Cerebral hypoperfusion and cognitive impairment: the pathogenic role of vascular oxidative stress

Alzheimer's disease (AD) and vascular dementia (VaD) are the most frequent causes of cognitive impairment in the elderly. In the pathogenesis of cognitive impairment, the association of neurodegenerative and vascular factors indicates a major role of hemodynamic abnormalities including cerebral hypoperfusion. There is also ample evidence that oxidative stress of vascular origin leads to profound alterations in cerebrovascular regulation and is crucial to cerebrovascular dysfunction in a variety of conditions that result in chronic hypoperfusion of the brain. In rodents, experimental chronic cerebral hypoperfusion (CCH) can be initiated by occlusion of the major arterial supply. This way CCH brings about mitochondrial dysfunction and protein synthesis inhibition. These effects may destroy the balance of antioxidases and reactive oxygen species (ROS) and produce oxidative damage. At the same time, oxidative injury to vascular endothelial cell, glia, and neuron impairs vascular function and neurovascular coupling, which may result in a vicious cycle of further reduction of cerebral perfusion. In clinical cases of severe cognitive dysfunction, vascular risk factors are commonly present, while cerebral hypoperfusion is often associated with vascular oxidative damage. Thus we hypothesize that cerebral hypoperfusion is one of the key factors in the development of cognitive impairment, in which vascular oxidative stress plays a major role. The approaches against cerebrovascular dysfunction, combined with antioxidants and others, might make a promising contribution to the treatment of cognitive impairment.     

Alzheimer's disease is a vasocognopathy: a new term to describe its nature

Considerable evidence now indicates that Alzheimer's disease (AD) is a vascular disorder with neurodegenerative consequences. As a result, AD and vascular dementia (VaD) can each be described as a 'vasocognopathy'. The term better describes the origin of the disease (vaso: vessel/blood flow), its primary effect on a system (-cogno: relating to cognition) and its clinical course (-pathy: disorder). Evidence that AD is a vasocognopathy is partly supported by the following multidisciplinary findings: (1) epidemiologic studies linking AD and vascular risk factors to cerebral hypoperfusion; (2) evidence that AD and vascular dementia (VaD) share practically all reported risk factors; (3) evidence that pharmacotherapy which increases or improves cerebral perfusion lowers AD symptoms; (4) evidence of preclinical detection of AD candidates using regional cerebral perfusion and glucose uptake studies; (5) evidence of overlapping clinical symptoms in AD and VaD; (6) evidence of parallel cerebrovascular and neurodegenerative pathologic markers (including plaques and tangles) in AD and VaD; (7) evidence that cerebral infarction increases AD incidence by 50%; (8) evidence that chronic brain hypoperfusion can trigger hypometabolic, cognitive and neurodegenerative changes typical of AD; (9) evidence that most autopsied AD brains contain cerebrovascular pathology; (10) evidence that mild cognitive impairment (a transition stage for AD) converts to AD or VaD in 48% and 56% of cases, respectively, within several years. The collective evidence presented here poses a powerful argument for the re-classification of AD as a vascular disorder. Re-classification would allow a new strategy that could result in the tactical development and application of genuinely effective treatments, provide earlier diagnosis and reduce AD prevalence by focusing on the root of the problem.     

How do heart disease and stroke become risk factors for Alzheimer's disease?

BACKGROUND: Heart disease and stroke are two of the major leading causes of death and disability in the world. Mainly affecting the elderly population, heart disease and stroke are important risk factors for Alzheimer's disease (AD). METHODS: This review examines the evidence linking chronic brain hypoperfusion (CBH) produced by several types of heart disease and stroke on the development of AD. RESULTS: The evidence indicates a strong association between such risk factors as coronary artery bypass surgery (CABG), atrial fibrillation, aortic/mitral valve damage, hypertension, hypotension, congestive heart failure, cerebrovascular-carotid atherosclerosis, and transient ischemic attacks in producing CBH. In people whose cerebral perfusion is already diminished by their advanced age, further cerebral blood flow reductions from heart-brain vascular-related risk factors, seemingly increases the probability of AD. The evidence also suggests that a neuronal energy crisis brought on by a relentless CBH is responsible for protein synthesis defects that later result in the classic AD neurodegenerative lesions such as the formation of excess beta-amyloid plaques and neurofibrillary tangles. CONCLUSIONS: Knowledge of how heart disease and stroke can progress to AD should provide a better understanding of the physiopathology characteristic of AD and also target more precise therapy in preventing, controlling or reversing this dementia.     

