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El perfil molecular de los gliomas permite garantizar la precisión del diagnóstico, informar el pronóstico e identificar opciones de tratamiento. Esta revisión tiene como objetivo exponer que con la secuenciación de próxima generación (NSG) el diagnóstico de los pacientes con oligodendrogliomas puede ser más exacto. Además, con un dispositivo de diagnóstico in vitro, basado en la NSG (F1CDx), en el que se utilizan los bloques de parafina de gliomas para analizar hasta 395 genes relacionados con cáncer (incluido IDH 1 y 2), se puede también informar la pérdida de la totalidad del brazo corto del cromosoma 1 y del brazo largo del cromosoma 19 (codeleción 1p/19q), a diferencia de la hibridación fluorescente in situ (FISH) que detecta desde la más mínima deleción, lo cual los hace sensibles pero no específicos ya que el FISH es incapaz de distinguir entre la pérdida de la totalidad del brazo del cromosoma y una deleción focal. Esta distinción es importante ya que la sobrevida es inferior en tumores con deleción parcial en relación con los oligodendrogliomas, que tienen por definición la pérdida total de ambos cromosomas. Se hace también alusión a otras plataformas genómicas como GlioSeq y GLIO-DNA panel, que pueden cumplir la misma función. En conclusión, la F1CDx puede determinar con precisión 1p/19q con una concordancia del 96.7% frente a FISH. Los casos en que el FISH dio positivo y no concordaban con F1CDx, era porque no se trataba de oligodendrogliomas. F1CDx también analiza todos los genes que permiten la aproximación más exacta al diagnóstico de oligodendroglioma.
Molecular profiling of gliomas helps ensure diagnostic accuracy, inform prognosis, and identify treatment options. This review aims to show that with next generation sequencing (NGS) the diagnosis of patients with oligodendrogliomas can be more accurate. In addition, with an in vitro diagnostic device, based on NSG (F1CDx), in which glioma paraffin blocks are used to analyze up to 395 cancer-related genes (including IDH 1 and 2), it is also possible to report the loss of the entire short arm of chromosome 1 and the long arm of chromosome 19 (1p/19q codeletion), unlike fluorescence in situ hybridization (FISH) that detects even the slightest deletion, making them sensitive but not specific, as FISH is unable to distinguish between the loss of the entire arm of the chromosome and a focal deletion. This distinction is important since survival is lower in tumors with partial deletion compared to oligodendrogliomas, which by definition have the total loss of both chromosomes. Reference is also made to other genomic platforms such as GlioSeq and GLIO-DNA panel, which can fulfill the same function. In conclusion, the F1CDx can accurately determine 1p/19q with a concordance of 96.7% against FISH. The cases in which the FISH was positive and did not agree with F1CDx, it was because they were not oligodendrogliomas. F1CDx also analyzes all the genes that allow the most accurate approach to the diagnosis of oligodendroglioma.
O perfil molecular de gliomas ajuda a garantir a precisão do diagnóstico, informar o prognóstico e identificar as opções de tratamento. Esta revisão tem como objetivo mostrar que com o sequenciamento de próxima geração (NSG) o diagnóstico de pacientes com oligodendrogliomas pode ser mais preciso. Além disso, com um dispositivo de diagnóstico in vitro baseado em NSG (F1CDx), no qual blocos de parafina de glioma são usados para analisar até 395 genes relacionados ao câncer (incluindo IDH 1 e 2), também é possível relatar a perda do todo o braço curto do cromossomo 1 e o braço longo do cromossomo 19 (codeleção 1p/19q), ao contrário da hibridização fluorescente in situ(FISH) que detecta desde a menor deleção, o que os torna sensíveis, mas não específicos, pois o FISH é incapaz de distinguir entre a perda de todo o braço do cromossomo e uma deleção focal. Essa distinção é importante, pois a sobrevida é menor nos tumores com deleção parcial em relação aos oligodendrogliomas, que por definição apresentam a perda total de ambos os cromossomos. Também é feita referência a outras plataformas genômicas, como GlioSeq e painel GLIO-DNA, que podem cumprir a mesma função. Em conclusão, o F1CDx pode determinar com precisão 1p/19q com uma concordância de 96,7% versus FISH. Os casos em que FISH foi positivo e não concordaram com F1CDx, foi porque não eram oligodendrogliomas. O F1CDx também analisa todos os genes que permitem a abordagem mais precisa para o diagnóstico de oligodendroglioma.
