Medicine and Dentistry
Child
100%
Growth
100%
Pregnancy
100%
Endothelial Nitric Oxide Synthase
100%
Nitric Oxide Synthase
100%
Female
66%
Blood Vessel Reactivity
50%
Life
33%
Transgenic Mouse
33%
Parity
33%
Postnatal Growth
33%
Acetylcholine
16%
Vasodilatation
16%
In Vitro
16%
Calcium Ion
16%
Adaptation
16%
Pre-Eclampsia
16%
Breed
16%
Adult
16%
Male
16%
Carotid Artery
16%
Phenylephrine
16%
Growth Retardation
16%
INIS
knock-out reactions
100%
mice
100%
growth
100%
pregnancy
100%
nitric oxide
100%
offsprings
100%
females
50%
transgenic mice
25%
comparative evaluations
25%
reactivity
25%
programming
25%
parity
25%
humans
12%
in vitro
12%
data
12%
risks
12%
acetylcholine
12%
environment
12%
adults
12%
modulation
12%
length
12%
contraction
12%
males
12%
bypasses
12%
carotid arteries
12%
tensile properties
12%
Immunology and Microbiology
Growth
100%
Knockout Mouse
100%
Pregnancy
100%
Progeny
100%
Blood Vessel Reactivity
60%
Mouse
40%
Transgenic Mouse
40%
Life
40%
Parity
40%
Postnatal Growth
40%
Length
20%
Wild Type
20%
Modulation
20%
Adaptation
20%
Breed
20%
Carotid Artery
20%
Tension
20%
Vasodilatation
20%
Biochemistry, Genetics and Molecular Biology
Growth
100%
Knockout Mouse
100%
Progeny
100%
Pregnancy
100%
Nitric Oxide Synthase
100%
Blood Vessel Reactivity
37%
Transgenic Mouse
25%
Mouse
25%
Life
25%
Parity
25%
Postnatal Growth
25%
Modulation
12%
Length
12%
Wild Type
12%
Breed
12%
Adaptation
12%
Vasodilatation
12%
Acetylcholine
12%
Phenylephrine
12%
Tension
12%
Agricultural and Biological Sciences
Pregnancy
100%
Mus musculus
100%
Endothelial Nitric Oxide Synthase
100%
Nitric Oxide Synthase
100%
Females
66%
Environment
16%
Humans
16%
Adult
16%
Male
16%
Mothers
16%
Breed
16%
Risk
16%
Diameter
16%
Length
16%
Carotid Artery
16%
Phenylephrine
16%
Pups
16%
Pharmacology, Toxicology and Pharmaceutical Science
Knockout Mouse
100%
Nitric Oxide Synthase
100%
Endothelial Nitric Oxide Synthase
100%
Mouse
33%
Transgenic Mouse
33%
Acetylcholine
16%
Calcium Ion
16%
Preeclampsia
16%
Phenylephrine
16%
Growth Retardation
16%
Keyphrases
Tensile Resistance
16%
Growth Deficiency
16%
Optimal Diameter
16%
Length-tension
16%