Vascular cognitive deterioration and stroke

Vascular cognitive impairment, the recent modification of the terminology related to vascular burden of the brain, reflects the all-encompassing effects of vascular disease or lesions on cognition. It incorporates the complex interactions between vascular aetiologies, risk factors and cellular changes within the brain and cognition. The concept covers the frequent poststroke cognitive impairment and dementia, as well as cerebrovascular disease (CVD) as the second most common factor related to dementia. CVD as well as vascular risk factors including arterial hypertension, history of high cholesterol, diabetes or forms of heart disease are independently associated with an increased risk of cognitive impairment and dementia. Traditional vascular risk factors and stroke are also independent factors for the clinical presentation of Alzheimer's disease (AD). In addition to these vascular factors, CVD/strokes, infarcts and white-matter lesions may trigger and modify the progression of AD as the most common cause of neurodegenerative dementia. The main subtypes of previously defined vascular dementia (VaD) include the cortical VaD or multi-infarct dementia also referred as poststroke VaD, subcortical ischaemic vascular disease and dementia or small-vessel dementia and strategic-infarct dementia. Whilst CVD is preventable and treatable, it is clearly a major factor in the prevalence of cognitive impairment in the elderly worldwide.     

Evidence of neurodegeneration in obstructive sleep apnea: Relationship between obstructive sleep apnea and cognitive dysfunction in the elderly

The incidence of dementia and obstructive sleep apnea (OSA) increases with age. Late‐onset Alzheimer's disease (AD) is an irreversible neurodegenerative disease of the elderly characterized by amyloid β (Aβ) plaques and neurofibrillary tangles. The disease involves widespread synaptic loss in the neocortex and the hippocampus. Rodent and clinical studies suggest that OSA impairs the structural integrity of several brain regions, including the medial temporal lobe. Indeed, hypoxia, hypertension, hypoperfusion, endothelial dysfunction, inflammation, and oxidative stress noted in OSA patients also occur in AD patients. This Review highlights pathological commonality, showing that OSA upregulates Aβ, tau hyperphosphorylation, and synaptic dysfunction. Indeed, OSA and hypertension trigger hypoperfusion and hypometabolism of brain regions, including cortex and hippocampus. Several studies show that hypertension‐driven brain damage and pathogenic mechanisms lead to an Aβ increase. The pathophysiological mechanism by which OSA enhances hypertension may be linked to sympathoexcitation, oxidative stress, and endothelial dysfunction. Strong pathophysiological similarities that exist between OSA and AD are underscored here. For example, the hippocampus is negatively impacted in both OSA and AD. OSA promotes hippocampal atrophy, which is associated with memory impairment. Cognitive impairment, even in the absence of manifest dementia, is an important independent predictor of mortality. However, several pathophysiological mechanisms in OSA are reversible with appropriate therapy. OSA, therefore, is a modifiable risk factor of cognitive dysfunction, and treating OSA prior to mild cognitive impairment may be an effective prevention strategy to reduce risk for cognitive decline and AD in middle‐aged persons and the elderly. © 2015 Wiley Periodicals, Inc.     

Alzheimer's disease prevalence can be lowered with non-invasive testing

Cardiovascular and cerebrovascular disease are reported to be major risk factors to Alzheimer's disease (AD). These risk factors mainly affect the elderly (over age 60) and previously were believed to only promote vascular dementia (VaD). Cardiovascular and cerebrovascular pathology involving structural lesions of the heart and carotid or vertebral artery stenosis stemming from intima media thickening or vessel plaque formation can insidiously reduce blood flow to the brain. Since heart and carotid artery disease are common findings in elderly patients and can provoke chronic cerebral hypoperfusion, we submit that individuals with even very mild memory complaints should undergo screening using echocardiography and carotid Doppler ultrasound. These non-invasive, safe, cost-effective ultrasound techniques can often detect correctable or treatable early lesions involving the carotid arteries and the heart that contribute to cerebral hypoperfusion. Inasmuch as cerebral hypoperfusion can be a pathophysiologic trigger of AD, its prevention or attenuation should tangibly reverse or at least delay the onset and impact of severe cognitive meltdown. This clinical approach may have an important impact in reducing the number of new AD and VaD cases and lessen the catastrophic socio-economic burden these dementias are expected to have on the US healthcare system in the near future.     

