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2. Genetic alterations that deregulate RB and PDGFRA signaling pathways drive tumor progression in IDH2-mutant astrocytoma.

Author

Tateishi K, Miyake Y, Nakamura T, Iwashita H, Hayashi T, Oshima A, Honma H, Hayashi H, Sugino K, Kato M, Satomi K, Fujii S, Komori T, Yamamoto T, Cahill DP, and Wakimoto H

Subjects
Animals, Humans, Mice, Homozygote, Isocitrate Dehydrogenase genetics, Mutation, Sequence Deletion, Signal Transduction, Astrocytoma genetics, Astrocytoma pathology, Brain Neoplasms genetics, Brain Neoplasms pathology, Receptor, Platelet-Derived Growth Factor alpha genetics, Retinoblastoma Protein genetics
Abstract

In IDH-mutant astrocytoma, IDH2 mutation is quite rare and biological mechanisms underlying tumor progression in IDH2-mutant astrocytoma remain elusive. Here, we report a unique case of IDH2 mutant astrocytoma, CNS WHO grade 3 that developed tumor progression. We performed a comprehensive genomic and epigenomic analysis for primary and recurrent tumors and found that both tumors harbored recurrent IDH2 R172K and TP53 R248W mutation with CDKN2A/B hemizygous deletion. We also found amplifications of CDK4 and MDM2 with PDGFRA gain in the recurrent tumor and upregulated protein expressions of these genes. We further developed, for the first time, a xenograft mouse model of IDH2 R172K and TP53 R248W mutant astrocytoma from the recurrent tumor, but not from the primary tumor. Consistent with parent recurrent tumor cells, amplifications of CDK4 and MDM2 and PDGFRA gain were found, while CDKN2A/B was identified as homozygous deletion in the xenografts, qualifying for integrated diagnosis of astrocytoma, IDH2-mutant, CNS WHO grade 4. Cell viability assay found that CDK4/6 inhibitor and PDGFR inhibitor potently decreased cell viability in recurrent tumor cells, as compared to primary tumor cells. These findings suggest that gene alterations that activate retinoblastoma (RB) signaling pathways and PDGFR may drive tumor progression and xenograft formation in IDH2-mutant astrocytoma, which is equivalent to progressive IDH1-mutant astrocytoma. Also, our findings suggest that these genomic alterations may represent therapeutic targets in IDH2-mutant astrocytoma., (© 2023. The Author(s).)

Published
2023
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5. cIMPACT-NOW update 5: recommended grading criteria and terminologies for IDH-mutant astrocytomas.

Author

Brat DJ, Aldape K, Colman H, Figrarella-Branger D, Fuller GN, Giannini C, Holland EC, Jenkins RB, Kleinschmidt-DeMasters B, Komori T, Kros JM, Louis DN, McLean C, Perry A, Reifenberger G, Sarkar C, Stupp R, van den Bent MJ, von Deimling A, and Weller M

Subjects
Astrocytoma genetics, Brain Neoplasms genetics, Humans, Isocitrate Dehydrogenase genetics, Mutation, Terminology as Topic, World Health Organization, Astrocytoma classification, Astrocytoma pathology, Brain Neoplasms classification, Brain Neoplasms pathology, Neoplasm Grading standards
Published
2020
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6. Role of a Promoter Mutation in TERT in Malignant Transformation of Pleomorphic Xanthoastrocytoma.

Author

Hosono J, Nitta M, Masui K, Maruyama T, Komori T, Yokoo H, Saito T, Muragaki Y, and Kawamata T

Subjects
Adult, Antineoplastic Agents, Alkylating therapeutic use, Astrocytoma drug therapy, Astrocytoma pathology, Astrocytoma surgery, Brain Neoplasms drug therapy, Brain Neoplasms pathology, Brain Neoplasms surgery, Combined Modality Therapy, Cyclin-Dependent Kinase Inhibitor p15 genetics, Cytoreduction Surgical Procedures, DNA Mutational Analysis, DNA, Neoplasm genetics, Female, Gene Deletion, Genes, p16, Humans, Neoplasm Recurrence, Local drug therapy, Neoplasm Recurrence, Local genetics, Neoplasm Recurrence, Local surgery, Nimustine therapeutic use, Photochemotherapy, Porphyrins therapeutic use, Proto-Oncogene Proteins B-raf genetics, Radiosurgery, Reoperation, Temporal Lobe pathology, Astrocytoma genetics, Brain Neoplasms genetics, Cell Transformation, Neoplastic genetics, Mutation, Neoplasm Proteins genetics, Promoter Regions, Genetic genetics, Telomerase genetics
Abstract