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Humans , Glioma , Oligodendroglioma , Survival , In Vitro Techniques , Diagnosis , NeoplasmsABSTRACT
Abstract Objective To investigate the value of a nomogram based on multiparametric and multiregional MR images to predict Isocitrate Dehydrogenase-1 (IDH1) gene mutations in glioma. Data and methods The authors performed a retrospective analysis of 110 MR images of surgically confirmed pathological gliomas; 33 patients with IDH1 gene Mutation (IDH1-M) and 77 patients with Wild-type IDH1 (IDH1-W) were divided into training and validation sets in a 7:3 ratio. The clinical features were statistically analyzed using SPSS and R software. Three glioma regions (rCET, rE, rNEC) were outlined using ITK-SNAP software and projected to four conventional sequences (T1, T2, Flair, T1C) for feature extraction using AI-Kit software. The extracted features were screened using R software. A logistic regression model was established, and a nomogram was generated using the selected clinical features. Eight models were developed based on different sequences and ROIs, and Receiver Operating Characteristic (ROC) curves were used to evaluate the predictive efficacy. Decision curve analysis was performed to assess the clinical usefulness. Results Age was selected with Radscore to construct the nomogram. The Model 1 AUC values based on four sequences and three ROIs were the highest in these models, at 0.93 and 0.89, respectively. Decision curve analysis indicated that the net benefit of model 1 was higher than that of the other models for most Pt-values. Conclusion A nomogram based on multiparametric and multiregional MR images can predict the mutation status of the IDH1 gene accurately.
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Glioblastoma (GBM) is a common malignant neuroepithelial tumor of the central nervous system with rapid progression and high drug resistance. Fat mass and obesity associated (FTO), as the main demethylase in the modification process of N6-methyladenosine, is widely involved in GBM regulation, including tumor occurrence and development. It is also associated with the mutation of isocitrate dehydrogenase. The role of FTO in the aspects of biological function, glioblastoma stem cell sustaining and selfrenewing and chemotherapy resistance remained contentious. In this paper, FTO is preliminarily described through bioinformatics and current research, and the future research is prospected from the perspectives of energy metabolism, small molecule RNA regulation and post-translational modification.
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Mechanism study was performed to explore how Shouhui Tongbian Capsules promotes energy metabolism of gastrointestinal stromal cells. In this study, gastrointestinal stromal cells line GIST-882 was used as the model to explore energy metabolism regulation effects of Shouhui Tongbian Capsules extract(10, 20, 50 and 100 μg·mL~(-1)) by measuring the cell proliferation, ATP level, mitochondrial membrane potential, and mitochondrial isocitrate dehydrogenase activity. Meanwhile, Western blot was used to detect the proteins expression of SCF/c-Kit and CDK2/cyclin A signaling pathways. Our results showed that Shouhui Tongbian Capsules promoted cell proliferation and increased ATP level of gastrointestinal stromal cells. In addition, Shouhui Tongbian Capsules obviously improved mitochondrial structural integrity, and increased mitochondrial membrane potential in GIST-882 cells. Mechanism study revealed that Shouhui Tongbian Capsules increased mitochondrial isocitrate dehydrogenase activity and up-regulated the proteins expression of SCF/c-Kit and CDK2/cyclin A signaling pathways. Collectively, our study indicated that Shouhui Tongbian Capsules promoted the energy metabolism for gastrointestinal stromal cells proliferation by activating mitochondrial isocitrate dehydrogenase to induce ATP production, as well as activating SCF/c-Kit and CDK2/cyclin A signaling pathways.
Subject(s)
Humans , Capsules , Cell Line, Tumor , Energy Metabolism , Gastrointestinal Stromal Tumors , Proto-Oncogene Proteins c-kit/metabolism , Stromal Cells/metabolismABSTRACT
Shouhui Tongbian Capsules was used to explore the therapeutic effect and potential mechanism on slow transit constipation model mice induced by loperamide hydrochloride. In the experiment, loperamide hydrochloride-induced ICR mice were used as the model of slow transit constipation. Fifty ICR mice were divided into the blank group, model group and high, medium and low dose groups of Shouhui Tongbian Capsules extract(100, 200 and 400 mg·kg~(-1)). The model group and the administration groups were then modeled using loperamide hydrochloride intragastrically to obtain slow transit constipation. After successful modeling, high, medium and low doses of drugs were given to each drug group by intragastric administration. After 14 days of administration, the first defecation time, 6 h defecation grain number, 6 h defecation wet weight and dry weight, black feces discharged within 6 h and the fecal water content were measured. Intestinal tissues were taken for c-Kit and SCF immunohistochemical sections to detect the expression of c-Kit and SCF in the blank group, model group and high, medium and low dose groups of the medicinal extract of Shouhui Tongbian Capsules. The tissue changes in the intestinal wall of mice were detected by HE staining. At the same time, partial intestinal tissues were taken to test the activity of ATP synthase and isocitrate dehydrogenase in intestinal tissues of mice. RESULTS:: showed that Shouhui Tongbian Capsules effectively improved the symptoms of slow transit constipation in ICR mice and promoted intestinal movement. Shouhui Tongbian Capsules obviously shortened the time of discharging black stool for the first time, improved the intestinal propulsion rate, increased the water content and amount of feces, and improved the constipation symptoms. Mechanism study revealed that Shouhui Tongbian Capsules increased ATP synthase activity and mitochondrial isocitrate dehydrogenase activity in intestinal tissue, and up-regulated c-Kit/SCF signaling pathway to promote interstitial Cajal cells proliferation, intestinal nerve transmission, intestinal motility and transport capacity.