Vascular risk factors and Alzheimer's disease

Vascular cognitive impairment risk factors include stroke, hypertension, diabetes and atherosclerosis. In the elderly, vascular risk factors occur in the presence of high levels of amyloid in the aging brain. Stroke alters the clinical expression of a given load of Alzheimer's disease (AD) pathology. Experimentally, large vessel infarcts or small striatal infarcts are larger in the presence of amyloid. Patients with minor cerebral infarcts and moderate AD lesions will develop the clinical manifestations of dementia. Moreover, there is also an association between other vascular risk factors and the clinical expression of cognitive decline and dementia. The risk of AD is increased in subjects with adult-onset diabetes mellitus, hypertension, atherosclerotic disease and atrial fibrillation. Experimentally, small striatal infarcts in the presence of high levels of amyloid in the brain exhibit a progression in infarct size over time with enhanced degree of cognitive impairment, AD-type pathology and neuroinflammation compared with striatal infarcts or high amyloid levels alone.     

Alzheimer disease: are we intervening too late?

The affirmative position is argued in response to the question of whether intervention in the disease course of Alzheimer disease (AD) occurs too late. AD is not a singular, homogeneous disease, but rather a final common pathway or end-point that can be arrived at through multiple routes. As part of the affirmative argument, there is a delineation of two long-term trajectories leading to AD: (1) normal elderly progression to AD, and (2) depressed elderly progression to AD. In documenting normal elderly devolution into AD, two “normal” elderly pre-AD or prodromal stages are discussed: age-associated memory impairment (AAMI) and mild cognitive impairment (MCI). Data are provided evidencing significantly high conversion rates from these pre-AD stages to actual AD. Using the same paradigmatic approach that is used in documenting normal elderly decline into AAMI and MCI with eventual conversion to AD; there is explication of depressed elderly conversion to AD. The long-term, multiphasic disease progression of major depression without dementia to depressive dementia to final conversion to AD is brought into focus as another example of why intervention must occur prior to actual conversion to AD. Depression is defined as a cognitive syndrome and risk factor for AD requiring aggressive targeted intervention. AD does not just come suddenly out of nowhere. First intervention must occur during the pre-AD phases in an attempt to prevent, delay, and interrupt long-term neurodegenerative processes involved in both normal elderly and depressed elderly conversion to AD. A primary strategy proposed is to delay onset of AD. Population statistics indicate that if AD is delayed by a modest 1 year, there would be 9.5 million fewer cases by 2050, resulting in significant reduction in burden of disease. Data show early intervention with cognitive stimulation (mental exercise), physical exercise, aggressive treatment of AD risk factors and excess disability, psychotherapy, and other nonpharmacological interventions in combination with each other and/or with medications can result in delay of onset of AD. First intervention at time of diagnosis of AD is too late, when by definition, final conversion to AD has already occurred. When we have knowledge to successfully intervene earlier, why would we not want to do so.     

The overlap between neurodegenerative and vascular factors in the pathogenesis of dementia

There is increasing evidence that cerebrovascular dysfunction plays a role not only in vascular causes of cognitive impairment but also in Alzheimer’s disease (AD). Vascular risk factors and AD impair the structure and function of cerebral blood vessels and associated cells (neurovascular unit), effects mediated by vascular oxidative stress and inflammation. Injury to the neurovascular unit alters cerebral blood flow regulation, depletes vascular reserves, disrupts the blood–brain barrier, and reduces the brain’s repair potential, effects that amplify the brain dysfunction and damage exerted by incident ischemia and coexisting neurodegeneration. Clinical-pathological studies support the notion that vascular lesions aggravate the deleterious effects of AD pathology by reducing the threshold for cognitive impairment and accelerating the pace of the dementia. In the absence of mechanism-based approaches to counteract cognitive dysfunction, targeting vascular risk factors and improving cerebrovascular health offers the opportunity to mitigate the impact of one of the most disabling human afflictions.     

