on age) to play a substantialrole in the findings summarized in Table 1.

View this table:
[in this window]
[in a new window]

Table 2. Acute lymphoblastic leukemia (ALL): incidence & biological differences.

View this table:
[in this window]
[in a new window]

Table 3. Five-year event-free survival.

There are clear differences between current adult and pediatrictherapeutic approaches. For example, bone marrow transplantationin first remission is more common for adults (in part, becauseof the higher incidence of Philadelphia chromosome–positiveALL), and pediatric regimens generally include greater dosedensity of many chemotherapeutic agents (such as asparaginase,vincristine, cortico-steroids and methotrexate).

What are some plausible explanations for these differences betweenpediatric and adult outcomes? In a thoughtful, provocative andprescient editorial, Dr. Charles Schiffer reflected on biologicaldifferences among the hosts and diseases, and also raised issuespertaining to clinical practice, such as the frequency of andfamiliarity with ALL protocols and care of such patients.⁹ Inaddition to recognizing that ALL is the most common malignancyin children and relatively rare in adult oncology populations,he also noted that most children, but not most adults, withALL were treated in the context of clinical trials, by experiencedsupport teams, and that many adults were not treated at academicmedical centers. The cultural differences between care of pediatricand adult ALL patients, described as "disparities in treatingattitudes" by Boissel and co-workers,⁵ was highlighted by Schiffer’scolorful and accurate description of pediatricians’ tightadherence to complex treatment protocols "...with a militaryprecision on the basis of near-religious conviction about thenecessity of maintaining prescribed dose and schedule come hell,high water, birthdays, Bastille Day, or Christmas." Althoughthe necessity of such vigor has not been formally tested, theproof of the pudding is in the tasting.

Obstacles to Age-Unrestricted, Biology-based Treatment

Why have adults with ALL not received the same chemotherapeuticregimens as children?

There are two principal hurdles: 1) systems of care, and 2)regulatory impediments.

"Systems of care" and related differences
Referral patterns
Commonly held views suggest that pediatricians refer 15- to20-year-old patients to pediatric academic medical centers where(a) > 90% of patients are < 15 years old, and b) >90% of patients with ALL are enrolled on clinical trials.

Similarly, internists frequently refer 15- to 20-year-old patientsto adult hospitals, mostly not academic medical centers, wherea) > 90% of the patients are > 40 years old and b) mostpatients with ALL are not entered on clinical trials.¹⁰

Frequency of and familiarity with ALL
Although there might be as many adults with ALL as there arechildren with the disease¹¹ (Figure 1), the relative frequencyof the disease is markedly higher in young children. ALL representsabout 15% of all malignancies in 1–15 year olds, 5% in15–19 year olds, and < 10% of malignancy in > 20year olds.

View larger version (63K):
[in this window]
[in a new window]

Figure 1. Incidence of acute lymphoblastic leukemia (ALL) by age, SEER 1992–1999.

Adherence to protocol and mitigating psychosocial factors
Although most of the drugs used for ALL today have existed forover four decades, little is known about their ideal antileukemiadose or the role of individual patient differences in drug metabolism.In pediatric practice, "pushing the dose" by using myelosuppressionas the endpoint, assures delivery of the maximum dose for eachchild with each course of chemotherapy. Although it is difficultto assess whether such rigid adherence to protocols is necessary,Boissel and co-workers reported on one "therapeutic practice"measure. They determined the median number of days from thetime of initial complete remission until the time of the firstpostremission chemotherapy: 2 days in the pediatric study and7 days in the adult study; P = 0.002.⁵

Is this time-to-next-treatment measure a medical or psychologicalproblem? Have the older patients fully recovered physiologically,or are there other mitigating features (e.g., "I need some timewith my family") resulting in delays in therapy?

In the pediatric setting, in addition to the meticulous attentionto detail by the pediatricians, a primary driver of subsequenttherapy is the caretaker, usually the mother. ("What are wewaiting for? The leukemia is growing back. Let’s get going!")

Difficulties in comparisons
"Simple" apples-to-apples comparisons in a heterogenous diseasesuch as ALL can be difficult, and occult differences in practicesamong internists and pediatricians might not be appreciated.

