[Case report: molecular analysis of congenital glioblastoma in a newborn]. / Esettanulmány: molekuláris vizsgálatok újszülöttkori glioblasztómában.

BACKGROUND: Congenital glioblastoma (cGBM) is a brain tumor very rarely observed in newborns and young infants, and differs in several respects from glioblastoma (GBM) of childhood and adulthood. Our aim was the presentation of a cGBM case with 14 days of postnatal survival at the Pediatric Oncology Center of the Markusovszky University Teaching Hospital in 2004. We investigated formalin-fixed, paraffin-embedded autoptic tumor samples of the newborn by immunohistochemical and molecular genetic (FISH and pyrosequencing) methods. We found polysomy of chromosome 2 and 5' deletion of the ALK gene in the glioma cells by ALK FISH. This result indicates the importance of molecular analyses in the diagnostic evaluation of cGBM, and raises the possibility of a personalized, targeted therapy (crizotinib, alectinib).

Diagnostic challenges of an incidental finding: case report of definitely-congenital glioblastoma multiforme in a very preterm infant.

BACKGROUND: Congenital brain tumors are extremely rare in the neonatal population, and often associated with a poor prognosis. The diagnostic suspicion is often aroused at antenatal scans or postnatally, if clinical signs and symptoms of increased intracranial pressure become evident. We present a case of definitely congenital glioblastoma multiforme incidentally diagnosed in a preterm infant, aiming to raise clinical awareness on this condition and to highlight the challenges of the related diagnostic work-up. CASE PRESENTATION: This female infant was born at 31 weeks' gestation after an uneventful pregnancy. No abnormalities were detected at antenatal ultrasound scans and genetic tests. Head circumference at birth was on the 25th centile. A routine brain ultrasound scan performed on day 1 revealed a large, inhomogeneous lesion in the right cerebral hemisphere, with contralateral midline shift, which was confirmed by brain magnetic resonance imaging (MRI). Eye fundus and routine blood exams, including platelets count, coagulation screening and C-reactive protein, were normal. Given the high risk of complications, surgical biopsy of the lesion was temporarily hold and a daily sonographic follow-up was undertaken. Although head circumference growth was steady on the 25th centile, progressive changes of the lesion were detected by cranial ultrasound. The repeat MRI scans showed a significant enlargement of the mass, with contralateral midline shift and signs of intralesional and intraventricular bleeding. In view of this worsening, surgical resection was performed. The histological examination of the lesion biopsy documented a GFAP+ highly cellular neoplasm, with no mutation on SMARCB1 gene. At the molecular analysis, mutations on IDH and H3F3A genes were absent, whereas MGMT promoter was unmethylated. The diagnosis was grade IV glioblastoma IDH wild-type. CONCLUSIONS: Congenital glioblastoma multiforme is an extremely rare but highly aggressive neoplasm. Since intralesional biopsy is not often feasible in affected neonates, knowledge of the associated clinical and neuroradiological features is particularly important, as they can also add useful information on the neoplasm behavior. Specimens from open surgical resection allow to perform a definite histological analysis and an extended molecular characterization, with relevant prognostic implications.

Genomic characterization of a PPP1CB-ALK fusion with fusion gene amplification in a congenital glioblastoma.

ALK (Anaplastic lymphoma kinase) fusion proteins are oncogenic and have been seen in various tumors. PPP1CB-ALK fusions are rare but have been reported in a few patients with low- or high-grade gliomas. However, little is known regarding the mechanism of fusion formation and genomic break points of this fusion. We performed genomic characterization of a PPP1CB-ALK fusion with fusion gene amplification in a congenital glioblastoma. The PPP1CB-ALK consists of exons 1-5 of PPP1CB and exons 20-29 of ALK. The genomic translocation breakpoints were determined by real-time quantitative PCR (RT-qPCR) and Sanger sequencing of genomic DNA. Next generation sequencing, RT-qPCR and fluorescence in situ hybridization analyses demonstrated PPP1CB-ALK amplification. Copy number analyses of genes between PPP1CB and ALK using RT-qPCR suggest that the PPP1CB-ALK is likely the result of local chromothripsis followed by episomal amplification. Transcriptome sequencing demonstrated high-level SOX2 expression and predicted WNT/ß-catenin pathway activation, suggesting possible therapeutic approaches.