Subject(s)
Animals , Mice , Capsules , Constipation/drug therapy , Gastrointestinal Transit , Loperamide , Mice, Inbred ICRABSTRACT
Introducción. Los gliomas son las neoplasias malignas primarias más frecuentes del sistema nervioso central, asociadas con una mortalidad y morbilidad elevadas. Las mutaciones en los genes IDH1 e IDH2 de la enzima isocitrato deshidrogenasa (IDH) son clave en la tumorogénesis, y son consideradas un factor pronóstico importante en estas neoplasias. En este estudio se buscó determinar la presencia de mutaciones de los genes IDH1 e IDH2 en pacientes con diagnóstico de glioma difuso en diferentes grados, y su correlación con la sobrevida. Metodología. Se realizó un estudio descriptivo, prospectivo y retrospectivo. La población de estudio fueron pacientes entre los 18 y 45 años con diagnóstico de glioma difuso grado II, III y IV, atendidos en el Hospital San Vicente Fundación de Medellín, entre 2012 y 2017, en quienes se realizó un análisis de mutaciones en los genes IDH1 e IDH2 por secuenciación Sanger y tinción de inmunohistoquímica. Resultados. Se incluyeron 14 pacientes con edad promedio de 37 años, 57% de sexo masculino. Glioblastoma fue la neoplasia más frecuente, diagnosticada en el 42,9% de casos. Por inmunohistoquímica, 10 de los 14 (71,4%) pacientes presentaron mutación de la enzima IDH1, en tanto que 1 de los 11 (9%) pacientes en quienes se logró la secuenciación del gen IDH2, mostró mutación. En general, el 78,6% presentó mutaciones de la enzima IDH, con promedio de sobrevida de 48 meses. Conclusión. Estos hallazgos sugieren que los gliomas son un grupo heterogéneo de tumores, con gran variabilidad genética que impacta en su pronóstico y comportamiento
Introduction. Gliomas are the most common primary malignancies of the central nervous system, associated with high mortality and morbidity. Mutations in the isocitrate dehydrogenase (IDH) enzyme IDH1 and IDH2 genes, are key in tumorigenesis, and are considered an important prognostic factor in these neoplasms. This study aimed to determine the presence of IDH1 and IDH2 gene mutations in patients diagnosed with diffuse glioma in different degrees, and their correlation with survival. Methodology. A descriptive, prospective and retrospective study was conducted. The study population consisted of patients between the ages of 18 and 45 with a diagnosis of grade II, III and IV diffuse glioma, treated at the Hospital San Vicente Fundación in Medellín, between 2012 and 2017, in whom an analysis of IDH1 and IDH2 gene mutations was performed by Sanger sequencing and immunohistochemical staining. Results. Fourteen patients with a mean age of 37 years were included, 57% were male. Glioblastoma was the most frequent neoplasm, diagnosed in 42.9% of the cases. By immunohistochemistry, 10 of the 14 (71.4%) patients had a mutation of the IDH1 enzyme, while 1 of the 11 (9%) patients in whom IDH2 gene sequencing was achieved showed a mutation. In general, 78.6% had IDH enzyme mutations, with an average survival of 48 months. Conclusion. These findings suggest that gliomas are a heterogeneous group of tumors, withgreat genetic variability that impacts their prognosis and behavior
Subject(s)
Isocitrate Dehydrogenase , Oligodendroglioma , Astrocytoma , Immunohistochemistry , Sequence Analysis, DNA , Glioblastoma , Glioma , MutationABSTRACT
Objective:To investigate the functional imaging parameters that effectively distinguish isocitrate dehydrogenase (IDH) gene mutation status in clinical practice with long echo time (TE) point-resolved spectroscopy (PRESS) MRS.Methods:Totally 25 patients with suspected diagnosis of low grade gliomas(LGGs; Grade II) were recruited prospectively and divided into IDH mutation group and IDH wild group according to pathological results in the study. All patients were scanned with long TE PRESS MRS. In addition, IDH mutational status was determined by post-operation Sanger sequencing. The t test or Mann-Whitney U test was used to analyze the differences of 2-hydroxyglutarate (2HG), Glutamate (Glu), Glutamine (Gln) and 2HG/Glu+Gln between the IDH mutation group and the IDH wild group, then ROC curve was plotted with statistically significant indexes to obtain the efficacy of predicting IDH mutation status. Results:Of the 25 patients, 19 had IDH mutant gliomas and 6 had IDH wild-type gliomas. 