Background: Pleomorphic xanthoastrocytoma (PXA) is categorized as grade II, other astrocytic tumors per the 2016 World Health Organization classification. Despite being a relatively benign type of tumor, PXA often has an aggressive clinical course. The more malignant form of PXA is now known as anaplastic pleomorphic xanthoastrocytoma (A-PXA) and is categorized as a grade III tumor. Clinical and genetic factors associated with malignant transformation remain unclear. In particular, typical genetic expression patterns in PXA and A-PXA remain unidentified., Case Description: We present a case of recurrent PXA in which malignant transformation followed a promoter mutation in TERT. In this case, genetic chronologic changes accompanying malignant transformation of PXA were thoroughly examined. The promoter mutation was detected in the second operative specimen after stereotactic radiosurgery (SRS) at the first tumor recurrence. Subsequently, a malignant transformation to the A-PXA occurred at the time of the second recurrence, and the tumor repeatedly recurred afterward., Conclusions: TERT promotor mutations may contribute to the malignant transformation of PXA; the mechanism of this mutation is unknown, but it may have been caused by SRS. Therefore, improvident use of radiation should be avoided to prevent the malignant transformation of PXA., (Copyright © 2018. Published by Elsevier Inc.)

Published
2019
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7. Intramedullary spinal cord ependymoma and astrocytoma: intraoperative frozen-section diagnosis, extent of resection, and outcomes.

Author

Hongo H, Takai K, Komori T, and Taniguchi M

Subjects
Adult, Aged, Astrocytoma diagnosis, Astrocytoma mortality, Disease-Free Survival, Ependymoma diagnosis, Ependymoma mortality, Female, Humans, Male, Middle Aged, Neoplasm Grading, Neurosurgical Procedures methods, Progression-Free Survival, Retrospective Studies, Spinal Neoplasms mortality, Treatment Outcome, Astrocytoma surgery, Ependymoma surgery, Spinal Neoplasms diagnosis, Spinal Neoplasms surgery
Abstract

OBJECTIVEThe intraoperative differentiation of ependymomas from astrocytomas is important because neurosurgical strategies differ between these two tumor groups. Previous studies have reported that the diagnostic accuracy of intraoperative frozen sections of intracranial central nervous system (CNS) tumors is higher than 83%-97%, whereas that for spinal intramedullary tumors remains unknown. Herein, authors tested the hypothesis that intraoperative frozen-section diagnosis is the gold standard for a differential diagnosis of intramedullary spinal cord tumors.METHODSThe clinical characteristics, intraoperative histological diagnosis from frozen sections, extent of tumor resection, progression-free survival (PFS), and overall survival (OS) of 49 cases of intramedullary spinal cord ependymomas (n = 32) and astrocytomas (n = 17) were retrospectively evaluated.RESULTSThe frozen-section diagnosis and final diagnosis with permanent sections agreed in 23 (72%) of 32 cases of ependymoma. Of the 9 cases of ependymoma in which the frozen-section diagnosis disagreed with the final diagnosis, 4 were incorrectly diagnosed as astrocytoma and the other 5 cases had a nonspecific diagnosis, such as glioma. Nonetheless, gross-total resection was achieved in 6 of these 9 cases given the presence of a dissection plane. The frozen-section diagnosis and final diagnosis agreed in 12 (71%) of 17 cases of astrocytoma. Of the 5 cases of astrocytoma in which the frozen-section diagnosis disagreed with the final diagnosis, 1 was incorrectly diagnosed as ependymoma and the other 4 had a nonspecific diagnosis. Gross-total resection was achieved in only 1 of these 5 cases.A relationship between the size of tumor specimens and the diagnostic accuracy of frozen sections was not observed. Ependymal rosettes and perivascular pseudorosettes were observed in 30% and 57% of ependymomas, respectively, but were absent in astrocytomas.Progression-free survival and OS were both significantly longer in cases of ependymoma than in cases of astrocytoma (p < 0.001). Gross-total resection was achieved in 69% of ependymomas and was associated with longer PFS (p = 0.041). In the astrocytoma group, gross-total resection was achieved in only 12% and there was no relationship between extent of resection and OS. Tumor grades tended to correlate with OS in astrocytomas (p = 0.079).CONCLUSIONSThe diagnostic accuracy of intraoperative frozen sections was lower for intramedullary spinal cord ependymomas and astrocytomas in the present study than that for intracranial CNS tumors reported on in the literature. Surgical strategies need to be selected based on multiple factors, such as clinical characteristics, preoperative imaging, frozen-section diagnosis, and intraoperative findings of the tumor plane.