Congenital Glioblastoma Multiforme with Long-Term Childhood Survival: A Case Report and Systematic Review.

BACKGROUND: Congenital glioblastoma multiforme (cGBM) is an infrequent primary central nervous system tumor occurring within the first few months of life with a reported poor overall prognosis. Our objective was to describe our own clinical case of cGBM and review the literature of cGBM cases with prolonged survival. CASE DESCRIPTION: We report a case of cGBM with prolonged survival at 4 years. A systematic review was conducted on cases of cGBM with long-term childhood survival. We searched online databases until August 2019 for relevant articles. The patient underwent an emergency right hemicraniectomy with excision and biopsy of the right cerebral hemisphere mass and insertion of a ventriculoperitoneal shunt. At present, she is a 52-month-old child with good speech and minimal left hemiparesis and able to ambulate, with a Functional Independence Measure for Children score of 109. Out of 160 articles screened, there were 10 articles included. A total of 15 patients, including the present case, were analyzed qualitatively. The age at presentation ranged from 30 weeks' gestation to 35 days. Most patients underwent surgical excision (n = 13, 86.7%) and adjuvant chemotherapy (n = 10, 66.7%). The reported range of survival of these patients was from 27 to 110 months. CONCLUSIONS: Limited evidence from 15 cases of cGBM suggests that surgical excision and/or chemotherapy may prolong the survival of patients. Therefore, these interventions may be offered and performed to patients with cGBM on a case-by-case basis. Larger clinical studies or registry-based information are necessary to substantiate the implications of our review.

Oncogenic GOPC-ROS1 Fusion Identified in a Congenital Glioblastoma Case.

Congenital glioblastoma (GBM) is a rare brain tumor of infancy. While histologically they resemble pediatric and adult GBM, growing evidence suggests a distinct molecular profile. We report the case of a 7-day-old infant female with congenital GBM found to harbor a GOPC-ROS1 fusion. She underwent surgical resection, moderate-intensity chemotherapy without radiation, and remains disease-free 4 years from completion of therapy. While the frequency of this mutation is not known, the identification of this oncogenic driver may provide insight into the pathogenesis of GBM in this age group and may serve as a molecular target for select patients.

Ganglioglioma in a Survivor of Infantile Glioblastoma.

Congenital tumors account for 2% to 4% of all pediatric central nervous system tumors. Glioblastoma multiforme (GBM) represents a small subset of these tumors. Despite harboring histologic features similar to older patients, infants with GBM exhibit improved survival and respond more favorably to surgery and chemotherapy. To highlight this tumor's unique behavior, we report the case of a survivor of infantile GBM who developed a recurrent tumor in the surgical bed 6 months after diagnosis. The tumor was ultimately resected and was a ganglioglioma. This case shows both a favorable clinical outcome to an infantile GBM and this tumor's natural history.

Targetable molecular alterations in congenital glioblastoma.

