Search Results (178)

Background/Objectives: Multifactorial prevention of falls in persons with dementia has minimal or non-significant effects. Personalised prevention is recommended. We have previously shown that gait speed, basic activities of daily living (ADL), and depression (high Cornell scores) were independent predictors of falls in persons with mild and moderate cognitive impairment. This study explored person-specific risks of falls related to physical, mental, and cognitive functions and types of dementia: Alzheimer’s disease (AD), vascular dementia (VD), mixed Alzheimer’s disease/vascular dementia (MixADVD), frontotemporal dementia (FTD), and dementia with Lewy bodies (DLB). Methods: The study used data from “The Norwegian Registry of Persons Assessed for Cognitive Symptoms” (NorCog). Differences between the dementia groups and predictors of falls, gait speed, ADL, and Cornell scores were analysed. Results: Among study participants, 537/1321 (40.7%) reported a fall in the past year, with significant variations between dementia diagnoses. Fall incidence increased with age, comorbidity/polypharmacy, depression, and MAYO fluctuation score and with reduced physical activity, gait speed, and ADL. Persons with VD and MixADVD had high fall incidences and impaired gait speed and ADL. Training of physical fitness, endurance, muscular strength, coordination, and balance and optimising treatment of comorbidities and medication enhance gait speed. Improving ADL necessitates, in addition, relief of cognitive impairment and fluctuations. Relief of depression and fluctuations by psychological and pharmacological interventions is necessary to reduce the high fall risk in persons with DLB. Conclusions: The fall incidence and fall predictors varied significantly. Personalised interventions presuppose knowledge of each individual’s fall risk factors. Full article

Background: People with post-stroke cognitive impairment (PSCI) are at increased risk of recurrent stroke, dementia, and accelerated cognitive decline. Objective: To examine the feasibility, safety, acceptability, and suitability of a virtually-delivered vascular risk reduction intervention that integrates tailored cognitive strategy training for people with executive function (EF) impairments post-stroke. Methods: This case series included eight participants who completed up to ten virtual sessions focused on vascular risk reduction and metacognitive strategy training. Sessions averaged 40 min over a 4–5-week period. Results: The intervention was found to be feasible, safe, and acceptable. The recruitment rate was 66.7%, and the retention rate was 87.5% (7 of 8 completed the training). No serious adverse events were reported. Most participants demonstrated improvements on the Canadian Occupational Performance Measure (COPM), with mean performance and satisfaction change scores of 1.22 ± 0.87 and 1.18 ± 0.83, respectively. Conclusions: This technology-enabled intervention was feasible and acceptable for individuals with post-stroke EF impairments. Virtual delivery was a key factor in its accessibility and success. The results are promising for improving self-management of vascular risk factors, warranting further study in larger trials. Full article

Background: With an aging population, dementia prevalence is increasing in Korea. Vascular dementia (VaD), often caused by cerebrovascular disease (CVD), is more common in Korea compared to Western countries. Hwanhon decoction, a traditional medicine containing Ephedrae Herba, Armeniacae Semen, and Glycyrrhizae Radix et Rhizoma, is traditionally used for CVD-related loss of consciousness. This study aimed to assess the cognitive improvement and anti-inflammatory effects of Hwanhon decoction extract (HHex) in a mouse model of VaD caused by chronic cerebral hypoperfusion (CCH). Methods: Key pharmacologically active ingredients of Hwanhon decoction were identified using network pharmacology analysis. VaD was induced in C57Bl/6 male mice through bilateral common carotid artery stenosis (BCAS). Mice were divided into sham surgery, BCAS control, low-dose HHex (L-HHex), and high-dose HHex (H-HHex) groups (n = 5/group). After CCH induction, L-HHex or H-HHex was administered thrice weekly for six weeks. Cognitive function, inflammatory markers, and RNA sequencing data were analyzed. Results: HHex administration reduced cognitive impairment and mitigated CCH-induced astrocyte activation. Inflammatory responses mediated by reactive astrocytes were suppressed, and network pharmacology predicted central proteins influencing HHex’s activity. Conclusions: HHex alleviated cognitive dysfunction and reduced inflammation in a VaD mouse model, suggesting its potential as a therapeutic agent for vascular dementia associated with impaired cerebral blood flow. Full article

