Magnetic resonance imaging of cardiovascular function and the brain: is dementia a cardiovascular-driven disease?
A de Roos, J van der Grond, G Mitchell, J Westenberg - Circulation, 2017 - Am Heart Assoc
The proximal aorta acts as a coupling device between heart and brain perfusion, modulating
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …
Magnetic Resonance Imaging of Cardiovascular Function and the Brain
A de Roos, J van der Grond, G Mitchell… - Circulation, 2017 - ingentaconnect.com
The proximal aorta acts as a coupling device between heart and brain perfusion, modulating
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …
Magnetic Resonance Imaging of Cardiovascular Function and the Brain
A de Roos, J van der Grond, G Mitchell, J Westenberg - Circulation, 2017 - cir.nii.ac.jp
抄録< jats: p> The proximal aorta acts as a coupling device between heart and brain
perfusion, modulating the amount of pressure and flow pulsatility transmitted into the …
perfusion, modulating the amount of pressure and flow pulsatility transmitted into the …
[HTML][HTML] Magnetic Resonance Imaging of Cardiovascular Function and the Brain—Is dementia a cardiovascular-driven disease?
A de Roos, J van der Grond, G Mitchell, J Westenberg - Circulation, 2017 - ncbi.nlm.nih.gov
The proximal aorta acts as a coupling device between heart and brain perfusion, modulating
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …
Magnetic Resonance Imaging of Cardiovascular Function and the Brain: Is Dementia a Cardiovascular-Driven Disease?
A de Roos, J van der Grond, G Mitchell, J Westenberg - Circulation, 2017 - europepmc.org
The proximal aorta acts as a coupling device between heart and brain perfusion, modulating
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …
Magnetic Resonance Imaging of Cardiovascular Function and the Brain: Is Dementia a Cardiovascular-Driven Disease?
A de Roos, J van der Grond, G Mitchell… - …, 2017 - pubmed.ncbi.nlm.nih.gov
The proximal aorta acts as a coupling device between heart and brain perfusion, modulating
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …
the amount of pressure and flow pulsatility transmitted into the cerebral microcirculation …