INTRODUCTION: Congenital glioblastomas (cGBMs) are uncommon tumors presenting in early infancy, variably defined as diagnosed at birth or at age less than 3 months by strict criteria, or more loosely, as occurring in very young children less than 12 months of age. Previous studies have shown that cGBMs are histologically indistinguishable from GBMs in older children or adults, but may have a more favorable clinical outcome, suggesting biological differences between congenital versus other GBMs. Due to the infrequency of cGBMs, especially when employing strict inclusion criteria, molecular features have not been sufficiently explored. METHODS: Archer FusionPlex Solid Tumor Kit, Archer VariantPlex Solid Tumor Kit, Illumina RNAseq were utilized to study cGBMs seen at our institution since 2002. A strict definition for cGBM was utilized, with only infants less than age 3 months at clinical presentation sought for this study. RESULTS: Of the 8 cGBM cases identified in our files, 7 had sufficient materials for molecular analyses, and 3 of 7 cases analyzed showed fusions of the ALK gene (involving MAP4, MZT2Bex2 and EML4 genes as fusion partners). One case showed ROS1 fusion. Somatic mutations in TSC22D1, BMG1 and DGCR6 were identified in 1 case. None of the cases showed alterations in IDH1/2, histone genes, or the TERT gene, alterations which can be associated with GBMs in older children or adults. CONCLUSIONS: Our results show that cGBMs are genetically heterogeneous and biologically different from pediatric and adult GBMs. Identification of ALK and ROS1 raise the possibility of targeted therapy with FDA-approved targeted inhibitors.

Congenital Glioblastoma Multiforme: An Unusual and Challenging Tumor.

Congenital glioblastoma multiforme is a rare tumor of the central nervous system with unique features. The existing evidence on its pathogenesis, genetic and molecular profile, special characteristics, treatment, and prognosis is reviewed. An increased number of antenatal diagnoses and prolonged survival for those individuals who can tolerate combined surgical resection and chemotherapy has been noted. The overall prognosis, however, remains poor. A better understanding of this unusual entity is important. Further research is needed to discern tumor's pathogenesis and natural history. This will likely lead to the development and implementation of treatment strategies that may decrease mortality and morbidity in these patients.

Glioblastoma multiforme congénito infratentorial. Un tumor excepcional con una biología aún desconocid / Infratentorial congenital glioblastoma multiforme. A rare tumour with a still unknown biology

Introducción. El glioblastoma multiforme congénito representa sólo el 3% de los tumores congénitos del sistema nervioso central, y su ubicación infrantentorial es excepcional. Caso clínico. Recién nacido con un glioblastoma multiforme congénito sin mutación en el gen TP53 ni inmunorreactividad nuclear p53, que infiltraba prácticamente todo el tronco cerebral e invadía también estructuras supratentoriales. Conclusiones. Hasta donde sabemos, sólo se han referido previamente cuatro casos de localización infratentorial, tres en el cerebelo y uno en el tronco del encéfalo. La biología del glioblastoma multiforme congénito no se conoce bien y, a diferencia del glioblastoma multiforme en la edad adulta, las mutaciones en el gen TP53 son poco frecuentes, sin que eso parezca implicar un mejor pronóstico. Estas observaciones sugieren que el glioblastoma multiforme con origen en la vida fetal tiene una biología diferente del que se presenta en otras etapas de la vida (AU)

Introduction. Congenital glioblastoma multiforme represents only 3% of congenital central nervous system tumours and an infratentorial location is unusual. Case report. A newborn with congenital glioblastoma multiforme with no mutation in the TP53 gene or p53 nuclear immunoreactivity that infiltrated practically the whole brainstem and also invaded supratentorial structures. Conclusions. As far as we know, only four cases with an infratentorial location have been reported previously, three in the cerebellum and one in the brainstem. The biology of congenital glioblastoma multiforme is not well known and, unlike glioblastoma multiforme in adults and children, mutations in the TP53 gene are uncommon. However, this is not associated with a more favourable prognosis. These observations suggest that specific biological processes underlie fetal glioblastoma multiforme development (AU)

Infratentorial congenital glioblastoma multiforme. A rare tumour with a still unknown biology. / Glioblastoma multiforme congenito infratentorial. Un tumor excepcional con una biologia aun desconocida.

INTRODUCTION: Congenital glioblastoma multiforme represents only 3% of congenital central nervous system tumours and an infratentorial location is unusual. CASE REPORT: A newborn with congenital glioblastoma multiforme with no mutation in the TP53 gene or p53 nuclear immunoreactivity that infiltrated practically the whole brainstem and also invaded supratentorial structures. CONCLUSIONS: As far as we know, only four cases with an infratentorial location have been reported previously, three in the cerebellum and one in the brainstem. The biology of congenital glioblastoma multiforme is not well known and, unlike glioblastoma multiforme in adults and children, mutations in the TP53 gene are uncommon. However, this is not associated with a more favourable prognosis. These observations suggest that specific biological processes underlie fetal glioblastoma multiforme development.

