Middle‐Aged and Older Adults with Greater White Matter Hyperintensity Burden Display Attenuated Blood Pressure and Cerebral Blood Velocity Responses During Orthostatic Tilt

Abstract

Cerebral autoregulation (CA) is the process by which the brain maintains adequate blood flow despite sudden changes to perfusion pressure. White matter hyperintensities (WMH) are associated with increased risk of cerebrovascular disease and dementia. This study investigated whether dynamic CA is reduced in cognitively unimpaired middle‐aged and older adults. Additionally, we evaluated dynamic CA and cerebrovascular responses at rest and in response to orthostatic tilt. We hypothesized that CA would be impaired during orthostatic tilt and that diminished blood pressure and cerebral artery blood velocity changes would be associated with greater WMH fraction. We studied 33 middle‐aged and older adults (age = 63 ± 4 y). Intracranial volume (ICV) and WMH lesion volume were measured using a T1 and FLAIR scan, respectively, on a 3T MRI scanner. WMH fraction was calculated as the cube root of (WMH lesion volume/ICV) *100. CA was measured using middle cerebral artery blood velocity (MCAv) from transcranial Doppler ultrasound and beat‐to‐beat mean arterial pressure (MAP) from a finger cuff. Five minutes of data were collected at rest and during 60º orthostatic tilt. Transfer function analysis was used to quantify dynamic CA and reported as gain and phase at low frequency (LF) (0.07‐0.20 Hz). MCAv, MAP and cerebrovascular resistance index (CVRi; calculated as MAP/MCAv) were used to quantify the cerebrovascular response to orthostatic tilt. LF gain was greater at baseline compared to 60º tilt (0.52 cm/s/mmHg vs 0.46 cm/s/mmHg, p < 0.05); however, there were no differences in LF phase between baseline and 60º tilt (29.70 degrees vs 29.42 degrees, p = 0.95). During 60º tilt, MAP and MCAv decreased compared to baseline (MAP: 106 mmHg vs 101 mmHg, p = 0.02; MCAv: 59 cm/s vs 53 cm/s, p < .01). CVRi was higher at 60º tilt compared with baseline (1.90 mmHg/cm/s vs 2.02 mmHg/cm/s, p < 0.01). There were significant inverse associations between the percent change from baseline to 60º tilt in MAP (r = ‐0.4, p = 0.03), MCAv (r = ‐0.39, p = 0.03), but not CVRi (r = 0.13, p = 0.50), and WMH fraction. There were no associations at baseline or 60º tilt between gain (Baseline: r = ‐0.18, p = 0.33; 60º: r = ‐0.31, p = 0.09) or phase (Baseline: r = 0.07, p = 0.71; 60º: r = ‐0.29, p = 0.12) and WMH fraction. Our results indicate that dynamic CA is preserved in cognitively unimpaired adults during tilt. However, individuals with diminished MAP and MCAv responses to orthostatic tilt displayed greater WMH fraction. Future studies are needed to investigate the relationship between blood pressure and cerebral blood flow in individuals with cognitive impairment to further understand the role of cerebral blood flow regulation in the development of cognitive decline.