2HG, Glu, Gln and 2HG/Glu+Gln in IDH mutated group were 1.42 (1.09, 1.93)mmol/L, (1.74±1.31)mmol/L, (1.68±0.66)mmol/L, 0.55 (0.28, 0.77), respectively; while the corresponding values were 0.00 (0.00, 1.30)mmol/L, (3.28±1.02)mmol/L, (2.55±1.47)mmol/L, 0.00 (0.00, 0.26) in IDH gene wild type group, respectively. The differences of 2HG, Glu, and 2HG/Glu+Gln between the two groups were statistically significant ( P values were 0.030, 0.016, 0.004, respectively). The area under the ROC curve of 2HG/Glu+Gln was the largest (0.877), and the sensitivity was the highest (84.2%). Conclusion:The integration of 2HG with Glu and Gln can effectively realize the noninvasive assessment of IDH mutation status.
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Abstract Background: Astrocytomas are cancer tumors of the central nervous system and represent the most common type of solid tumors during human childhood. In 2016, the World Health Organization established a molecular classification system to regroup tumor entities to achieve a more accurate diagnosis and a better clinical decision-making and selection of treatment in patients with these types of tumors. Methods: We evaluated a genotyping assay for rapid and cost-effective mutation detection in astrocytomas using TaqMan probes in an asymmetric polymerase chain reaction (PCR) assay. Results: Four diffuse astrocytomas (Grade II), three anaplastic astrocytomas (Grade III), and four glioblastomas (Grade IV) were sequenced, and all of them displayed the wild-type (WT) sequence. We tried to set up this melting analysis for the genotyping of pediatric astrocytomas by identifying the specific melting temperatures of the TaqMan probes due to the presence of the WT sequences in the isocitrate dehydrogenase 1 and 2 (IDH1 and IDH2) and H3.3 histone A genes (H3F3A). We used an IDH1-TaqMan probe to identify the WT status of IDH1 in two different WT deoxyribonucleic acid (DNA) templates (pilocytic and diffuse astrocytoma) and obtained four melting temperature values ranged from 65.6 to 92.2°C. Furthermore, only four out of 29 reactions displayed amplification of the DNA template. Sanger sequencing was faster and more reliable to detect the gene status in all the sequenced samples. Conclusions: We conclude that conventional Sanger sequencing remains the gold standard for the genotyping of pediatric astrocytomas.
Resumen Introducción: Los astrocitomas son un tipo de cáncer que afecta al sistema nervioso central y representan el tumor sólido más común durante la infancia. En el año 2016, la Organización Mundial de la Salud estableció un sistema de clasificación molecular para reagrupar tumores con identidades genéticas similares y lograr un diagnóstico más preciso, lo que lleva a tomar las decisiones clínicas idóneas al elegir el tratamiento de pacientes con este tipo de tumores. Métodos: Se evaluó un protocolo que involucra el uso de sondas TaqMan en un ensayo de reacción en cadena de la polimerasa asimétrica para la detección de mutaciones en astrocitomas. Se secuenciaron cuatro astrocitomas difusos (Grado II), tres astrocitomas anaplásicos (Grado III) y cuatro glioblastomas (Grado IV). Se intentó establecer las condiciones del análisis para la genotipificación de los astrocitomas pediátricos mediante la identificación de las temperaturas de disociación específicas de las sondas TaqMan producidas por la prescencia de las secuancias WT en los genes isocitrato deshidrogenasa 1 y 2 (IDH1, IDH2) y H3.3 histona A (H3F3A). Resultados: Los astrocitomas mostraron la secuencia wild type (WT) (silvestre) de los genes. Se utilizó una sonda TaqMan IDH1 para identificar el estado de este gen en dos templados WT de DNA (astrocitoma pilocítico y difuso) y se obtuvieron cuatro valores de temperatura de disociación (65.6-92.2 °C). Solo cuatro de las 29 reacciones mostraron amplificación de DNA. La secuenciación de Sanger fue más rápida y confiable para detectar el estado de los genes en todas las muestras. Conclusiones: La secuenciación de Sanger sigue siendo la técnica más práctica para la genotipificación de astrocitomas pediátricos.
