The aim of this study was to test the hypothesis that our 60-gene DNA/RNA ThyroSeq v2 next-generation sequence (NGS) assay would identify additional genetic markers, including gene fusions in sporadic pediatric differentiated thyroid carcinomas (DTC) that had no known molecular alterations. Sporadic pediatric DTCs with informative molecular testing (n = 18) were studied. We previously tested 15 cases by our standard 7-gene (BRAF, NRAS, HRAS, KRAS, RET/PTC1, RET/PTC3, PAX8/PPARg) mutation panel. Three cases were not tested previously. The standard 7-gene panel identified molecular alterations in 9 of 15 tumors (60%). Cases analyzed by ThyroSeq v2 NGS included the six previously negative cases by the standard 7-gene panel and three cases not previously tested. The NGS assay revealed new gene fusions in four of six previously negative cases (67%). These gene fusions included ETV6/NTRK3 (n = 3) and TPR/NTRK1 (n = 1). A point mutation (BRAF-V600E) was detected in one of three untested cases. While standard testing could identify only molecular alterations in 60% of cases, with the addition of the ThyroSeq v2 NGS, this increased to 87% (n = 13/15). Some cases with chromosomal rearrangements, including ETV6/NTRK3, appear to be associated with an aggressive histopathologic phenotype, but had no documented history of radiation exposure. Additional work is needed to investigate if pediatric DTCs could benefit from a reclassification based on molecular subtypes, which may better reflect their underlying biologic potential. Our data support the use of broad gene panels for the molecular diagnostics of pediatric thyroid nodules to aid future classification, treatment, and clinical management recommendations.
Clinical features, FNA cytology, and molecular genetics are valuable tools to discriminate benign from malignant nodules in pediatric patients. This information is important to direct subsequent clinical management.
Background
Hyperglycemia is a complication of induction chemotherapy in 10%‐50% of pediatric patients with acute lymphoblastic leukemia (ALL). Though hyperglycemia in ALL patients is usually transient, it may be associated with adverse health outcomes. However, the risk factors for and consequences of hyperglycemia are poorly understood. We hypothesized that hyperglycemia significant enough to require insulin therapy during induction chemotherapy would be associated with increased morbidity and mortality in pediatric ALL patients during induction chemotherapy and in subsequent care.
Methods
We abstracted clinical and resource utilization data from the Pediatric Health Information System (PHIS) database utilizing ICD‐9 codes and medication charges. We used logistic regression analysis to predict the development of hyperglycemia. The effects of hyperglycemia on binary and count adverse outcomes following induction chemotherapy were modeled using mixed‐effect regression models.
Results
An increased risk of hyperglycemia requiring insulin was associated with older age, female sex, higher risk group and trisomy 21. Patients on insulin for hyperglycemia had increased mortality following induction chemotherapy. These patients were more likely to have subsequent infectious complications, need for bone marrow transplant, and risk of disease relapse. They also had greater length of inpatient stay, higher cost of care, and were more likely to require intensive care unit admission during induction chemotherapy.
Conclusions
Hyperglycemia requiring insulin during induction chemotherapy in pediatric ALL is associated with an increased risk of short‐term and long‐term complications. Prospective studies are needed to analyze formal screening, preventive measures, and optimal management practices for hyperglycemia during ALL induction chemotherapy.
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