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Maternal caffeine intake and DNA methylation in newborn cord blood
Kristen J. Polinski
, Alexandra Purdue-Smithe
, Sonia L. Robinson
, Sifang Kathy Zhao
, Karen C. Schliep
, Robert M. Silver
,
Weihua Guan
, Enrique F. Schisterman
, Sunni L. Mumford
, Edwina H. Yeung
Research output
:
Contribution to journal
›
Article
›
peer-review
8
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Scopus citations
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Keyphrases
DNA Methylation (DNAm)
100%
Cord Blood
100%
Caffeine
100%
Maternal Caffeine Intake
100%
False Discovery Rate
66%
Neonate
50%
Caffeinated Beverages
33%
Beverage Consumption
33%
Caffeine Metabolites
33%
Caffeine Intake
33%
Theobromine
33%
Paraxanthine
33%
Leukocytes
16%
Aspirin
16%
Epigenetic Mechanisms
16%
Methylation
16%
Adverse childhood Experiences
16%
Multivariable
16%
During Pregnancy
16%
Guanine
16%
DNA Methylation Pattern
16%
Prenatal Exposure
16%
Metabolic Outcomes
16%
Heart Rate Correction
16%
Non-associated
16%
Methylation Difference
16%
Cytosine
16%
CpG Sites
16%
Singleton
16%
BeadChip
16%
Before Pregnancy
16%
Week of Gestation
16%
Daily Diary
16%
DNA Methylation Age
16%
Preconception Exposure
16%
GLIS3
16%
Robust Linear Regression
16%
Benjamini-Hochberg
16%
MethylationEPIC
16%
Blood Buffy Coat
16%
Hochberg's Method
16%
RAB2A
16%
Metabolite Concentrations
16%
Medicine and Dentistry
Cord Blood
100%
Neonatal Infant
100%
DNA Methylation
100%
Neonates
50%
Metabolite
50%
Paraxanthine
33%
Methylation
33%
Theobromine
33%
Acetylsalicylic Acid
16%
Leukocyte
16%
Prenatal Exposure
16%
Epigenetic Mechanism
16%
Linear Regression Analysis
16%
Blood Buffy Coat
16%
Cytosine
16%
Guanine
16%
Reproductive Medicine
16%
Pharmacology, Toxicology and Pharmaceutical Science
Theobromine
100%
Paraxanthine
100%
Acetylsalicylic Acid
50%
Prenatal Exposure
50%
Cytosine
50%
Guanine
50%
Food Science
DNA Methylation
100%