Subject(s)
Child , Humans , Astrocytoma , Brain Neoplasms , Polymerase Chain Reaction , Sequence Analysis, DNA , Genotyping Techniques , Astrocytoma/diagnosis , Astrocytoma/genetics , Brain Neoplasms/diagnosis , Histones , DNA Probes , Sequence Analysis, DNA/methods , Transition Temperature , Glioma , Isocitrate Dehydrogenase , MutationABSTRACT
Background: The World Health Organization (WHO) 2016 classification incorporated molecular subtyping in glioma, highlighting the diagnostic and prognostic significance. The study aims to determine the isocitrate dehydrogenase (IDH-1) gene, α-thalassemia/mental retardation syndrome X-linked (ATRX) gene, and tumor suppressor gene-53 (p53) mutation in glioma and their correlation with various clinical and radiological parameters.Methods: In this prospective observational study, histopathological slides of glioma (2017-2018), were analyzed for IDH-1, ATRX and p53 mutations and their correlation with various clinical and radiological parameters.Results: IDH-1 mutation was found in 48 (38.7%), ATRX loss in 38 (30.6%) and p53 mutation in 40 (32.5%) patients. The expression of IDH-1 was significantly higher (43.7%) in adults; however, no significant difference was seen with gender. Also 51.2% of patients, who presented with seizures, showed IDH-1 expression; and 27.7% of patients, who had neurological deficit also showed IDH-1 expression. IDH-1 expression was high in glioma located at insula (73.3%) and parietal lobe (71.4%); while ATRX loss was seen in glioma located at insula (80%). Intraventricular glioma characteristically lacks all three markers: IDH-1 expression, p53 overexpression and ATRX loss. IDH-1 expression and p53 overexpression was seen mainly in diffuse fibrillary astrocytoma, oligodendroglioma, anaplastic astrocytoma and glioblastoma.Conclusions: Molecular subtyping is of paramount importance in glioma management. IDH-1 mutation is commonly observed in adults and patients presenting with seizures. The duration of symptoms correlates with IDH-1 and ATRX mutations. Hypothalamic tumors lack all three mutations.
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BACKGROUND: The 2016 World Health Organization (WHO) classification of central nervous system (CNS) tumors has been modified to incorporate the IDH mutation and 1p/19q co-deletion in the diagnosis of diffuse gliomas. In this study, we aimed to evaluate the feasibility and prognostic significance of the revised 2016 WHO classification of CNS tumors in Mongolian patients with diffuse gliomas. METHODS: A total of 124 cases of diffuse gliomas were collected, and tissue microarray blocks were made. IDH1 mutation was tested using immunohistochemistry, and 1p/19q co-deletion status was examined using fluorescence in situ hybridization analysis. RESULTS: According to the 2016 WHO classification, 124 cases of diffuse brain glioma were reclassified as follows: 10 oligodendroglioma, IDHmut and 1p/19q co-deleted; three anaplastic oligodendroglioma, IDHmut and 1p/19q co-deleted; 35 diffuse astrocytoma, IDHmut, 11 diffuse astrocytoma, IDHwt, not otherwise specified (NOS); 22 anaplastic astrocytoma, IDHmut, eight anaplastic astrocytoma, IDHwt, NOS; and 35 glioblastoma, IDHwt, NOS, respectively. The 2016 WHO classification presented better prognostic value for overall survival in patients with grade II tumors than traditional histological classification. Among patients with grade II tumors, those with oligodendroglioma IDHmut and 1p/19q co-deleted and diffuse astrocytoma IDHmut showed significantly higher survival than those with diffuse astrocytoma IDHwt, NOS (p<.01). CONCLUSIONS: Mongolian diffuse gliomas could be reclassified according to the new 2016 WHO classification. Reclassification revealed substantial changes in diagnosis of both oligodendroglial and astrocytic entities. We have confirmed that the revised 2016 WHO CNS tumor classification has prognostic significance in Mongolian patients with diffuse gliomas, especially those with grade II tumors.
