James A. Whitlock

A small-cell-predominant variant of primary Ki-1 (CD30)+ T-cell lymphoma

We describe nine patients with a primary Ki-1 (CD30)+ T-cell lymphoma containing numerous, often CD30-negative, small lymphocytes with irregular nuclei and a minor population of large CD30+ tumor cells. All previously described primary Ki-1+ lymphomas have been large-cell neoplasms. In this small-cell variant, the diagnosis of lymphoma was difficult to make because there was a predominance of small lymphocytes and, in some cases, clinical features suggested an inflammatory process. Patients were young (age range 0.3–40 years, median 14 years), and frequently had B symptoms (56%); sites of involvement were predominantly skin (78%) and lymph node (67%). The actuarial 2-year disease-free survival was 14%, and the overall survival was 51%. Two patients had a rapidly fatal course. In all cases histologic sections showed a predominance of small lymphocytes with marked nuclear irregularity and often a perivascular/intravascular distribution of CD30+ large cells. All cases had a T-cell phenotype. In four cases the large and small cells could be compared and had a similar aberrant T-cell phenotype. Large cells were CD30+, but only rare small cells expressed CD30. Cytogenetic studies revealed a t(2;5)(p23;q35) in four of four cases studied. Four patients had numerous large cells on repeat biopsies; two of these developed sheets of large CD30+ cells typical of anaplastic large-cell lymphoma (ALCL). These cases provide further evidence that primary Ki-1+ lymphoma has a morphologic spectrum that includes a small-cell variant. Although very different morphologically from previously described Ki-1+ ALCL, this small-cell variant is clearly part of the disease spectrum on the basis of clinical features, the presence of the t(2;5)(p23;q35), the aberrant T-cell phenotype in the small and large cells, as well as histologic progression seen in several patients.

Phase II Study of Nelarabine (compound 506U78) in Children and Young Adults With Refractory T-Cell Malignancies: A Report From the Children’s Oncology Group

PURPOSE Nelarabine (compound 506U78), a water soluble prodrug of 9-b-d-arabinofuranosylguanine, is converted to ara-GTP in T lymphoblasts. We sought to define the response rate of nelarabine in children and young adults with refractory or recurrent T-cell disease. PATIENTS AND METHODS We performed a phase II study with patients stratified as follows: stratum 1: > or = 25% bone marrow blasts in first relapse; stratum 2: > or = 25% bone marrow blasts in > or = second relapse; stratum 3: positive CSF; stratum 4: extramedullary (non-CNS) relapse. The initial nelarabine dose was 1.2 g/m2 daily for 5 consecutive days every 3 weeks. There were two dose de-escalations due to neurotoxicity on this or other studies. The final dose was 650 mg/m2/d for strata 1 and two patients and 400 mg/m2/d for strata 3 and four patients. RESULTS We enrolled 121 patients (106 assessable for response) at the final dose levels. Complete plus partial response rates at the final dose levels were: 55% in stratum 1; 27% in stratum 2; 33% in stratum 3; and 14% in stratum 4. There were 31 episodes of > or = grade 3 neurologic adverse events in 27 patients (18% of patients). CONCLUSION Nelarabine is active as a single agent in recurrent T-cell leukemia, with a response rate more than 50% in first bone marrow relapse. The most significant adverse events associated with nelarabine administration are neurologic. Further studies are planned to determine whether the addition of nelarabine to front-line therapy for T-cell leukemia in children will improve survival.

A meta-analysis of the neurocognitive sequelae of treatment for childhood acute lymphocytic leukemia

Impaired neurocognitive functioning is one increasingly recognized long‐term consequence of childhood ALL treatment. However, research findings have been inconsistent regarding the domains affected and the degree to which they are compromised.

