Moreover, this is the first study that implicates T - type channels in the regulation of blood flow in
human cerebral arteries.
The findings reveal that each of the channel subtypes in
human cerebral arteries play a different role in the regulation of arterial tone.
Not exact matches
After an ischemic stroke in the middle
cerebral artery — one of the most common types of stroke in
humans — the animal models showed much lower overall fluid intake but increased preference for alcohol over water when they did drink.
To uncover the identities and roles of these channels in
humans, Donald Welsh and colleagues from the University of Calgary investigated smooth muscle cells from
cerebral arteries harvested from patients undergoing brain surgery.