Kyle Armstrong

Cerebral Autoregulation of Blood Velocity and Volumetric Flow During Steady-State Changes in Arterial Pressure

The validity of using transcranial Doppler measurement of cerebral blood flow velocity (CBFV) to assess cerebral autoregulation (CA) still is a concern. This study measured CBFV in the middle cerebral artery using transcranial Doppler and volumetric cerebral blood flow (CBF) in the internal carotid artery (ICA) using color-coded duplex ultrasonography to assess CA during steady-state changes in mean arterial pressure (MAP). Twenty-one healthy adults participated. MAP was changed stepwise by intravenous infusion of sodium nitroprusside and phenylephrine. Changes in CBFV, CBF, cerebrovascular resistance (CVR=MAP/CBF), or cerebrovascular resistance index (CVRi=MAP/CBFV) were measured to assess CA by linear regression analysis. The relationship between changes in ICA diameter and MAP was assessed. All values were normalized as percentage changes from baseline. Drug-induced changes in MAP were from −26% to 31%. Changes in CBFV and CVRi in response to MAP were linear, and the regression slopes were similar between middle cerebral artery and ICA. However, CBF in ICA remained unchanged despite large changes in MAP. Consistently, a steeper slope of changes in CVR relative to CVRi was observed (0.991 versus 0.804; P<0.05). The ICA diameter changed inversely in response to MAP (r=−0.418; P<0.05). These findings indicate that CA can be assessed with transcranial Doppler measurements of CBFV and CVRi in middle cerebral artery. However, it is likely to be underestimated when compared with the measurements of CBF and CVR in ICA. The inverse relationship between changes in ICA diameter and MAP suggests that large cerebral arteries are involved in CA.

Dynamic cerebral autoregulation and tissue oxygenation in amnestic mild cognitive impairment.

BACKGROUND Vascular disease and dysfunction are associated with the higher risk of Alzheimers disease hypothetically due to cerebral hypoperfusion. Brain perfusion is protected by cerebral autoregulation, which, under normal conditions, maintains a constant cerebral blood flow and brain tissue oxygenation. OBJECTIVE To determine whether dynamic regulation of cerebral blood flow and tissue oxygenation is impaired in patients with amnestic mild cognitive impairment (aMCI). METHODS Twenty-seven patients with aMCI and 15 control subjects with normal cognitive function underwent the measurements of cerebral hemodynamics, brain MR imaging, and neurocognitive assessment. Dynamic regulation of cerebral blood flow and tissue oxygenation were assessed by transfer function analysis of changes in mean blood pressure (MBP), normalized cerebral blood flow velocity (CBFV%), and cerebral tissue oxygenation index (TOI) at baseline and during a sit-stand maneuver. RESULTS Patients with aMCI demonstrated lower cognitive performance in memory and executive function, accompanied by smaller entorhinal cortex volumes. At baseline, cerebral TOI was lower in patients with aMCI than in control subjects. Lower cerebral TOI was also correlated with lower cognitive performance in memory and executive function in all subjects. Transfer function gain and phase between MBP and CBFV% and between CBFV% and cerebral TOI were not different between the groups. Within aMCI patients, greater oscillations of cerebral TOI and higher transfer function gain between cerebral TOI and CBFV% were associated with the lower scores on delayed recall. CONCLUSION Dynamic regulation of cerebral tissue oxygenation is associated with neurocognitive dysfunction in aMCI patients.