Epipodophyllotoxin-related leukemia. Identification of a new subset of secondary leukemia

Thirty‐seven children and adults who developed acute nonlymphocytic leukemia after the administration of chemotherapy that included etoposide or teniposide for a variety of hematologic and solid malignancies were identified. The secondary leukemia that occurred in these patients could be distinguished from the secondary leukemia that occurs after treatment with alkylating agents by the following: a shorter latency period; a predominance of monocytic or myelomonocytic features; and frequent cytogenetic abnormalities involving 11q23. Patients receiving an epipodophyllotoxin are at risk for developing secondary leukemia that has features distinct from the syndrome of secondary leukemia associated with alkylating agents.

The expanding role of primary care in cancer control

The nature of cancer control is changing, with an increasing emphasis, fuelled by public and political demand, on prevention, early diagnosis, and patient experience during and after treatment. At the same time, primary care is increasingly promoted, by governments and health funders worldwide, as the preferred setting for most health care for reasons of increasing need, to stabilise health-care costs, and to accommodate patient preference for care close to home. It is timely, then, to consider how this expanding role for primary care can work for cancer control, which has long been dominated by highly technical interventions centred on treatment, and in which the contribution of primary care has been largely perceived as marginal. In this Commission, expert opinion from primary care and public health professionals with academic and clinical cancer expertise—from epidemiologists, psychologists, policy makers, and cancer specialists—has contributed to a detailed consideration of the evidence for cancer control provided in primary care and community care settings. Ranging from primary prevention to end-of-life care, the scope for new models of care is explored, and the actions needed to effect change are outlined. The strengths of primary care—its continuous, coordinated, and comprehensive care for individuals and families—are particularly evident in prevention and diagnosis, in shared follow-up and survivorship care, and in end-of-life care. A strong theme of integration of care runs throughout, and its elements (clinical, vertical, and functional) and the tools needed for integrated working are described in detail. All of this change, as it evolves, will need to be underpinned by new research and by continuing and shared multiprofessional development.

Familial clustering of Langerhans cell histiocytosis

Langerhans cell histiocytosis (LCH) is considered a non‐hereditary disorder. Evaluation of the few familial cases might provide insight into its aetiology and pathogenesis. We conducted a survey to identify familial LCH cases. Data on family history, zygosity assessment in twins, clinical and laboratory features, treatment outcome, and present status were collected. According to variable confidence for twins monozygosity assessment, we termed these pairs ‘presumed monozygotic’ (pMZ). Nine families had more than one affected relative: five with LCH‐concordant twin pairs, four with LCH in siblings or cousins. Three twin pairs not concordant for LCH were also studied. Overall, four of five pMZ twin pairs and one of three dizygotic (DZ) pairs were concordant for LCH. The pMZ twins had simultaneous and early disease onset (mean age 5.4 months); onset was at 21 months in the DZ pair. Clinical features were similar in the pMZ pairs. One pair of DZ twins had disseminated LCH. The three healthy twins (one pMZ, two DZ) remain asymptomatic 0.3, 5.9 and 4.7 years, respectively, after disease onset in their co‐twins. Of the two families with affected non‐twin siblings, one had known parental consanguinity and the other possible consanguinity. Potential consanguinity was also present in one of the two families with affected first cousins. Our data support high LCH concordance rates in pMZ twins and add the finding of LCH concordance in one of three dizygotic pairs studied. Taken together with our identification of LCH in siblings and first cousins from known or possibly consanguineous families, and with prior reports of three affected parent–child pairs, the data support a role for genetic factor(s) in LCH. The work‐up of newly diagnosed patients should include a careful, extensive family history and chromosome studies. When possible, constitutional and/or lesional DNA should be obtained for future study.

Therapy-Related Acute Nonlymphocytic Leukemia with Monocytic Features and Rearrangement of Chromosome 11q

Excerpt Acute nonlymphocytic leukemia has been increasingly recognized as a complication of cancer treatment. Therapy-related leukemia has commonly been reported (1) after treatment of lymphomas an...

