Diabetes insipidus and anterior pituitary dysfunction, are familiar central nervous system (CNS) complications of Langerhans cell histiocytosis (LCH) but the pathophysiology and biological behaviour of other forms of CNS involvement in LCH are poorly understood. In an attempt to improve our understanding of these rare complications, we studied 23 patients with LCH in whom neuroradiological abnormalities, with or without neurological dysfunction other than diabetes insipidus, developed during the course of disease. Neuroradiological abnormalities were of three basic types (a) poorly-defined changes in white matter, (b) well-defined changes in white and grey matter and (c) extra-parenchymal "tumoural" masses. There was a profusion of associated neurological signs and symptoms in most cases but some patients were asymptomatic. The neuropathological features were complex but infiltration of the CNS by histiocytes with xanthomatous change, particularly prominent in mass lesions, was common in the 13 cases in which biopsies were done. Patients with lytic lesions of the skull and diabetes insipidus are evidently most at risk of developing these rare manifestations of LCH. Therapeutic questions could not be answered from this study because no standard treatment had been given and outcome varied widely.
The JLSG-96 study reported very low mortality rates for children newly diagnosed with multifocal Langerhans cell histiocytosis (LCH). The JLSG-02 study was performed to further improve the prognosis from 2002 to 2009. The present study compared the therapeutic results of these two studies in terms of multisystem disease. All patients were treated with 6 weeks of the Induction A regimen, comprising cytarabine, vincristine and prednisolone, followed by maintenance therapy. Poor responders to Induction A were switched to Induction B. JLSG-02 has been revised from JLSG-96 in the following respects: prednisolone dosage during Induction A increased; duration of maintenance therapy extended from 24 to 48 weeks; cyclosporine introduced to Induction B for progressive disease. One hundred forty-seven children with multisystem LCH were evaluated. Of these, 84 were positive for risk of organ involvement (RO) and 63 were RO-negative. At the 6-week point, 76.2 % of RO+ and 93.7 % of RO- patients responded to Induction A. Five-year event-free survival (EFS) was 46.2 % [95 % confidence (CI), 35.5-56.9] for RO+ and 69.7 % (58.4-81.1) for RO-, which was significantly superior to that in JLSG-96 [26.8 % (13.3-40.4) and 38.9 % (16.4-61.4), respectively]. The intensified induction and prolonged maintenance regimens in JLSG-02 improved EFS in patients with multisystem LCH.
Early treatment intensification did not compensate for a truncated phase of maintenance chemotherapy in children with standard- or high-risk ALL. However, 6 months of antimetabolite treatment seemed adequate for extremely high-risk patients who were good responders to prednisolone and received intensified chemotherapy that included high-dose cytarabine early in the clinical course.
Transient myeloproliferative disorder (TMD), an acute leukemia-like disorder in neonates with Down's syndrome, is characterized by spontaneous regression of abnormal blast growth. Because proliferating blasts frequently express phenotypes of megakaryocytic lineage and, as a result, this disorder resembles acute megakaryoblastic leukemia (AMKL), it would be of interest to determine whether myelofibrosis, a common complication of AMKL, is also present in TMD. Pathologic observations of four autopsy cases of TMD showed that myelofibrosis was not present in any of them, whereas intralobular diffuse liver fibrosis was present in all of them. Laboratory data of four additional cases showed hepatic dysfunction in all of them, suggesting a close association between hepatic lesions and TMD. From these results, we propose a hypothesis that the abnormal blasts with megakaryocytic properties in TMD originate from the fetal liver and cause liver fibrosis, as AMKL cells are thought to cause myelofibrosis by producing collagen-stimulating cytokines in the bone marrow. This hypothesis also seems to explain some other unique aspects of TMD.
Langerhans cell histiocytosis (LCH) with single-system (SS) multifocal bone (MFB) lesions is rarely fatal, but patients may experience relapses and develop LCH-associated sequelae. To evaluate effect on outcomes of pediatric multifocal LCH, we tested a treatment protocol modified from the Japan Langerhans Cell Histiocytosis Study Group (JLSG)-96 study. We assessed the outcomes of all consecutive newly diagnosed pediatric patients with LCH with SS-MFB lesions who were treated with JLSG-02 protocol in 2002-2009. JLSG-02 was modified from JLSG-96 as follows: increased prednisolone dosage at the induction phase and extension of maintenance therapy duration from 24 to 48 weeks. In total, 82 patients with a median follow-up duration of 8.0 years were eligible for analysis. At 6 weeks, 92.7% responded to induction; however, 27.6% of responders experienced relapses. In total, 4.8% developed central nervous system-related sequelae, including central diabetes insipidus and neurodegeneration, which were associated with relapse. None of the patients died. The 5-year event-free survival rates were not different between JLSG-02 and -96 cohort (66.7 vs. 65.1%; p = 0.697). Modification of previous treatment protocol did not contribute to improvement of outcomes in LCH with SS-MFB lesions.
Juvenile chronic myelomonocytic leukaemia (JMML) is a rare myeloproliferative disorder of childhood. Fewer than 30% of cases of JMML terminate in a blast crisis; however, its molecular mechanism is unknown. Since mutation and/or deletion of the p53 gene has been reported to be associated with disease progression in a wide variety of human cancers, including adult‐type chronic myelogenous leukaemia, we studied the p53 gene in 20 patients with JMML (16 samples in chronic phase and seven at blast crisis). Exons 4–8 of the p53 gene, which cover all the hot spots of point mutations, were amplified by the polymerase chain reaction (PCR) method and subjected to mutation screening by single‐strand conformation polymorphism analysis. No mobility shift of single‐strand DNA of PCR products in polyacrylamide gel electrophoresis, indicating point mutations, was found in 19/20 patients. DNA of the remaining patient in the chronic phase failed to be amplified by PCR and Southern blot analysis with XbaI‐digested genomic DNA revealed a gross rearrangement (presumed deletion) of the p53 gene. These data indicate that abnormalities of the p53 gene are rare in JMML and not responsible for acute transformation, but could be involved in the pathogenesis of some cases of JMML.
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