A B S T R A C T PurposeTo improve survival rates in children with acute myeloid leukemia (AML), we evaluated gemtuzumab-ozogamicin (GO), a humanized immunoconjugate targeted against CD33, as an alternative to further chemotherapy dose escalation. Our primary objective was to determine whether adding GO to standard chemotherapy improved event-free survival (EFS) and overall survival (OS) in children with newly diagnosed AML. Our secondary objectives examined outcomes by risk group and method of intensification. Patients and MethodsChildren, adolescents, and young adults ages 0 to 29 years with newly diagnosed AML were enrolled onto Children's Oncology Group trial AAML0531 and then were randomly assigned to either standard five-course chemotherapy alone or to the same chemotherapy with two doses of GO (3 mg/m 2 /dose) administered once in induction course 1 and once in intensification course 2 (two of three). ResultsThere were 1,022 evaluable patients enrolled. GO significantly improved EFS (3 years: 53.1% v 46.9%; hazard ratio [HzR], 0.83; 95% CI, 0.70 to 0.99; P ϭ .04) but not OS (3 years: 69.4% v 65.4%; HzR, 0.91; 95% CI, 0.74 to 1.13; P ϭ .39). Although remission was not improved (88% v 85%; P ϭ .15), posthoc analyses found relapse risk (RR) was significantly reduced among GO recipients overall (3 years: 32.8% v 41.3%; HzR, 0.73; 95% CI, 0.58 to 0.91; P ϭ .006). Despite an increased postremission toxic mortality (3 years: 6.6% v 4.1%; HzR, 1.69; 95% CI, 0.93 to 3.08; P ϭ .09), disease-free survival was better among GO recipients (3 years: 60.6% v 54.7%; HzR, 0.82; 95% CI, 0.67 to 1.02; P ϭ .07). ConclusionGO added to chemotherapy improved EFS through a reduction in RR for children and adolescents with AML. J Clin Oncol 32:3021-3032. © 2014 by American Society of Clinical Oncology INTRODUCTIONAcute myeloid leukemia (AML) is among the most difficult to treat of the childhood cancers because of its disease heterogeneity, high relapse, and toxic mortality.1,2 Therapeutic advances have included chemotherapy intensification and adding allogeneic stem-cell transplantation (SCT). Children's Oncology Group (COG) legacy AML trials evaluated time-intensive induction and observed improvement in event-free survival rates (EFS) from 27% to 42%. 3,4 Matched family-donor (MFD) transplantation improved disease-free survival rates (DFS) by between 8% and 10% and postremission overall survival (OS) by between 5% and 13% in two previous phase III trials. 4,5 However, treatmentrelated mortality (TRM) increased substantially with therapy intensification. Supportive care improvements reduced TRM (from 19% to 12%). 4 However, it is increasingly evident that the limits of treatment intensification have been reached, 4,6,7 necessitating alternative approaches. JOURNAL OF CLINICAL ONCOLOGY O R I G I N A L R E P O R TVOLUME 3021The cell-surface antigen, CD33, is present in more than 80% of patients with AML but is absent from pluripotent hematopoietic stem cells and is a well established immunoconjugate target. 8,9 Early studies ...
Extragonadal germ cell tumors (GCTs) are relatively uncommon, but represent 1% to 5% of all GCTs. Their morphology varies widely and includes mature teratoma, immature teratoma, seminoma, yolk sac tumor, embryonal carcinoma, choriocarcinoma, and mixed GCTs. Noncentral nervous system extragonadal GCTs are found in a variety of anatomic locations, but most commonly affect the mediastinum and sacrococcygeal region. Predicting behavior in these tumors can be confusing because it is based on a combination of varying factors including patient age, histologic subtype, anatomic site, and clinical stage. This review attempts to dissect these issues by separating the discussion into 3 age groups: neonatal (congenital), children (prepubertal), and adult (postpubertal). Within each individual age group, we cover the significance of anatomic site, morphology, and staging parameters. In addition, we discuss the spectrum of associated secondary malignancies and their impact on patient outcome. Finally, we provide a detailed survey of differential diagnostic considerations grouped by anatomic site.
The placenta functions as a shield against infection of the fetus. The innate and adaptive immune defenses of the developing fetus are poorly equipped to fight infections. Infection by bacteria, viruses, and protozoa may cause infertility, spontaneous abortion, stillbirth, growth retardation, anomalies of development, premature delivery, neonatal morbidity, and mortality. However, appreciation of the human microbiome and host cell-microbe interactions must be taken into consideration as we try to determine what interactions are pathologic. Infection is typically recognized histologically by the presence of inflammation. Yet, several factors make comparison of the placenta to other human organs difficult. The placenta comprises tissues from two persons, complicating the role of the immune system. The placenta is a temporary organ. It must be eventually expelled; the processes leading to partuition involve maternal inflammation. What is normal or pathologic may be a function of timing or extent of the process. We now must consider whether bacteria, and even some viruses, are useful commensals or pathogens. Still, recognizing infection of the placenta is one of the most important contributions placental pathologic examination can give to care of the mother and neonate. This review provides a brief overview of placental defense against infection, consideration of the placental microbiome, routes of infection, and the histopathology of amniotic fluid infection and TORCH infections.
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