Subject(s)
Humans , Astrocytoma , Brain , Central Nervous System , Chromosome Deletion , Classification , Diagnosis , Fluorescence , Glioblastoma , Glioma , Global Health , Immunohistochemistry , In Situ Hybridization , Isocitrate Dehydrogenase , Nervous System Neoplasms , Nervous System , Oligodendroglioma , World Health OrganizationABSTRACT
Objective: To observe the value of amide proton transfer weighted (APTw) imaging in predicting isocitrate dehydrogenase (IDH) wild type and IDH mutant of high-grade gliomas. Methods: Twenty-five patients with pathologically confirmed high-grade gliomas were enrolled. All patients underwent preoperative MR scanning, including routine sequences, T1WI enhancement and APTw scanning. According to the pathology, the patients were divided into IDH wild type group and IDH mutant group. ROIs were placed on FLAIR images of all tumor layers to select the solid components of the tumor, and APT values of each layer were obtained to get the mean value. Differences of APT values were analyzed between groups using independent sample t test, and ROC curve analysis was performed to evaluate the diagnostic efficacy of APT values in assessing the gene status of IDH. Results: Among 25 patients of high-grade gliomas, 9 cases were IDH mutant and 16 cases were IDH wild type. APT value of IDH wild type group ([3.21±0.82]%) was significantly higher than that of IDH mutant group ([2.23±0.72]%; t=2.89, P<0.05), and the AUC was 0.84 (P<0.05). The sensitivity and specificity of IDH wild type diagnosis was 93.8% and 66.7%, respectively. Conclusion: APTw imaging can be used to predict gene status of IDH in high-grade gliomas.
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Objective: To observe the value of MR in prediction of glioma isocitrate dehydrogenase (IDH) 1 mutation status. Methods: Nineteen-two patients with glioma were divided into IDH mutation positive group and negative group, and their imaging characteristics were retrospectively reviewed, including lesions' site, signal intensity, boundary, growth pattern, degree of enhancement and surrounding edema. Then two-class Logistic model was established. Results: There were significant differences between different grades and location of gliomas between the two groups (both P<0.05). There were no significant differences in tumor signal intensity, boundary and growth pattern (P=0.269, 0.606, 0.139). There were statistically significant difference in degree of enhancement and surrounding edema (all P<0.01). Logistic regression analysis showed that the signal uniformity (X1), boundary (X2) and degree of enhancement (X3) of gliomas were statistically significant (P=0.004, 0.037, 0.001), and the regression equation was: logit (P)=2.668+1.415X1-2.097X2-3.229X3 (χ2=41.583, P<0.001), the sensitivity of the model was 70.70%, and the specificity was 80.40%. Conclusion: MRI can be used to non-invasively predict IDH1 mutation status of gliomas before surgical operation.
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Glioma is a primary brain tumor produced by canceration of the glial cells in the brain and spinal cord, accounting for 74.6% of the malignant tumors in the central nervous system. Isocitrate dehydrogenase (IDH) is the rate-limiting enzyme of the tricarboxylic acid cycle and catalyzes the oxidative decarboxylation of isocitrate to produce α-ketoglutarate (α-KG). Its mutant (mIDH) is a new point mutation, not only lose its original function but also gain new activity: catalyzing the production of carcinogenic R-2-hydroxyglutarate (2HG) by α-KG. Isocitrate dehydrogenase inhibitors can reduce the production of 2HG and induce the demethylation of histones, thereby inhibiting tumor progression. Although discovered in 2008, the mIDH has become a tumor diagnostic marker and therapeutic target, mIDH2 and mIDH1 inhibitors for acute myeloid leukemia have been approved for marketing in 2017and 2018,respectively.For the treatment of acute myeloid leukemia, the reliability of isocitrate dehydrogenase mutants as tumor therapeutic targets was confirmed.At present, many pharmaceutical institutions around the world are conducting research and development of isocitrate dehydrogenase inhibitors.This article reviews the current research status of current IDH inhibitors.
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To investigate the clinical value of serum tumor marker isocitrate dehydrogenase 1(IDH1)in the diagnosis of lung cancer. The general data were collected in lung cancer patients and non-lung cancer patients.The serum level of IDH1 was detected by enzyme-linked immunosorbent assay to evaluate its clinical significance in diagnosing lung cancer. The serum IDH1 level was significantly higher in lung cancer patients than in non-lung cancer patients [(7.12±6.98)ng/ml (2.09±1.83)ng/ml,=11.540,<0.001].The serum IDH1 level in patients with adenocarcinoma or squamous cell carcinoma was significantly higher than that in patients with small cell lung cancer [(7.91±7.26)ng/ml (2.76±2.27)ng/ml, =6.345,<0.001].The sensitivity of IDH1 in detecting lung cancer,stage Ⅰ/Ⅱ lung cancer,and stage Ⅲ/Ⅳ lung cancer was 47.4%,49.1%,and 46.3%,respectively. Serum IDH1 has high sensitivities and specificities in the diagnosis and differential diagnosis of non-small cell lung cancer(squamous cell carcinoma and adenocarcinoma)and small cell lung cancer as well as the auxiliary diagnosis of stage Ⅰ and Ⅱ lung cancer.It is a valuable marker for the auxiliary diagnosis of lung cancer.
