Disturbed microcirculation and hyperaemic response in a murine model of systemic inflammation.
Signe Kirk FruekildeChristopher J BaileyKate Lykke LambertsenBettina Hjelm ClausenJasper CarlsenNing-Long XuKim Ryun DrasbekEugenio Gutiérrez-JiménezPublished in: Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism (2022)
Systemic inflammation affects cognitive functions and increases the risk of dementia. This phenomenon is thought to be mediated in part by cytokines that promote neuronal survival, but the continuous exposure to which may lead to neurodegeneration. The effects of systemic inflammation on cerebral blood vessels, and their provision of adequate oxygen to support critical brain parenchymal cell functions, remains unclear. Here, we demonstrate that neurovascular coupling is profoundly disturbed in lipopolysaccharide (LPS) induced systemic inflammation in awake mice. In the 24 hours following LPS injection, the hyperaemic response of pial vessels to functional activation was attenuated and delayed. Concurrently, under steady-state conditions, the capillary network displayed a significant increase in the number of capillaries with blocked blood flow, as well as increased duration of 'capillary stalls'-a phenomenon previously reported in animal models of stroke and Alzheimer's disease pathology. We speculate that vascular changes and impaired oxygen availability may affect brain functions following acute systemic inflammation and contribute to the long-term risk of neurodegenerative changes associated with chronic, systemic inflammation.
Keyphrases
- lps induced
- inflammatory response
- blood flow
- cerebral ischemia
- white matter
- resting state
- subarachnoid hemorrhage
- mild cognitive impairment
- single cell
- toll like receptor
- drug induced
- atrial fibrillation
- liver failure
- brain injury
- functional connectivity
- cognitive impairment
- cognitive decline
- multiple sclerosis
- palliative care
- respiratory failure
- type diabetes
- room temperature
- adipose tissue
- aortic dissection
- metabolic syndrome
- intensive care unit
- high fat diet induced
- cerebral blood flow
- wild type
- mechanical ventilation