Phase I Pharmacokinetic and Pharmacodynamic Study of 17-N-Allylamino-17-Demethoxygeldanamycin in Pediatric Patients with Recurrent or Refractory Solid Tumors: A Pediatric Oncology Experimental Therapeutics Investigators Consortium Study

Purpose: Heat shock protein 90 (Hsp90) is essential for the posttranslational control of many regulators of cell growth, differentiation, and apoptosis. 17-N-Allylamino-17-demethoxygeldanamycin (17-AAG) binds to Hsp90 and alters levels of proteins regulated by Hsp90. We conducted a phase I trial of 17-AAG in pediatric patients with recurrent or refractory neuroblastoma, Ewings sarcoma, osteosarcoma, and desmoplastic small round cell tumor to determine the maximum tolerated dose, define toxicity and pharmacokinetic profiles, and generate data about molecular target modulation. Experimental Design: Escalating doses of 17-AAG were administered i.v. over 1 to 2 h twice weekly for 2 weeks every 21 days until patients experienced disease progression or toxicity. harmacokinetic and pharmacodynamic studies were done during cycle 1. Results: Fifteen patients were enrolled onto dose levels between 150 and 360 mg/m2; 13 patients were evaluable for toxicity. The maximum tolerated dose was 270 mg/m2. DLTs were grade 3 transaminitis and hypoxia. Two patients with osteosarcoma and bulky pulmonary metastases died during cycle 1 and were not evaluable for toxicity. No objective responses were observed. 17-AAG pharmacokinetics in pediatric patients were linear; clearance and half-life were 21.6 ± 6.21 (mean ± SD) L/h/m2 and 2.6 ± 0.95 h, respectively. Posttherapy increases in levels of the inducible isoform of Hsp70, a marker of target modulation, were detected in peripheral blood mononuclear cells at all dose levels. Conclusion: 17-AAG was well tolerated at a dose of 270 mg/m2 administered twice weekly for 2 of 3 weeks. Caution should be used in treatment of patients with bulky pulmonary disease.

Utility of Fdg-pet/ct in Follow-up of Children Treated for Hodgkin and Non-hodgkin Lymphoma

Positron emission tomography using 18F-flurodeoxyglucose (FDG-PET) is considered an excellent tool for staging and monitoring disease status in adults with lymphoma. We retrospectively reviewed results of PET/CT and diagnostic computed tomography (CT) scans performed during follow-up after completion of therapy in 41 children <18 years of age with Hodgkin lymphoma and non-Hodgkin lymphoma. PET/CT scan with uptake greater than that of the liver was considered positive. Uptake that increased over the background but less than in the liver was equivocal. Clinical outcomes were obtained from medical records. Thirteen (32%) had a positive PET/CT scan and an equal number had equivocal scans in a median follow-up of 2.3 years. Diagnostic CT scans revealed new findings in 13 (32%) and persistent abnormalities in 21 (51%) of the children. Five children developed recurrent disease, and one developed a second cancer. No children with equivocal positivity developed recurrent disease. PET/CT scan was 95% sensitive, with a positive predictive value (PPV) of 53%. Diagnostic CT was 79% sensitive, with a PPV of 52%. We conclude that a negative PET/CT scan during routine follow-up for lymphoma in children strongly suggests absence of recurrence but a positive PET/CT and diagnostic CT scans have low PPV and should be interpreted with caution in this setting.

Children's Oncology Group's 2013 blueprint for research: acute lymphoblastic leukemia.

Approximately 90% of the 2,000 children, adolescents, and young adults enrolled each year in Childrens Oncology Group acute lymphoblastic leukemia (ALL) trials will be cured. However, high‐risk subsets with significantly inferior survival remain, including infants, newly diagnosed patients with age ≥10 years, white blood count ≥50,000/µl, poor early response or T‐cell ALL, and relapsed ALL patients. Effective strategies to improve survival include better risk stratification, optimizing standard chemotherapy and combining targeted therapies with cytotoxic chemotherapy, the latter of which is dependent upon identification of key driver mutations present in ALL. Pediatr Blood Cancer 2013; 60: 957–963.