Published
2018
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8. Brainstem pilocytic astrocytoma with H3 K27M mutation: case report.

Author

Morita S, Nitta M, Muragaki Y, Komori T, Masui K, Maruyama T, Ichimura K, Nakano Y, Sawada T, Koriyama S, Tsuzuki S, Yasuda T, Hashimoto K, Niwa A, and Kawamata T

Subjects
Astrocytoma diagnostic imaging, Astrocytoma pathology, Astrocytoma surgery, Brain Stem Neoplasms diagnostic imaging, Brain Stem Neoplasms pathology, Brain Stem Neoplasms surgery, Diagnosis, Differential, Humans, Image Enhancement, Incidental Findings, Magnetic Resonance Imaging, Male, Methionine, Middle Aged, Neoplasm Grading, Positron-Emission Tomography, Astrocytoma genetics, Brain Stem Neoplasms genetics, Histones genetics, Mutation
Abstract

In this report, the authors present the first case of adult brainstem pilocytic astrocytoma (PA) with the H3 K27M mutation. A 53-year-old man was incidentally found to have a 2.5-cm partially enhanced tumor in the tectum on MRI. The enhancement in the lesion increased over 3 years, and gross-total removal was performed via the occipital transtentorial approach. The resected tissue indicated PA, WHO Grade I, and genetic analysis revealed the H3 K27M mutation. However, although the radiological, surgical, and pathological findings all corresponded to PA, this entity can easily be misdiagnosed as diffuse midline glioma with the H3 K27M mutation, which is classified as a WHO Grade IV tumor according to the updated classification. This case highlights the phenotypic spectrum of PA, as well as the biology of the H3 K27M-mutated gliomas, and may prove to be an exception to the rule that diffuse midline gliomas with the H3 K27M mutation behave in an aggressive manner. Based on the findings of this case, the authors conclude that, in addition to detecting the existence of the H3 K27M mutation, an integrated approach in which a combination of clinical, pathological, and genetic information is used should be applied for accurate diagnosis and determination of the appropriate treatment for diffuse midline gliomas.

Published
2018
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9. Evaluation of DNA ploidy with intraoperative flow cytometry may predict long-term survival of patients with supratentorial low-grade gliomas: Analysis of 102 cases.

Author

Suzuki A, Maruyama T, Nitta M, Komori T, Ikuta S, Chernov M, Tamura M, Kawamata T, and Muragaki Y

Subjects
Adult, Aged, Astrocytoma mortality, Brain Neoplasms mortality, Brain Neoplasms surgery, Disease-Free Survival, Female, Glioma surgery, Humans, Male, Middle Aged, Neoplasm Grading, Oligodendroglioma pathology, Astrocytoma surgery, DNA, Flow Cytometry methods, Neurosurgical Procedures methods
Abstract