Cerebral blood flow measured by arterial spin labeling MRI at resting state in normal aging and Alzheimer’s disease

Arterial spin labeling (ASL) magnetic resonance imaging uses arterial blood water as an endogenous tracer to measure cerebral blood flow (CBF). In this review, based on ASL studies in the resting state, we discuss state-of-the-art technical and data processing improvements in ASL, and ASL CBF changes in normal aging, mild cognitive impairment (MCI), Alzheimer’s disease (AD), and other types of dementia. We propose that vascular and AD risk factors should be considered when evaluating CBF changes in aging, and that other validated biomarkers should be used as inclusion criteria or covariates when evaluating CBF changes in MCI and AD. With improvements in hardware and experimental design, ASL is proving to be an increasingly promising tool for exploring pathogenetic mechanisms, early detection, monitoring disease progression and pharmacological response, and differential diagnosis of AD.     

Cerebral hypoperfusion and glucose hypometabolism: Key pathophysiological modulators promote neurodegeneration,cognitive impairment,and Alzheimer's disease

Aging, hypertension, diabetes, hypoxia/obstructive sleep apnea (OSA), obesity, vitamin B12/folate deficiency, depression, and traumatic brain injury synergistically promote diverse pathological mechanisms including cerebral hypoperfusion and glucose hypometabolism. These risk factors trigger neuroinflammation and oxidative‐nitrosative stress that in turn decrease nitric oxide and enhance endothelin, Amyloid‐β deposition, cerebral amyloid angiopathy, and blood–brain barrier disruption. Proinflammatory cytokines, endothelin‐1, and oxidative‐nitrosative stress trigger several pathological feedforward and feedback loops. These upstream factors persist in the brain for decades, upregulating amyloid and tau, before the cognitive decline. These cascades lead to neuronal Ca²⁺ increase, neurodegeneration, cognitive/memory decline, and Alzheimer's disease (AD). However, strategies are available to attenuate cerebral hypoperfusion and glucose hypometabolism and ameliorate cognitive decline. AD is the leading cause of dementia among the elderly. There is significant evidence that pathways involving inflammation and oxidative‐nitrosative stress (ONS) play a key pathophysiological role in promoting cognitive dysfunction. Aging and several comorbid conditions mentioned above promote diverse pathologies. These include inflammation, ONS, hypoperfusion, and hypometabolism in the brain. In AD, chronic cerebral hypoperfusion and glucose hypometabolism precede decades before the cognitive decline. These comorbid disease conditions may share and synergistically activate these pathophysiological pathways. Inflammation upregulates cerebrovascular pathology through proinflammatory cytokines, endothelin‐1, and nitric oxide (NO). Inflammation‐triggered ONS promotes long‐term damage involving fatty acids, proteins, DNA, and mitochondria; these amplify and perpetuate several feedforward and feedback pathological loops. The latter includes dysfunctional energy metabolism (compromised mitochondrial ATP production), amyloid‐β generation, endothelial dysfunction, and blood–brain‐barrier disruption. These lead to decreased cerebral blood flow and chronic cerebral hypoperfusion‐ that would modulate metabolic dysfunction and neurodegeneration. In essence, hypoperfusion deprives the brain from its two paramount trophic substances, viz., oxygen and nutrients. Consequently, the brain suffers from synaptic dysfunction and neuronal degeneration/loss, leading to both gray and white matter atrophy, cognitive dysfunction, and AD. This Review underscores the importance of treating the above‐mentioned comorbid disease conditions to attenuate inflammation and ONS and ameliorate decreased cerebral blood flow and hypometabolism. Additionally, several strategies are described here to control chronic hypoperfusion of the brain and enhance cognition. © 2016 Wiley Periodicals, Inc.     

