KATP channels modulate cerebral blood flow and oxygen delivery during isocapnic hypoxia in humans
Key points ATP‐sensitive K+ (KATP) channels mediate hypoxia‐induced cerebral
vasodilatation and hyperperfusion in animals. We tested whether KATP channels blockade …
vasodilatation and hyperperfusion in animals. We tested whether KATP channels blockade …
KATP channels modulate cerebral blood flow and oxygen delivery during isocapnic hypoxia in humans.
MP Rocha, MO Campos, JD Mattos… - The Journal of …, 2020 - europepmc.org
Abstract ATP-sensitive K+(K ATP) channels mediate hypoxia-induced cerebral
vasodilatation and hyperperfusion in animals. We tested whether K ATP channels blockade …
vasodilatation and hyperperfusion in animals. We tested whether K ATP channels blockade …
KATP channels modulate cerebral blood flow and oxygen delivery during isocapnic hypoxia in humans
MP Rocha, MO Campos, JD Mattos… - The Journal of …, 2020 - pubmed.ncbi.nlm.nih.gov
Key points ATP-sensitive K+(K ATP) channels mediate hypoxia-induced cerebral
vasodilatation and hyperperfusion in animals. We tested whether K ATP channels blockade …
vasodilatation and hyperperfusion in animals. We tested whether K ATP channels blockade …
KATP channels modulate cerebral blood flow and oxygen delivery during isocapnic hypoxia in humans
MP Rocha, MO Campos, JD Mattos… - The Journal of …, 2020 - research.regionh.dk
Abstract KEY POINTS: ATP-sensitive K+(KATP) channels mediate hypoxia-induced cerebral
vasodilatation and hyperperfusion in animals. We tested whether KATP channels blockade …
vasodilatation and hyperperfusion in animals. We tested whether KATP channels blockade …