Objective: The objective of the present study was evaluation of the prognostic significance of DNA ploidy assessed with intraoperative flow cytometry (iFC) during resection of low-grade gliomas (LGG)., Patients and Methods: Retrospective analysis of 102 consecutive cases of newly diagnosed WHO grade II supratentorial gliomas, surgical removal of which was accompanied by iFC, was done. There were 46 diffuse astrocytomas (DA) and 56 oligodendrogliomas (OD). According to iFC, 68 tumors (67%) were considered non-aneuploid and 34 (33%) aneuploid. Median extent of resection (EOR) was 95% (mean, 89.0 ± 14.5%). Postoperative FRT with or without adjuvant chemotherapy was administered in 24 cases (24%)., Results: With median follow-up of 29.9 months (range, 9.4-66.9 months), neither median overall survival (OS) nor median progression-free survival (PFS) were reached. The 3-year actuarial OS and PFS rates were 95.8% and 86.3%, respectively. Non-aneuploid DNA histogram type of the tumor was associated with significantly longer OS both in univariate (P = 0.0094) and multivariate (P = 0.0232) analyses, and with longer PFS in univariate analysis (P = 0.0184). Aneuploidy was encountered more frequently in DA, than in OD (43% vs. 25% of cases; P = 0.0488). Tumor progression was noted in 15 DA and 4 patients succumbed to the disease; in this subgroup the main unfavorable prognostic factors for OS and PFS were presence of aneuploidy (P = 0.0510) and MIB-1 index ≧3.9% (P = 0.0141), respectively. Aneuploid DA more frequently progressed to glioblastoma than to anaplastic astrocytoma, but this difference did not reach statistical significance (P = 0.1362). In contrast, only one OD progressed (non-aneuploid neoplasm), and no one patient with such tumor died of the disease., Conclusions: DNA ploidy assessed with iFC may be effectively used as prognostic indicator in cases of LGG, especially of DA. Aneuploid tumors demonstrate more aggressive clinical course translated into shorter OS of patients. Thus, their detection during surgery may be helpful for decision on the optimal EOR, and for choice of the most appropriate postoperative adjuvant therapy., (Copyright © 2018. Published by Elsevier B.V.)

Published
2018
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10. Spinal Cord Astrocytoma with Isocitrate Dehydrogenase 1 Gene Mutation.

Author

Takai K, Tanaka S, Sota T, Mukasa A, Komori T, and Taniguchi M

Subjects
Adult, Antineoplastic Agents, Alkylating therapeutic use, Astrocytoma diagnostic imaging, Astrocytoma pathology, Astrocytoma therapy, Chemoradiotherapy, Adjuvant, Dacarbazine analogs & derivatives, Dacarbazine therapeutic use, Fatal Outcome, Female, Humans, Magnetic Resonance Imaging, Mutation, Neurosurgical Procedures, Radiotherapy, Spinal Cord Neoplasms diagnostic imaging, Spinal Cord Neoplasms pathology, Spinal Cord Neoplasms therapy, Temozolomide, Astrocytoma genetics, Isocitrate Dehydrogenase genetics, Spinal Cord Neoplasms genetics
Abstract

Background: In 2016, the World Health Organization updated its classification of tumors, adding genetic profiles to the conventional histopathologic typing., Case Description: The authors present herein the first case of a 44-year-old female with isocitrate dehydrogenase-mutant World Health Organization grade II diffuse spinal astrocytoma diagnosed on the basis of both histopathologic and genetic findings., Conclusions: The present case underscores the significant role of a molecular genetic analysis in the differential diagnosis of intramedullary spinal gliomas., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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12. Proposed therapeutic strategy for adult low-grade glioma based on aggressive tumor resection.

Author

Nitta M, Muragaki Y, Maruyama T, Ikuta S, Komori T, Maebayashi K, Iseki H, Tamura M, Saito T, Okamoto S, Chernov M, Hayashi M, and Okada Y

Subjects
Adolescent, Adult, Aged, Astrocytoma drug therapy, Astrocytoma mortality, Brain Neoplasms drug therapy, Combined Modality Therapy, Disease-Free Survival, Female, Glioma drug therapy, Glioma mortality, Humans, Male, Middle Aged, Neoplasm Grading, Retrospective Studies, Treatment Outcome, Young Adult, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Astrocytoma surgery, Brain Neoplasms surgery, Glioma surgery, Neurosurgical Procedures methods
Abstract