For example, Table 1 demonstrates comparisons in the percentageof complete remissions between older children and adults. Notshown is the time to enter complete remission. All pediatrictrials report complete remission at the end of approximately1 month of multiagent chemotherapy. However, many adult trialsreport on the complete remission rates after 2 months of treatment(Table 4). Although the time to attain a complete remissionwas not of prognostic importance in at least one adult trial,¹²we found that in childhood ALL, the time to enter a completeremission had significant implications, and the difference betweena complete remission in 1 month or 2 months was a matter oflife or death for the majority of slow responders.¹⁵

View this table:
[in this window]
[in a new window]

Table 4. Time to complete remission in adult acute lymphoblastic leukemia (ALL) trials.

Regulatory obstacles
No diseases begin or end at age 18 years. But current reviewsystems of clinical trials (e.g., Institutional Review Boards)and funding sources (e.g., cooperative groups and pharmaceuticalcompany-sponsored trials) frequently establish "biologicallyarbitrary" age limits for protocol eligibility and evaluation.Thus, diseases such as ALL, whose biology extends across a broadage spectrum, are usually approached as two diseases: childhoodALL (patients < 18 years old), and adult ALL (patients $≥$ 18years old). Such "age-restricted" criteria have played an integralrole in our current understanding of the disease and its treatment.However, this approach, based on the single differentiatingmeasure—patient age—has until recently hamperedclinical research across a broader spectrum of the disease.Although likely a meaningful host variable, age, per se, ishighly unlikely to trump leukemia biology or the impact of anindividual treatment regimen. Overcoming such well-institutionalizedbarriers to research remains a formidable challenge.

Recently, the Dana-Farber Pediatric ALL Consortium, a groupof nine collaborating pediatric centers with a successful recordof ALL research and treatment,¹⁶ joined together with nine adultinstitutions to form a Dana-Farber Combined Adult/PediatricALL Consortium.

In anticipation of a common approach to the over 18-year-oldpatients, we evaluated our oldest pediatric ALL population—thoseaged 15–18 years old.¹⁷ Among 844 patients treated ontwo consecutive protocols (Dana-Farber 91-01 and 95-01) between1991–2000, we found 51 (6%) were in the 15- to 18-year-oldpopulation. Statistically significant biological characteristicsat the time of diagnosis included a higher proportion with T-cellALL and a lower proportion with hyperdiploidy or the TEL/AML1translocation compared to younger patients. Except for a lowerincidence of complete remissions (1–14 year olds, 98%vs. 15–18 year olds, 94%; P = 0.01), there were no otherstatistically significant differences with regard to 5-yearevent-free survival (> 1–10 years old, 85%; > 10–15years old, 77%; and >15–18 years old, 78%; P = 0.10).Patients 10 years old and older had more asparaginase-relatedpancreatitis and thrombosis, but there were no differences betweenthe 10- to 14-year-old and 15- to 18-year-old populations. Anupdated analysis of the efficacy of our pediatric regimen foradult patients, 18–50 years old, appears as a 2006 AmericanSociety of Hematology abstract (DeAngelo et al).

We are now poised to investigate the biology of ALL and itstreatment across a broad age spectrum, and to have common treatmentregimens for common disease among patients ages 1–50 yearsold.

From our DFCI Combined Adult/Pediatric ALL Consortium, manymyths have surfaced, and many lessons have been (and are being)learned.

Myths and Lessons

Myth #1.
It cannot be done!

You cannot have a common approach to therapy for children andadults. The disease biology, medical practices, regulationsand cultures are incompatible with a uniform approach to clinicalresearch.

Lesson #1.
It can be done!

(But it isn’t easy.) Finding common ground requires time,communication and compromise. We are confident that our workwithin the DFCI Combined Adult/Pediatric ALL Consortium, aswell as similar efforts by others who are striving toward thesame goals—improved outcome for all, diminished toxicityand a better understanding of leukemia biology—will berewarding and result in lives saved and quality years of lifeadded.

Myth #2.
Adults do not tolerate asparaginase.