Connexin43 promotes angiogenesis through activating the HIF-1α/VEGF signaling pathway under chronic cerebral hypoperfusion

Chronic cerebral hypoperfusion, a major vascular contributor to vascular cognitive impairment and dementia, can exacerbate small vessel pathology. Connexin43, the most abundant gap junction protein in brain tissue, has been found to be critically involved in the pathological changes of vascular cognitive impairment and dementia caused by chronic cerebral hypoperfusion. However, the precise mechanisms underpinning its role are unclear. We established a mouse model via bilateral common carotid arteries stenosis on connexin43 heterozygous male mice and demonstrated that connexin43 improves brain blood flow recovery by mediating reparative angiogenesis under chronic cerebral hypoperfusion, which subsequently reduces the characteristic pathologies of vascular cognitive impairment and dementia including white matter lesions and irreversible neuronal injury. We additionally found that connexin43 mediates hypoxia inducible factor-1α expression and then activates the PKA signaling pathway to regulate vascular endothelial growth factor-induced angiogenesis. All the above findings were replicated in bEnd.3 cells treated with 375 µM CoCl₂ in vitro. These results suggest that connexin 43 could be instrumental in developing potential therapies for vascular cognitive impairment and dementia caused by chronic cerebral hypoperfusion.     

Diabetes and the brain: issues and unmet needs

Diabetes mellitus (DM) is associated with an increased risk of mild cognitive impairment, dementia and stroke. The association between DM and dementia appears to be stronger for vascular cognitive impairment than for Alzheimer’s disease, suggesting cerebrovascular disease may be an important factor in cognitive impairment in DM. Although the exact mechanisms by which DM affects the brain remain unclear, changes to brain vasculature, disturbances of cerebral insulin signaling, insulin resistance, glucose toxicity, oxidative stress, accumulation of advanced glycation end products, hypoglycemic episodes, and alterations in amyloid metabolism may all be involved. Cognitive impairment and dementia associated with DM may also be mediated via vascular risk factors, in particular brain ischemia, the occurrence of which can have an additive or synergistic effect with concomitant neurodegenerative processes. To date, no drug has been approved for the treatment of vascular dementia and there are no specific pharmacological treatments for preventing or reducing cognitive decline in patients with DM. Most focus has been on tighter management of vascular risk factors, although evidence of reduced cognitive decline through reducing blood pressure, lipid-lowering or tighter glycemic control is inconclusive. Tailored, multimodal therapies may be required to reduce the risk of cognitive dysfunction and decline in patients with DM. The use of pleiotropic drugs with multimodal mechanisms of action (e.g., cerebrolysin, Actovegin) may have a role in the treatment of cognitive dysfunction and their use may warrant further investigation in diabetic populations.     

非痴呆性血管性认知障碍的研究进展

血管性认知障碍（vascular cognitive impairment,VCI）是由脑血管病危险因素（如高血压、 糖尿病、高脂血症和高同型半胱氨酸血症等）、显性脑血管病（出血性及缺血性卒中）及非显性脑血 管病（脑白质疏松和慢性脑缺血等）引起的一组从轻度认知功能损害到痴呆的临床综合征。非痴呆 性血管性认知障碍（vascular cognitive impairment-no dementia,VCIND）是VCI的早期阶段,其中约一半 患者会在5年内进展为痴呆。血管性痴呆（vascular dementia,VD）在治疗上尚未发现行之有效的方法, 但又是唯一可以预防的痴呆。发现VCIND危险因素并进行早期干预,对于寻求延缓痴呆进展的二级 预防策略至关重要。现从VCIND的概念、流行病学、诊断标准及影响因素等方面进行综述,以期能够 早期识别相关危险因素,防治VCI。     

Brain hypoperfusion: a critical factor in vascular dementia

Subcortical ischemic vascular dementia is a relatively common form of dementia. Anatomical changes of ageing in the brain arteries predispose the elderly to the effects of hypotension. Depending on their circulatory pattern, particular regions of the brain are susceptible to ischemic hypoperfusive lesions. These regions include the periventricular white matter, basal ganglia, and hippocampus. Interruption of prefrontal-basal ganglia circuits important for cognition and memory may result from these lesions. Hypotension and hypoperfusion explain the high risk for the development of cognitive impairment and vascular dementia in older patients affected by orthostatic hypotension, congestive heart failure, as well as in those undergoing surgical procedures such as hip and knee replacement and coronary artery bypass graft (CABG). Recognition of the susceptibility of elderly subjects to cerebral lesions induced by hypoperfusion should result in appropriate preventive measures and better treatment.     