OBJECT There is no standard therapeutic strategy for low-grade glioma (LGG). The authors hypothesized that adjuvant therapy might not be necessary for LGG cases in which total radiological resection was achieved. Accordingly, they established a treatment strategy based on the extent of resection (EOR) and the MIB-1 index: patients with a high EOR and low MIB-1 index were observed without postoperative treatment, whereas those with a low EOR and/or high MIB-1 index received radiotherapy (RT) and/or chemotherapy. In the present retrospective study, the authors reviewed clinical data on patients with primarily diagnosed LGGs who had been treated according to the above-mentioned strategy, and they validated the treatment policy. Given their results, they will establish a new treatment strategy for LGGs stratified by EOR, histological subtype, and molecular status. METHODS One hundred fifty-three patients with diagnosed LGG who had undergone resection or biopsy at Tokyo Women's Medical University between January 2000 and August 2010 were analyzed. The patients consisted of 84 men and 69 women, all with ages ≥ 15 years. A total of 146 patients underwent surgical removal of the tumor, and 7 patients underwent biopsy. RESULTS Postoperative RT and nitrosourea-based chemotherapy were administered in 48 and 35 patients, respectively. Extent of resection was significantly associated with both overall survival (OS; p = 0.0096) and progression-free survival (PFS; p = 0.0007) in patients with diffuse astrocytoma but not in those with oligodendroglial subtypes. Chemotherapy significantly prolonged PFS, especially in patients with oligodendroglial subtypes (p = 0.0009). Patients with a mutant IDH1 gene had significantly longer OS (p = 0.034). Multivariate analysis did not identify MIB-1 index or RT as prognostic factors, but it did identify chemotherapy as a prognostic factor for PFS and EOR as a prognostic factor for OS and PFS. CONCLUSIONS The findings demonstrated that EOR was significantly correlated with patient survival; thus, one should aim for maximum tumor resection. In addition, patients with a higher EOR can be safely observed without adjuvant therapy. For patients with partial resection, postoperative chemotherapy should be administered for those with oligodendroglial subtypes, and repeat resection should be considered for those with astrocytic tumors. More aggressive treatment with RT and chemotherapy may be required for patients with a poor prognosis, such as those with diffuse astrocytoma, 1p/19q nondeleted tumors, or IDH1 wild-type oligodendroglial tumors with partial resection.

Published
2015
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13. Rosette-forming glioneuronal tumor of the fourth ventricle with neurocytoma component.

Author

Chiba K, Aihara Y, Eguchi S, Tanaka M, Komori T, and Okada Y

Subjects
Child, Preschool, Female, Humans, Young Adult, Astrocytoma pathology, Cerebral Ventricle Neoplasms pathology, Fourth Ventricle pathology, Neoplasms, Complex and Mixed pathology, Neurocytoma pathology
Abstract

Rosette-forming glioneuronal tumor (RGNT) was first published in 2002 and was described as a benign and indolent tumor. It was also included in the 2007 World Health Organization (WHO) classification of tumors as a grade 1 tumor for its benign clinical behavior and the possibility of surgical cure. Pathologically, RGNT is a mixed neuronal-glial tumor which consists of two distinct histological components-one with uniform neurocytes forming rosettes and/or perivascular pseudorosettes and the other being astrocytic in nature resembling pilocytic astrocytoma (biphasic pattern). We present the clinical course and pathological findings of two distinctively different cases. The first one was a 4-year-old girl with head trauma and a tumor which was incidentally found by CT. Pathology revealed that the tumor contained neurocytoma components and areas of relatively high proliferative ability with the first report of the presence of midsized bright elliptic cells. The other case was a 19-year-old girl whose imaging studies showed hydrocephalus and a brain stem tumor. She underwent endoscopic third ventriculostomy and biopsy, followed by observation. An MRI taken 6 months later showed progression of the tumor and she subsequently had the tumor excised. We are considering the possibility for our RGNT cases to correspond to a higher WHO grade as they have shown rapid progression, contrary to the already established, and their character, origin, differential diagnosis, and treatment plans have been discussed.

Published
2014
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14. Pathologic diversity of glioneuronal tumor with neuropil-like islands: a histological and immunohistochemical study with a special reference to isocitrate dehydrogenase 1 (IDH1) in 5 cases.

Author

Ishizawa K, Hirose T, Sugiyama K, Kageji T, Nobusawa S, Homma T, Komori T, and Sasaki A

Subjects
Adult, Astrocytoma genetics, Astrocytoma pathology, Brain Neoplasms genetics, Brain Neoplasms pathology, DNA Mutational Analysis, Female, Humans, Isocitrate Dehydrogenase genetics, Male, Middle Aged, Oligodendroglioma genetics, Oligodendroglioma pathology, Astrocytoma metabolism, Brain Neoplasms metabolism, Isocitrate Dehydrogenase metabolism, Oligodendroglioma metabolism
Abstract

