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QuanQiu Wang
Publication Activity (10 Years)
Years Active: 2012-2022
Publications (10 Years): 6
Top Topics
Medical Literature
Automatic Extraction
Knowledge Base
Rheumatoid Arthritis
Top Venues
J. Biomed. Informatics
BMC Bioinform.
AMIA
Bioinform.
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Publications
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Pingjian Ding
,
Yiheng Pan
,
QuanQiu Wang
,
Rong Xu
Prediction and evaluation of combination pharmacotherapy using natural language processing, machine learning and patient electronic health records.
J. Biomed. Informatics
133 (2022)
QuanQiu Wang
,
Rong Xu
CoMNRank: An integrated approach to extract and prioritize human microbial metabolites from MEDLINE records.
J. Biomed. Informatics
109 (2020)
QuanQiu Wang
,
Rong Xu
Drug repositioning for prostate cancer: using a data-driven approach to gain new insights.
AMIA
(2017)
QuanQiu Wang
,
Thomas McCormick
,
Nicole Ward
,
Kevin Cooper
,
Ruzica Conic
,
Rong Xu
Combining mechanism-based prediction with patient-based profiling for psoriasis metabolomics biomarker discovery.
AMIA
(2017)
QuanQiu Wang
,
Rong Xu
MetabolitePredict: A de novo human metabolomics prediction system and its applications in rheumatoid arthritis.
J. Biomed. Informatics
71 (2017)
Rong Xu
,
QuanQiu Wang
Towards understanding brain-gut-microbiome connections in Alzheimer's disease.
BMC Syst. Biol.
10 (S-3) (2016)
Rong Xu
,
QuanQiu Wang
PhenoPredict: A disease phenome-wide drug repositioning approach towards schizophrenia drug discovery.
J. Biomed. Informatics
56 (2015)
QuanQiu Wang
,
Rong Xu
DenguePredict: An Integrated Drug Repositioning Approach towards Drug Discovery for Dengue.
AMIA
(2015)
Rong Xu
,
QuanQiu Wang
tcTKB: an integrated cardiovascular toxicity knowledge base for targeted cancer drugs.
AMIA
(2015)
Rong Xu
,
QuanQiu Wang
Large-scale automatic extraction of side effects associated with targeted anticancer drugs from full-text oncological articles.
J. Biomed. Informatics
55 (2015)
Rong Xu
,
QuanQiu Wang
Combining automatic table classification and relationship extraction in extracting anticancer drug-side effect pairs from full-text articles.
J. Biomed. Informatics
53 (2015)
Rong Xu
,
QuanQiu Wang
Comparing a knowledge-driven approach to a supervised machine learning approach in large-scale extraction of drug-side effect relationships from free-text biomedical literature.
BMC Bioinform.
16 (S-5) (2015)
Rong Xu
,
Li Li
,
QuanQiu Wang
dRiskKB: a large-scale disease-disease risk relationship knowledge base constructed from biomedical text.
BMC Bioinform.
15 (2014)
Rong Xu
,
QuanQiu Wang
Toward creation of a cancer drug toxicity knowledge base: automatically extracting cancer drug-side effect relationships from the literature.
J. Am. Medical Informatics Assoc.
21 (1) (2014)
Rong Xu
,
QuanQiu Wang
Automatic signal extraction, prioritizing and filtering approaches in detecting post-marketing cardiovascular events associated with targeted cancer drugs from the FDA Adverse Event Reporting System (FAERS).
J. Biomed. Informatics
47 (2014)
Rong Xu
,
QuanQiu Wang
Large-scale combining signals from both biomedical literature and the FDA Adverse Event Reporting System (FAERS) to improve post-marketing drug safety signal detection.
BMC Bioinform.
15 (2014)
Rong Xu
,
QuanQiu Wang
Automatic construction of a large-scale and accurate drug-side-effect association knowledge base from biomedical literature.
J. Biomed. Informatics
51 (2014)
Rong Xu
,
QuanQiu Wang
An iterative searching and ranking algorithm for prioritising pharmacogenomics genes.
Int. J. Comput. Biol. Drug Des.
6 (1/2) (2013)
Rong Xu
,
QuanQiu Wang
Large-scale extraction of accurate drug-disease treatment pairs from biomedical literature for drug repurposing.
BMC Bioinform.
14 (2013)
Rong Xu
,
Li Li
,
QuanQiu Wang
Towards building a disease-phenotype knowledge base: extracting disease-manifestation relationship from literature.
Bioinform.
29 (17) (2013)
Rong Xu
,
QuanQiu Wang
A semi-supervised approach to extract pharmacogenomics-specific drug-gene pairs from biomedical literature for personalized medicine.
J. Biomed. Informatics
46 (4) (2013)
Rong Xu
,
QuanQiu Wang
A knowledge-driven conditional approach to extract pharmacogenomics specific drug-gene relationships from free text.
J. Biomed. Informatics
45 (5) (2012)