It is generally assumed that adults are less tolerant to theacute and cumulative side effects of antileukemia drugs, andasparaginase, a drug used in all pediatric ALL regimens, isoften cited as a prime example.

Lesson #2.
Our initial adult protocol, a feasibility trial using one armof our pediatric ALL regimen, includes 30 weeks of high-doseasparaginase therapy. Adults ages 18–50 years old andchildren ages 10–18 years old tolerate multiple weeklyasparaginase doses ( $≥$ 12,500 IU/m²) with similar incidences ofallergic reactions, pancreatitis and thrombosis.

Myth #3.
Adults have a high rate of therapy-related deaths. Some wouldargue against initiating combined adult/pediatric clinical trialsbecause the remission mortality in children (now in the 1–2%range) is far less than in adults.

Lesson #3.
In fact, the experience of Dutch⁶ and British⁷ investigatorssuggests that it is the practice of bone marrow transplantationin first remission for non-Philadelphia chromosome–positiveALL that accounts for the increased incidence of therapy-relateddeaths. Given the paucity of data supporting the superiorityof bone marrow transplantation in first remission, many nowagree that use of chemotherapy alone would result in both improvedoutcomes and in a lower incidence of therapy-related deaths.Our DFCI adult pilot protocol and mature pediatric protocolshave ~1% incidence of therapy-related deaths.

Myth #4.
Adults don’t have asymptomatic central nervous system(CNS) leukemia at diagnosis.

And because they don’t, the practice of routine samplingof CSF at the time of diagnosis in asymptomatic patients isvariable among adult treatment regimens.

Lesson #4.
ALL is always a systemic disease. About 2–3% of childrenand adults have symptomatic CNS disease at diagnosis and anadditional 5–10% of asymptomatic children and 5% of adultshave lymphoblasts in their CSF disease at time of diagnosis.Routine lumbar puncture at the time of diagnosis and prior toinitiating systemic chemotherapy, as well as routine CNS treatment,should be part of ALL management for all patients. An argumentagainst this practice, that one might inadvertently introduceblasts into the CSF, can be readily mitigated by the routineuse of intrathecal chemotherapy at the time of the initial diagnosticlumbar puncture.

Myth #5.
Who needs a parent or caregiver?

The patient and his or her physician are sufficient for optimalcare and outcomes.

Lesson #5.
Never underestimate the value of a caregiver! The best motivatedpatient and physician can have their well-intended treatmentsand outcomes enhanced by surrounding themselves with "a motherfigure"; in fact, parental surrogates, committed family membersand loved ones, as well as an extended supportive team of professionals(especially nurses), are likely to assure optimal adherenceto protocol, emotional support, and (hopefully) better outcomes.

Conclusion

Retrospective analyses clearly demonstrate that current pediatrictherapeutic regimens are more effective than adult regimensfor 16- to 21-year-old patients. Current and future clinicaltrials will focus on "the ages of uncertainty": the 21- to 50-year-oldpopulation. Age-unrestricted, biology-based therapy should bethe standard of all patients with ALL. Pediatricians and interniststreating patients with ALL have much to learn from one another.Such efforts are likely to result in more cures and a higherquality of life among the survivors.

Footnotes

Division of Hematology/Oncology, Children’s Hospital andDepartment of Pediatrics, Harvard Medical School, Boston, Massachusetts

Supported in part by grant CA 68484 from the National CancerInstitute, National Institutes of Health, Bethesda, Maryland

