| Literature DB >> 32533642 |
Ahmed A Bahrani1,2,3, Weikai Kong1, Yu Shang4, Chong Huang1, Charles D Smith2,5,6, David K Powell5,7, Yang Jiang2,5,8, Abner O Rayapati9, Gregory A Jicha2,5,6, Guoqiang Yu1.
Abstract
Diagnosis of cerebrovascular disease (CVD) at early stages is essential for preventing sequential complications. CVD is often associated with abnormal cerebral microvasculature, which may impact cerebral-autoregulation (CA). A novel hybrid near-infrared diffuse optical instrument and a finger plethysmograph were used to simultaneously detect low-frequency oscillations (LFOs) of cerebral blood flow (CBF), oxy-hemoglobin concentration ([HbO2 ]), deoxy-hemoglobin concentration ([Hb]) and mean arterial pressure (MAP) in older adults before, during and after 70° head-up-tilting (HUT). The participants with valid data were divided based on Framingham risk score (FRS, 1-30 points) into low-risk (FRS ≤15, n = 13) and high-risk (FRS >15, n = 11) groups for developing CVD. The LFO gains were determined by transfer function analyses with MAP as the input, and CBF, [HbO2 ] and [Hb] as the outputs (CA ∝ 1/Gain). At resting-baseline, LFO gains in the high-risk group were relatively lower compared to the low-risk group. The lower baseline gains in the high-risk group may attribute to compensatory mechanisms to maintain stronger steady-state CAs. However, HUT resulted in smaller gain reductions in the high-risk group compared to the low-risk group, suggesting weaker dynamic CAs. LFO gains are potentially valuable biomarkers for early detection of CVD based on associations with CAs.Entities:
Keywords: cerebral blood flow; cerebral blood oxygenation; cerebral-autoregulation; cerebrovascular disease; diffuse correlation spectroscopy; head-up-tilting; low-frequency oscillation; near-infrared spectroscopy
Mesh:
Year: 2020 PMID: 32533642 PMCID: PMC8824485 DOI: 10.1002/jbio.202000073
Source DB: PubMed Journal: J Biophotonics ISSN: 1864-063X Impact factor: 3.207