An origin of carotid vasodilation extends along the full extent of the parasympathetic parvicellular reticular region in the rat brainstem

Y Takemoto - Autonomic Neuroscience, 2021 - Elsevier
During grooming in rats, cranial parasympathetic activation leads to increased carotid artery
blood flow, but the brainstem origin of this vasodilation signal is poorly understood. The aim …
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[引用][C] An origin of carotid vasodilation extends along the full extent of the parasympathetic parvicellular reticular region in the rat brainstem

Y Takemoto - Autonomic Neuroscience, 2021 - cir.nii.ac.jp
An origin of carotid vasodilation extends along the full extent of the parasympathetic
parvicellular reticular region in the rat brainstem | CiNii Research CiNii 国立情報学研究所 学術 …

An origin of carotid vasodilation extends along the full extent of the parasympathetic parvicellular reticular region in the rat brainstem.

Y Takemoto - Autonomic Neuroscience: Basic & Clinical, 2021 - europepmc.org
During grooming in rats, cranial parasympathetic activation leads to increased carotid artery
blood flow, but the brainstem origin of this vasodilation signal is poorly understood. The aim …

An origin of carotid vasodilation extends along the full extent of the parasympathetic parvicellular reticular region in the rat brainstem

Y Takemoto - Autonomic neuroscience: basic & clinical, 2021 - pubmed.ncbi.nlm.nih.gov
During grooming in rats, cranial parasympathetic activation leads to increased carotid artery
blood flow, but the brainstem origin of this vasodilation signal is poorly understood. The aim …

An origin of carotid vasodilation extends along the full extent of the parasympathetic parvicellular reticular region in the rat brainstem

Y Takemoto - Autonomic Neuroscience: Basic and …, 2021 - autonomicneuroscience.com
During grooming in rats, cranial parasympathetic activation leads to increased carotid artery
blood flow, but the brainstem origin of this vasodilation signal is poorly understood. The aim …