References

Irken G, Oren H, Gulen M, et al. Treatment outcome of adolescents with acute lymphoblastic leukemia. Ann Hematol. 2002;81:641–645.[CrossRef][Medline]
Kantarjian H, Thomas D, O’Brien S, et al. Long-term follow-up results of hyperfractionated cyclophosphamide, vincristine, doxorubicin, and dexamethasone (Hyper-CVAD), a dose-intensive regimen, in adult acute lymphocytic leukemia. Cancer. 2004;101:2788–2801.[CrossRef][Medline]
Larson RA, Dodge RK, Burns CP, et al. A five-drug remission induction regimen with intensive consolidation for adults with acute lymphoblastic leukemia: Cancer and Leukemia Group B Study 8811. Blood. 1995;85:2025–2037.[Abstract/Free Full Text]
Stock W, Sather H, Dodge RK, Bloomfield CD, Larson RA, Nachman J. Outcome of adolescents and young adults with ALL: A comparison of Children’s Cancer Group (CCG) and Cancer and Leukemia Group B (CALGB) regimens. Blood. 2000;96:467a.
Boissel N, Auclerc M-F, Lheritier V, et al. Should adolescents with acute lymphoblastic leukemia be treated as old children or young adults? Comparison of the French FRALLE-93 and LALA-94 trials. J Clin Oncol. 2003;21:774–780.[Abstract/Free Full Text]
deBont JM, van der Holt B, Dekker AW, van der Does-van den Berg A, Sonneveld P, Pieters R. Significant difference in outcome for adolescents with acute lymphoblastic leukemia treated on pediatric vs adult protocols in the Netherlands. Leukemia. 2004;18:2032–2035.[CrossRef][Medline]
Ramanujachar R, Richards S, Hann I, Webb D. Adolescents with acute lymphoblastic leukaemia: Emerging from the shadow of paediatric and adult treatment protocols. Pediatr Blood Cancer. 2006; [Epub ahead of print]
Testi AM, Valsecchi MG, Conter V, et al. Difference in outcome of adolescents with acute lymphoblastic leukemia (ALL) enrolled in pediatric (AIEOP) and adult (GIMEMA) protocols. Blood. 2004;104:1954a.
Schiffer CA. Differences in outcome in adolescents with acute lymphoblastic leukemia: a consequence of better regimens? Better doctors? Both? J Clin Oncol. 2003;21:760–7611.[Free Full Text]
Bleyer A. The adolescent and young adult gap in cancer care and outcome. Curr Probl Pediatr Adolesc Health Care. 2005;35:182–217.[CrossRef][Medline]
Bleyer A, O’Leary M, Barr R, Ries LAG (eds). Cancer Epidemiology in Older Adolescents and Young Adults 15 to 29 years of Age, including SEER Incidence and Survival: 1975–2000. National Cancer Institute, NIH Pub. No. 06–5767. Bethesda, MD 2006.
Rowe JM, Buck G, Burnett AK, et al. Induction therapy for adults with acute lymphoblastic leukemia: Results of more than 1500 patients from the international ALL trial: MRC UKALL XII/ECOG E 2993. Blood. 2005;106:3760–3767.[Abstract/Free Full Text]
Thomas X, Boiron J-M, Huguet F, et al. Outcome of treatment in adults with acute lymphoblastic leukemia: analysis of the LALA-94 trial. J Clin Oncol. 2004;22:4075–4086.[Abstract/Free Full Text]
Daniel D’Angelo, M.D. Personal Communication May 2006.
Silverman LB, Gelber RD, Young ML, Dalton VK, Barr RD, Sallan SE. Induction failure in acute lymphoblastic leukemia of childhood. Cancer. 1999;85:1395–1404.[CrossRef][Medline]
Silverman LB, Declerck L, Gelber RD, et al. Results of Dana-Farber Cancer Institute Consortium protocols for children with newly diagnosed acute lymphoblastic leukemia (1981–1995). Leukemia. 2000;14:2247–2256.[CrossRef][Medline]
Barry E, DeAngelo DJ, Neuberg D, et al. Favorable outcome for adolescents with acute lymphoblastic leukemia treated on Dana Farber Cancer Institute ALL Consortium protocols. J Clin Oncol. In press.

CiteULike

Connotea

Del.icio.us Add to Digg

Digg

Technorati What's this?

This Article

	Abstract
	Full Text (PDF)
	Citation Map

Services

	Similar articles in this journal
	Similar articles in PubMed
	Alert me to new issues of the journal
	Download to citation manager


Citing Articles

	Citing Articles via CrossRef
	Citing Articles via Google Scholar

Google Scholar

	Articles by Sallan, S. E.
	Search for Related Content

PubMed

	PubMed Citation
	Articles by Sallan, S. E.

Social Bookmarking

	What's this?