Glioneuronal tumor with neuropil-like islands (GTNI) is featured by "neuropil-like islands (NIs)" within dominating astroglial components. Isocitrate dehydrogenase (IDH) mutations, particularly IDH1 R132H (G395A), are found in WHO Grade II and III diffuse gliomas as well as secondary, but not primary, glioblastomas. We reviewed 5 cases of GTNI, and assessed histology and immunohistochemistry with various antibodies, including those for IDH1 R132H, as well as direct DNA sequencing for IDH1 G395A. NIs were variable in morphology, and constantly synaptophysin-positive and glial fibrillary acidic protein-negative. The glioma components were primary glioblastoma in 2 cases, anaplastic astrocytoma in 1 and anaplastic oligoastrocytoma in 2. The IDH1 R132H was expressed in the 2 cases with oligoastrocytoma: In 1, NIs and the astrocytoma-like area as well as the oligodendroglioma-like area were positive. In the other, only the oligodendrogliomalike area was positive. The mutation analysis performed on the latter case with DNA separately sampled from the oligodendroglioma- like area and the astrocytoma-like area detected IDH1 G395A in both areas. We have shown diverse pathologic aspects of GTNI. Also, we have shown that the expression of IDH1 R132H in GTNI is largely concordant with that in diffuse gliomas, and that it can be dependent on each histologic component although the mutant IDH1 gene is ubiquitously present within the tumor.

Published
2012
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15. TERT promoter mutation confers favorable prognosis regardless of 1p/19q status in adult diffuse gliomas with IDH1/2 mutations.

Author

Arita, Hideyuki, Matsushita, Yuko, Machida, Ryunosuke, Yamasaki, Kai, Hata, Nobuhiro, Ohno, Makoto, Yamaguchi, Shigeru, Sasayama, Takashi, Tanaka, Shota, Higuchi, Fumi, Iuchi, Toshihiko, Saito, Kuniaki, Kanamori, Masayuki, Matsuda, Ken-Ichiro, Miyake, Yohei, Tamura, Kaoru, Tamai, Sho, Nakamura, Taishi, Uda, Takehiro, Okita, Yoshiko, Fukai, Junya, Sakamoto, Daisuke, Hattori, Yasuhiko, Pareira, Eriel, Hatae, Ryusuke, Ishi, Yukitomo, Miyakita, Yasuji, Tanaka, Kazuhiro, Takayanagi, Shunsaku, Otani, Ryohei, Sakaida, Tsukasa, Kobayashi, Keiichi, Saito, Ryuta, Kurozumi, Kazuhiko, Shofuda, Tomoko, Nonaka, Masahiro, Suzuki, Hiroyoshi, Shibuya, Makoto, Komori, Takashi, Sasaki, Hikaru, Mizoguchi, Masahiro, Kishima, Haruhiko, Nakada, Mitsutoshi, Sonoda, Yukihiko, Tominaga, Teiji, Nagane, Motoo, Nishikawa, Ryo, Kanemura, Yonehiro, Kuchiba, Aya, Narita, Yoshitaka, and Ichimura, Koichi

Subjects
1p/19q codeletion, CDKN2A, Glioma, IDH1/2, TERT, Adolescent, Adult, Aged, Aged, 80 and over, Astrocytoma, Brain Neoplasms, Chromosome Deletion, Chromosomes, Human, Pair 1, Chromosomes, Human, Pair 19, Female, Glioblastoma, Glioma, Humans, Isocitrate Dehydrogenase, Karnofsky Performance Status, Male, Middle Aged, Multivariate Analysis, Mutation, Neoplasm Grading, Neurosurgical Procedures, Oligodendroglioma, Prognosis, Promoter Regions, Genetic, Proportional Hazards Models, Radiotherapy, Adjuvant, Retrospective Studies, Survival Rate, Telomerase, Young Adult
Abstract

TERT promoter mutations are commonly associated with 1p/19q codeletion in IDH-mutated gliomas. However, whether these mutations have an impact on patient survival independent of 1p/19q codeletion is unknown. In this study, we investigated the impact of TERT promoter mutations on survival in IDH-mutated glioma cases. Detailed clinical information and molecular status data were collected for a cohort of 560 adult patients with IDH-mutated gliomas. Among these patients, 279 had both TERT promoter mutation and 1p/19q codeletion, while 30 had either TERT promoter mutation (n = 24) or 1p/19q codeletion (n = 6) alone. A univariable Cox proportional hazard analysis for survival using clinical and genetic factors indicated that a Karnofsky performance status score (KPS) of 90 or 100, WHO grade II or III, TERT promoter mutation, 1p/19q codeletion, radiation therapy, and extent of resection (90-100%) were associated with favorable prognosis (p

Published
2020

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