Prevalence and outcomes of vascular cognitive impairment. Vascular Cognitive Impairment Investigators of the Canadian Study of Health and Aging

OBJECTIVE: To assess the importance of vascular cognitive impairment and its three subgroups (cognitive impairment, no dementia; vascular dementia; and AD with a vascular component) to the prevalence and burden of cognitive impairment in elderly people. BACKGROUND: Vascular lesions may produce a spectrum of cognitive changes. Omitting elderly patients whose cognitive impairment falls short of dementia (vascular cognitive impairment, no dementia) may give a falsely low indication of the prevalence and burden of disease. To test this proposition, we compared the rates of adverse outcomes for patients with no cognitive impairment, vascular cognitive impairment (and its subgroups), and probable AD. METHODS: The Canadian Study of Health and Aging is a prospective cohort study of 10,253 randomly selected community-dwelling and institution-dwelling respondents aged 65 years or older. In the community, all participants (n = 9,008) were screened for cognitive impairment; those who screened positive and a sample of those who screened negative received a clinical assessment (n = 1,659). All patients living in institutions received a clinical assessment (n = 1,255). Participants were reassessed 5 years after the original survey. RESULTS: Vascular cognitive impairment without dementia was the most prevalent form of vascular cognitive impairment among those aged 65 to 84 years. Rates of institutionalization and mortality for those with vascular cognitive impairment were significantly higher than those of people who had no cognitive impairment, and the mortality rate for patients with vascular cognitive impairment was similar to that of patients with AD. CONCLUSIONS: Failure to consider vascular cognitive impairment without dementia underestimates the prevalence of impairment and the risk for adverse outcomes associated with vascular cognitive impairment.     

The earliest stage of cognitive impairment in transition from normal aging to Alzheimer disease is marked by prominent RNA oxidation in vulnerable neurons

Although neuronal RNA oxidation is a prominent and established feature in age-associated neurodegenerative disorders such as Alzheimer disease (AD), oxidative damage to neuronal RNA in aging and in the transitional stages from normal elderly to the onset of AD has not been fully examined. In this study, we used an in situ approachto identify an oxidized RNA nucleoside 8-hydroxyguanosine (8OHG) in the cerebral cortex of 65 individuals without dementia ranging in age from 0.3 to 86 years. We also examined brain samples from 20 elderly who were evaluated for their premortem clinicaldementia rating score and postmortem brain pathologic diagnoses to investigate preclinical AD and mild cognitive impairment. Relative density measurements of 8OHG-immunoreactivity revealed a statistically significant increase in neuronal RNA oxidation during aging in the hippocampus and the temporal neocortex. In subjects with mild cognitive impairment but not preclinical AD, neurons of the temporal cortex showed a higher burden of oxidized RNA compared to age-matched controls. These results indicate that, although neuronal RNA oxidation fundamentally occurs as an age-associated phenomenon, more prominent RNA damage than in normal aging correlates with the onset of cognitive impairment in the prodromal stage of AD.     

Comparison between Alzheimer's disease and vascular dementia: implications for treatment

Virtually 90% of the elderly with late-onset dementia exhibit neuropathological features consistent with Alzheimer's disease (AD), vascular dementia (VaD) or dementia with Lewy bodies (DLB), alone or in combination. Both AD and DLB reveal extensive senile plaques containing amyloid beta whereas neurofibrillary tangles evident as tau pathology are fewer in DLB, which also bears diffuse cortical Lewy bodies. Interestingly, however, there is considerable overlap between AD and VaD in terms of both risk factors and pathology. Cholinergic deficits are also encountered in VaD, which like AD may respond to cholinergic therapy. Cerebrovascular pathology, ischemic brain damage and autonomic dysregulation resulting in cerebral hypoperfusion appears fundamental in the pathogenesis of late-onset dementias.     

慢性脑低灌注的实验研究进展

慢性脑低灌注与正常老龄化和Alzheimer病（AD）引起的认知功能障碍有关。双侧颈总动脉永久结扎（2VO）大鼠慢性期的神经病理改变与人类老龄化和AD时慢性脑低灌注很相似,被广泛用来研究慢性脑低灌注对认知功能损害和神经变性疾病的影响。对近年来有关2VO模型研究成果与人类相关疾病的关系进行客观评价,有助于更好地理解＂慢性脑低灌注是神经变性疾病的原因＂这一观点,有助于理解何以2VO模型为神经变性疾病以及神经保护机制研究合适的实验对象。