TITLE: Glioblastoma multiforme congenito infratentorial. Un tumor excepcional con una biologia aun desconocida.Introduccion. El glioblastoma multiforme congenito representa solo el 3% de los tumores congenitos del sistema nervioso central, y su ubicacion infrantentorial es excepcional. Caso clinico. Recien nacido con un glioblastoma multiforme congenito sin mutacion en el gen TP53 ni inmunorreactividad nuclear p53, que infiltraba practicamente todo el tronco cerebral e invadia tambien estructuras supratentoriales. Conclusiones. Hasta donde sabemos, solo se han referido previamente cuatro casos de localizacion infratentorial, tres en el cerebelo y uno en el tronco del encefalo. La biologia del glioblastoma multiforme congenito no se conoce bien y, a diferencia del glioblastoma multiforme en la edad adulta, las mutaciones en el gen TP53 son poco frecuentes, sin que eso parezca implicar un mejor pronostico. Estas observaciones sugieren que el glioblastoma multiforme con origen en la vida fetal tiene una biologia diferente del que se presenta en otras etapas de la vida.

Congenital Glioblastoma multiforme and eruptive disseminated Spitz nevi.

BACKGROUND: Glioblastoma multiforme (GBM) is the deadliest malignant primary brain tumor in adults. GBM develops primarily in the cerebral hemispheres but can develop in other parts of the central nervous system. Its congenital variant is a very rare disease with few cases described in literature. CASE PRESENTATION: We describe the case of a patient with congenital GBM who developed eruptive disseminated Spitz nevi (EDSN) after chemotherapy. Few cases of EDSN have been described in literature and this rare clinical variant, which occurs predominantly in adults, is characterized by multiple Spitz nevi in the trunk, buttocks, elbows and knees. There is no satisfactory treatment for EDSN and the best therapeutic choice is considered the clinical observation of melanocytic lesions. CONCLUSION: We recommend a close follow-up of these patients with clinical observation, dermoscopy and reflectance confocal microscopy (RCM). However, we suggest a surgical excision of the lesions suspected of being malignant.

Identification of ZCCHC8 as fusion partner of ROS1 in a case of congenital glioblastoma multiforme with a t(6;12)(q21;q24.3).

Congenital gliobastoma multiforme (GBM) is rare and little is known about the molecular defects underlying the initiation and progression of this tumor type. We present a case of congenital GBM analyzed by conventional cytogenetics, fluorescence in situ hybridization, array comparative genomic hybridization and next generation sequencing. On cytogenetic analysis we detected a reciprocal translocation t(6;12)(q21;q24.3). By sequencing, the translocation was shown to form a fusion between the 5' region of ZCCHC8 and the 3' region of ROS1. RT-PCR analyses confirmed the existence of an in-frame fusion transcript with ZCCHC8 exons 1-3 joined to ROS1 exons 36-43. In addition to the ZCCHC8-ROS1 fusion, we detected a deletion in the short arm of chromosome 9, including homozygous loss of the CDKN2A/2B locus in 9p21.3 and heterozygous deletion of the HAUS6 gene in 9p22.1. The latter encodes a protein involved in faithful chromosome segregation by regulating microtubule nucleation and its deletion might be associated with the marked subclonal changes of ploidy observed in the tumor. This report adds the ZCCHC8-ROS1 fusion as oncogenic driver in GBM and supports the role of ROS1 activation in the pathogenesis of a subset of GBM. © 2016 Wiley Periodicals, Inc.

Chemotherapy increases amenability of surgical resection in congenital glioblastoma.

