Impaired Neurovascular Coupling and Increased Functional Connectivity in the Frontal Cortex Predict Age-Related Cognitive Dysfunction.
Peter MukliCamila Bonin PintoCameron D OwensTamas CsipoAgnes LipeczZsofia SzarvasAnna PeterfiAna Clara da Costa Pinaffi LangleyJordan HoffmeisterFrigyes Samuel RaczJonathan W PerryStefano TarantiniAdam Nyul-TothFarzaneh A SorondYuan YangJudith A JamesAngelia C KirkpatrickCalin I ProdanPeter TothJuliette GalindoAndrew W GardnerWilliam E SonntagAnna CsiszarZoltan I UngvariAndriy YabluchanskiyPublished in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2023)
Impaired cerebrovascular function contributes to the genesis of age-related cognitive decline. In this study, the hypothesis is tested that impairments in neurovascular coupling (NVC) responses and brain network function predict cognitive dysfunction in older adults. Cerebromicrovascular and working memory function of healthy young (n = 21, 33.2±7.0 years) and aged (n = 30, 75.9±6.9 years) participants are assessed. To determine NVC responses and functional connectivity (FC) during a working memory (n-back) paradigm, oxy- and deoxyhemoglobin concentration changes from the frontal cortex using functional near-infrared spectroscopy are recorded. NVC responses are significantly impaired during the 2-back task in aged participants, while the frontal networks are characterized by higher local and global connection strength, and dynamic FC (p < 0.05). Both impaired NVC and increased FC correlate with age-related decline in accuracy during the 2-back task. These findings suggest that task-related brain states in older adults require stronger functional connections to compensate for the attenuated NVC responses associated with working memory load.
Keyphrases
- working memory
- functional connectivity
- resting state
- cognitive decline
- transcranial direct current stimulation
- attention deficit hyperactivity disorder
- physical activity
- mild cognitive impairment
- white matter
- room temperature
- brain injury
- multiple sclerosis
- subarachnoid hemorrhage
- network analysis
- cerebral ischemia