Spring til hovednavigation
Spring til søgning
Spring til hovedindhold
Københavns Universitets forskningsportal Forside
Hjælp og OSS
Dansk
English
Forside
Profiler
Publikation
Forskningsenheder
Presse/medier
Aktiviteter
Priser
???studenttheses???
Forskningsdatasæt
Søg efter ekspertise, navn eller tilknytning
Cerebral haemodynamic response or excitability is not affected by sildenafil
Christina Kruuse
,
Adam E Hansen
,
Henrik B W Larsson
,
Martin Lauritzen
, Egill Rostrup
Institut for Klinisk Medicin
Institut for Klinisk Medicin
Neuronal Signalling
Damage and Repair
22
Citationer (Scopus)
Oversigt
Fingeraftryk
Fingeraftryk
Dyk ned i forskningsemnerne om 'Cerebral haemodynamic response or excitability is not affected by sildenafil'. Sammen danner de et unikt fingeraftryk.
Sorter
Vægt
Alfabetisk
Keyphrases
3T MR
11%
Blood Pressure
11%
Cerebral Arteries
11%
Cerebral Hemodynamics
100%
Cerebrovascular Reactivity
11%
Checkerboard
11%
CO2 Inhalation
11%
Concurrent Effect
11%
Cyclic GMP
11%
Excitability
100%
Functional Magnetic Resonance Imaging
22%
Headache
66%
Healthy Women
11%
Heart Rate
11%
Hypercapnia
11%
Imaging Response
11%
Latency
11%
Maximal Amplitude
11%
Migraine
11%
MR Scanners
11%
Neuronal Excitability
11%
Neuronal Responses
11%
P100
11%
Phosphodiesterase Type 5 Inhibitors
11%
Potential Measure
11%
Sildenafil
100%
Viagra
11%
Visual Evoked Potentials
11%
Visual Response
11%
Visual Stimulation
11%
Visual-evoked Potential Amplitude
11%
Visual-evoked Potential Latency
11%
Medicine and Dentistry
Blood Pressure
10%
Carbon Dioxide
10%
Cyclic GMP
10%
Excitability
100%
Exhalation
10%
Functional Magnetic Resonance Imaging
20%
Headache
60%
Hemodynamic
100%
Hypercapnia
10%
Hypercapnic Response
20%
Ingestion
10%
Migraine
10%
Phosphodiesterase V Inhibitor
10%
Side Effect
10%
Sildenafil
100%
Visual Evoked Potential
20%
Visual Stimulation
10%
Neuroscience
Cyclic Guanosine Monophosphate
10%
Excitability
100%
Functional Magnetic Resonance Imaging
20%
Headache
60%
Migraine
10%
Neuronal Excitability
10%
Phosphodiesterase V
10%
Sildenafil
100%
Visual Evoked Potential
20%