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Humans , Biomarkers, Tumor , Carcinoma, Non-Small-Cell Lung , Isocitrate Dehydrogenase , Blood , Lung NeoplasmsABSTRACT
Objective To investigate the correlation between intraoperative ultrasonographic features and expression of immunohistochemical markers in patients with glioma.Methods Totally 116 patients with glioma confirmed pathologically were collected.Ultrasonic features were observed,including the main site of the tumor,maximum diameter,border,cystic degeneration,calcification,the degree of peritumoral edema and CDFI blood flow classification,and the correlation between ultrasonographic features and immunohistochemical results such as Ki-67 and isocitrate dehydrogenase 1 (IDH1) was analyzed.Results Univariate analysis showed that the border,peritumoral edema and CDFI blood flow were significantly different between negative and positive Ki-67 expression patients (P< 0.01).The border,cystic degeneration and peritumoral edema were distinct between negative and positive IDH1 patients (P<0.01).Multivariate analysis showed that gliomas with clear border,high degree of peritumoral edema and rich CDFI blood flow tended to show positive Ki-67 expression,while those with vague border,low degree of peritumoral edema were frequently accompanied by positive IDH1 expression.Conclusion The border of gliomas,peritumoral edema and blood flow showed on ultrasonography may predict the expression of Ki-67 and IDH1.It is of great significance for preliminary evaluation on biological behaviors and prognosis of the tumors before surgical operation.
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Objective To investigate the value of perfusion imaging in predicting the status of isocitrate dehydrogenase 1 (IDH1) in glioblastoma.Methods Retrospectively studied 30 patients with glioblastoma multiforme with wild type IDH1 (IDHw) and 30 patients with mutant IDH1 (IDH1m) in Department of Neurosurgery,Shanxi Provincial People's Hospital from September 2014 to February 2016.Ktrans and Ve within the enhancing portion of each tumor were measured by using DCE-MRI data.rCBF and rCBV within the enhancing portion of each tumor were measured by using DSC-MRI.Four parameters were represented as (x) ± s,each of the 4 parameters was compared between patients with wild type IDH1 and mutant IDH1 by using the t-test.The performance in discriminating between the two entities was evaluated by using receiver operating characteristic analysis.Results Ktrans,Ve,rCBF and rCBV inside the enhancing lesion were significantly higher in patients with wild type IDH1 than in those with mutant IDH1.There was a statistically significant difference between IDH1w group and IDH1m group of rCBF value (P < 0.05).The area under the curve for Ktrans,Ve,rCBF,and rCBV inside the enhancing lesion were 0.850,0.873,0.739 and 0.772,respectively.The value of rCBF value of the Ktrans value Ve value of IDH1w was significantly higher than that of IDH1m(P <0.05) in the value of the Ktrans value Ve value of rCBF,the value of the AUC value in rCBV was not significantly different with the combination of the 4 parameters of the diagnostic performance (AUC =0.915).Conclusions Ktrans,Ve,rCBF and rCBV calculated from MRI are useful for predicting the IDH1 mutation status.This method is not only for the classification of brain glioblastoma diagnosis has important value,and in glioblastoma classification is of important value in the preoperative noninvasive evaluation,and it has reference significance for predicting the prognosis of patients.
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Objective@#To investigate the status and prognostic significance of TERT and IDH1/2 genes mutations in diffusely infiltrating gliomas.@*Methods@#Hot spot mutations of TERT and IDH1/2 genes were detected by DNA sequencing in 236 cases of gliomas at West China Hospital from 2012 to 2016, including pilocytic astrocytoma (WHO grade Ⅰ, 16 cases), diffuse astrocytoma and oligodendroglioma (WHO grade Ⅱ, 89 cases), anaplastic astrocytoma and oligodendroglioma (WHO grade Ⅲ, 72 cases) and glioblastoma (WHO grade Ⅳ, 59 cases). The prognostic significance of TERT and IDH1/2 hot spot mutations was evaluated.@*Results@#No IDH or TERT mutations were detected in pilocytic gliomas. TERT promoter mutation frequency was higher in patients aged ≥40 years(60.8%, 93/153) than in patients aged <40 years (32.8%, 22/67; P<0.01). TERT promoter mutation rate was also significantly higher in oligodendroglioma (87.5% , 56/64) than that in astrocytoma(37.8%, 59/156; P<0.01). Young age (<40 years), oligodendroglioma and IDH1 mutation were favorable prognostic factors for diffusely infiltrating astrocytic and oligodendroglial tumors. TERT mutation alone was not of prognostic significance. Diffusely infiltrating astrocytic and oligodendroglial tumors were divided into four molecular subtypes according to TERT and IDH1 mutation status: IDH(+ )/TERT(+ ), IDH(+ )/TERT(-), IDH(-)/TERT(-) and IDH(-)/TERT(+ ). There was significant prognostic difference among the 4 subtypes.@*Conclusions@#Combined IDH and TERT gene mutation analysis may be useful for prognostic subgrouping. Notably, IDH1 wild-type cases can be further subdivided into TERT(+ ) or (-) subgroups with significant prognostic difference.