Brain tumors presenting in infancy, especially during the first 6 months of life, are often very large and highly vascular. It is generally accepted that gross total resection of the tumor affords the best outcome to the patient. However, tumor resection is frequently very challenging due to the risk of significant bleeding. We report two cases of congenital glioblastoma whose initial surgery was hampered by tumor hypervascularity and excessive blood loss, resulting in subtotal resection. Subsequent carboplatin-based chemotherapy led to a significant reduction in tumor size and vascularity, enabling safe gross total resection at second-look surgery. Based on these findings and a review of the literature, we recommend cytoreductive chemotherapy following diagnostic biopsy for infants presenting with large, highly vascular tumors, such as congenital glioblastoma, in lieu of aggressive upfront surgery, to increase the feasibility and facilitate safe gross total excision at second-look surgery.

Clinical and molecular characteristics of congenital glioblastoma.

Congenital glioblastoma (cGBM) is an uncommon tumor of infancy with a reported variable but often poor cure rate, even with intensive therapy. Five patients with cGBMs, arising de novo and not in familial tumor predisposition kindreds, were studied for histological and biological features, using Affymetrix microarray. Tumors were large, often associated with hemorrhage, extended into the thalamus, and often bulged into the ventricles. One patient died acutely from bleeding at the time of operation. The 4 surviving patients underwent surgery (1 gross total resection, 3 subtotal resections or biopsies) and moderate intensity chemotherapy without radiation, and remain progression-free at a median time of 36 months (range, 30-110 months). Affymetrix microarrays measured gene expression on the 3 cGBMs from which frozen tissue was available. Unsupervised hierarchical clustering of cGBMs versus 168 other central nervous system tumors demonstrated that cGBMs clustered most closely with other high-grade gliomas. Gene expression profiles of cGBMs were compared with non-congenital pediatric and adult GBMs. cGBMs demonstrated marked similarity to both pediatric and adult GBMs, with only 31 differentially expressed genes identified (false discovery rate, <0.05). Unique molecular features of cGBMs included over-expression of multiple genes involved in glucose metabolism and tissue hypoxia. cGBMs show histological and biological overlap with pediatric and adult GBMs but appear to have a more favorable outcome, with good response to moderate intensity chemotherapy with only subtotal resection or biopsy. Further study may determine whether identified gene expression differences contribute to the improved survival seen in these tumors.

Congenital brain tumors: diagnostic pitfalls and therapeutic interventions.

Congenital brain tumors are rare, accounting for 0.5% to 4% of all pediatric brain tumors. A 10-year retrospective study based on autopsy and neurosurgical clinical reports with a diagnosis of congenital/fetal/neonatal brain tumor identified 6 cases. Four cases were diagnosed antenatally by neuroradiology. Clinical outcomes in 5 cases resulted in death; 1 patient with choroid plexus papilloma underwent successful resection of the tumor and is still alive. Tumor pathologies consisted of 2 teratomas, 2 choroid plexus papillomas, 1 gemistocytic astrocytoma, and 1 glioblastoma multiforme. A literature review of all fetal cases specific to the pathologies presented in this series was also performed. Relative to the literature, this series contains a rare case of congenital gemistocytic astrocytoma. This series further sheds light on the diagnostic, histological, prognostic, and therapeutic differences between congenital brain tumors and tumors of the same pathology in older pediatric and adult populations.

Congenital glioblastoma.

We describe the case a 2-day-old female with congenital glioblastoma. Total resection was followed by adjuvant and high dose chemotherapy, as indicated by the current Italian infant protocol. The child is alive and well 18 months after diagnosis. A review of 67 selected congenital brain tumors showed the mortality rate was 82%. Even though the majority of patients had glioblastoma, only 5/67 had received adjuvant therapy. To ensure optimal outcomes, we recommend total or subtotal surgical resection, followed by adjuvant and high dose chemotherapy. Given the lack specific protocols for congenital brain tumors an international consensus seems to be needed, starting with congenital glioblastoma.