David Hill-Eubanks
University of Vermont
H-index: 40
North America-United States
Top articles of David Hill-Eubanks
Distinct potassium channel types in brain capillary pericytes
Biophysical Journal
2024/3/4
Maria Sancho
H-Index: 9
David Hill-Eubanks
H-Index: 19
Protein aggregates containing wild-type and mutant NOTCH3 are major drivers of arterial pathology in CADASIL
The Journal of Clinical Investigation
2024/2/22
Nicolas Dupré
H-Index: 1
David Hill-Eubanks
H-Index: 19
Epidermal growth factor receptors in vascular endothelial cells contribute to functional hyperemia in the brain
International Journal of Molecular Sciences
2023/11/14
Uncoupling of Ca2+ sparks from BK channels in cerebral arteries underlies hypoperfusion in hypertension-induced vascular dementia
Proceedings of the National Academy of Sciences
2023/8/15
Ingo Schiessl
H-Index: 10
David Hill-Eubanks
H-Index: 19
The post‐arteriole transitional zone: a specialized capillary region that regulates blood flow within the CNS microvasculature
2023/3
Intraluminal pressure elevates intracellular calcium and contracts CNS pericytes: role of voltage-dependent calcium channels
Proceedings of the National Academy of Sciences
2023/2/28
Functionally linked potassium channel activity in cerebral endothelial and smooth muscle cells is compromised in Alzheimer’s disease
Proceedings of the National Academy of Sciences
2022/6/28
David Hill-Eubanks
H-Index: 19
Piezo1 is a mechanosensor channel in central nervous system capillaries
Circulation research
2022/5/13
Adenosine signaling activates ATP-sensitive K+ channels in endothelial cells and pericytes in CNS capillaries
Science signaling
2022/3/29
Maria Sancho
H-Index: 9
Masayo Koide
H-Index: 15
Thomas J Heppner
H-Index: 17
David Hill-Eubanks
H-Index: 19
Differential restoration of functional hyperemia by antihypertensive drug classes in hypertension-related cerebral small vessel disease
The Journal of clinical investigation
2021/9/15
Local IP3 receptor–mediated Ca2+ signals compound to direct blood flow in brain capillaries
Science advances
2021/7/21
David Hill-Eubanks
H-Index: 19
PIP2 corrects cerebral blood flow deficits in small vessel disease by rescuing capillary Kir2.1 activity
Proceedings of the National Academy of Sciences
2021/4/27
Electro-Metabolic Sensing Through Capillary ATP-Sensitive K+ Channels and Adenosine to Control Cerebral Blood Flow
bioRxiv
2021/3/13
PIP2 Improves Cerebral Blood Flow in a Mouse Model of Alzheimer’s Disease
Function
2021/3/1
David Hill-Eubanks
H-Index: 19
Contractile pericytes determine the direction of blood flow at capillary junctions
Proceedings of the National Academy of Sciences
2020/10/27
Arash Moshkforoush
H-Index: 7
David Hill-Eubanks
H-Index: 19
PIP2: A critical regulator of vascular ion channels hiding in plain sight
2020/8/25
David Hill-Eubanks
H-Index: 19