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Objective: To explore the association between isocitrate dehydrogenase (IDH) gene mutation and prognosis of patients with gliomas by Meta-analysis. Methods: A computer-based online search was performed to select the literatures on IDH gene mutation and prognosis of patients with gliomas published in China and abroad by using PubMed, the Cochrance Library, EMbase, Chinese Journal Full-text Database (CNKI), Wanfang database, VIP database and Chinese BioMedical Literature on disc. For the literature that met the inclusion criteria, the basic information was extracted, and the methodological quality evaluation was performed. Then Meta-analysis was performed by using STATA 12.0 and Review Manager 5.3 softwares. Results: A total of twelve studies were included, involving 1 905 patients with gliomas. Meta-analysis results showed that the overall survival (OS) of patients with IDH gene mutation was significantly longer than that of non-mutation patients [hazard ratio (HR) = 0.43, 95% confidence interval (CI) = 0.35-0.52, P < 0.000 1], while the progression-free survival (PFS) of patients with IDH gene mutation was significantly longer than that of non-mutation patients (HR = 0.48, 95% CI = 0.38-0.61, P < 0.000 1). Conclusion: IDH gene mutation is closely related to the prognosis of patients with gliomas, suggesting that it may be a favorable factor for the prognosis of patients with gliomas.
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Objective The objective of this study was to investigate the effect of systemic inflammation response index(SI-RI)on clinical prognosis of patients with glioma and its relationship with dehydrogenase 1(IDH1)mutation.Methods Eighty patients with glioma who underwent surgery in the department of Neurosurgery were collected from August 2006 to November 2015.The best clinical cutoff value for SIRI was determined using operating characteristic curve(ROC)and grouped accordingly.The Kaplan-Meier and log-rank methods were used to analyze the postoperative survival of the two groups of patients.The independent clinical prognos-tic factors were evaluated by Cox′s proportional hazards regression model.The IDH1 mutation was detected by immunohistochemistry and DNA sequencing.Results SIRI was an independent prognostic factor of glioma,and the best clinical cutoff value was 0.67 × 109/L.The median progress free survival(PFS)and overall survival(OS)of patients with low SIRI group were 46.90 months and 57.90 months,and the median PFS and OS of patients with high SIRI group were 31.78 months and 47.22 months,respectively.There was significant difference between the two groups in the median survival time of PFS and OS by log-rank method(P<0.05).Univa-riate and multivariate analysis showed that age,gender,type of surgery,WHO stage,SIRI and IDH1 mutation were the independent prognostic factors in neurostein stromal tumors.Patients with low-grade SIRI and glioma with IDH1 mutation have a better prognosis than other conditions.Conclusion SIRI is an independent prognostic factor of glioma.It is simple,convenient and reproducible,and may be used to predict the prognosis of patients with glioma.
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Isocitrate dehydrogenase (IDH) is an important metabolic enzyme involved in the tricarboxylic acid cycle. In recent years, IDH has become the most frequent tumor metabolic mutation gene in acute myeloid leukemia (AML). Unlike other mutations, it gains new functions which can catalyze α-ketoglutarate (α-KG) to produce the tumor metabolite D-2-hydroxyglutarate (D-2-HG). The increased D-2-HG in the cells can affect bone marrow cell differentiation and proliferation and induce myeloid tumors by the genetic controls, cell signaling, bone marrow microenvironment changes and other ways. Currently, the new IDH2 inhibitors AG-221 and IDH1 inhibitors become the first-line drugs targeted therapy in patients with IDH mutations in AML. This paper focused on the mutation of IDH and its mutation characteristics, the formation mechanism of AML by the metabolites produced by mutation, the metabolic pathway of tumor metabolites and the research progress of IDH inhibitors.