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Identifying predictors of glioma evolution from longitudinal sequencing
Quanhua Mu
, Ruichao Chai
, Bo Pang
, Yingxi Yang
, Hanjie Liu
, Zheng Zhao
, Zhaoshi Bao
, Dong Song
, Zhihan Zhu
, Mengli Yan
, Biaobin Jiang
, Zongchao Mo
, Jihong Tang
,
Jason K. Sa
, Hee Jin Cho
, Yuzhou Chang
, Kaitlin Hao Yi Chan
, Danson Shek Chun Loi
, Sindy Sing Ting Tam
, Aden Ka Yin Chan
Angela Ruohao Wu, Zhaoqi Liu, Wai Sang Poon, Ho Keung Ng, Danny Tat Ming Chan, Antonio Iavarone
*
, Do Hyun Nam
*
, Tao Jiang
*
, Jiguang Wang
*
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*
Corresponding author for this work
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peer-review
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Keyphrases
Glioma
100%
Hypermutation
100%
Cancer Evolution
80%
Working Diagnosis
60%
Longitudinal Data
40%
Glioma Subtypes
40%
Diffuse Glioma
40%
Data Versioning
40%
Multivariate Analysis
20%
Sequence Data
20%
Vulnerability
20%
Integrated Features
20%
Cancer Progression
20%
C-Myc
20%
Genomic Regions
20%
Molecular Features
20%
Clinical Data
20%
Patient-derived
20%
Ki-67 Expression
20%
Machine Learning Models
20%
Chemotherapy Resistance
20%
Initial Diagnosis
20%
Cancer Therapeutics
20%
Transcriptionally Active
20%
Recurrent Tumor
20%
Mismatch Repair Genes
20%
Clinical High Risk
20%
Microvascular Proliferation
20%
Glioma Cell Lines
20%
Isogenic
20%
Clonal Evolution
20%
Tumor Evolution
20%
Tumor Necrosis
20%
Molecular Predictors
20%
CDKN2A Deletion
20%
Targeting Cancer
20%
IDH mutation
20%
Early Predictors
20%
Temozolomide
20%
Post-progression Survival
20%
Longitudinal Trajectories
20%
Adult Diffuse Glioma
20%
Induced mutagenesis
20%
Precision Oncology
20%
Temozolomide Resistance
20%
Cancer Dynamics
20%
Open Chromatin
20%
Target Activation
20%
IDH-mutant Glioma
20%
Gliomaspheres
20%
Biochemistry, Genetics and Molecular Biology
Dynamics
100%
Multivariate Analysis
100%
Mutagenesis
100%
Drive
100%
DNA Mismatch Repair
100%
Gene Repair
100%
Clonal Evolution
100%
Genomics
100%
Immunology and Microbiology
Mutagenesis
100%
Dynamics
100%
Mismatch Repair
100%
Glioma Cell Line
100%
Clonal Evolution
100%
Medicine and Dentistry
Ganglioglioma
100%
Malignant Neoplasm
55%
Recurrent Disease
22%
Temozolomide
22%
Multivariate Analysis
11%
Neoplasm
11%
Gene Repair
11%
Oncology
11%
Drive
11%
Cancer Growth
11%
Tumor Recurrence
11%
Tumor Necrosis
11%
Mutagenesis
11%
Glioma Cell Line
11%
DNA Mismatch Repair
11%
Neuroscience
Temozolomide
100%
Cell Line
50%
Necrosis
50%
DNA Mismatch Repair
50%
Mutagenesis
50%