SARS-CoV-2 can cause neurological issues, including cognitive dysfunction in COVID-19 survivors. Endothelial dysfunction, a key mechanism in COVID-19, is also a risk factor for vascular dementia (VaD). Reduced nitric oxide (NO) bioavailability is a pathogenic factor of endothelial dysfunction and platelet aggregation in COVID-19 patients, and endothelial NO synthase (eNOS) levels decline with advancing age, a risk factor for both COVID-19 morbidity and VaD. SARS-CoV-2 also induces cellular senescence and senescence-associated secretory phenotype (SASP). We hypothesized that eNOS deficiency would worsen neuroinflammation, senescence, blood–brain barrier (BBB) permeability, and hypercoagulability in eNOS-deficient mice. Six-month-old eNOS^+/− (pre-cognitively impaired experimental VaD) and wild-type (WT) male mice were infected with mouse-adapted (MA10) SARS-CoV-2. Mice were evaluated for weight loss, viral load, and markers of inflammation and senescence 3 days post-infection. eNOS^+/− mice showed more weight loss (~15%) compared to WT mice (~5%) and increased inflammatory markers (Ccl2, Cxcl9, Cxcl10, IL-1β, and IL-6) and senescence markers (p53 and p21). They also exhibited higher microglial activation (Iba1) and increased plasma coagulation and BBB permeability, despite comparable lung viral loads and absence of virus in the brain. This is the first experimental evidence demonstrating that eNOS deficiency exacerbates SARS-CoV-2-induced morbidity, neuroinflammation, and brain senescence, linking eNOS to COVID-19-related neuropathology. Full article

Background: Post-stroke cognitive impairment (PSCI) remains under-recognized in Sub-Saharan Africa (SSA), in part due to the lack of validated cognitive screening tools adapted to low-literacy populations. We aimed to validate the Identification of Dementia in Elderly Africans (IDEA) cognitive screen in SSA and assess its utility for detecting PSCI in Guinea and Cameroon. Methods: Normative IDEA scores were derived from a control cohort of healthy older adults in Conakry (Guinea) and Bafoussam (Cameroon). The tool was then applied to consecutive stroke patients from the same hospitals within one month of stroke onset. Demographic, clinical, and vascular risk profiles were collected. Between-group comparisons were performed using Welch’s t-tests and chi-square tests. Results: Among 91 healthy controls (median age: 64), the mean IDEA score was 12 ± 2.4. A cut-off of ≤7 (2 standard deviations below the mean) was defined for cognitive impairment. Among 111 stroke patients (median age: 65; mean NIHSS: 9.9 ± 5.8), the mean IDEA score was 9.6 ± 3.2, and 31 patients (28%) had scores ≤ 7. Stroke patients had significantly higher rates of hypertension and diabetes compared to controls. Conclusions: The IDEA screen appears to be a feasible and effective tool for detecting PSCI in SSA clinical settings. The 28% prevalence of cognitive impairment aligns with data from high-income countries, supporting the broader use of the IDEA to strengthen cognitive care pathways in SSA stroke populations. Full article

Vascular dysfunction frequently coexists with neurodegenerative disorders such as dementia and Alzheimer’s disease (AD) in older individuals; however, the cause-and-effect relationship remains unclear. While AD is primarily characterized by neural tissue degeneration, emerging evidence suggests that aging-induced vascular dysfunction contributes to both the onset and progression of cognitive impairment and dementia by decreasing cerebral blood flow (CBF) and disrupting the blood–brain barrier (BBB). This challenges the traditional notion and underscores vascular dysfunction as an early pathogenic stimulus; thus, targeting vascular pathologies could be a promising strategy to slow dementia progression and potentially prevent AD. Conversely, aging-related neurodegeneration exacerbates vascular dysfunction, accelerating dementia pathology through oxidative stress and inflammation as well as deposition of neurotoxic substances such as beta-amyloid (Aβ) and tau in vascular walls. This bidirectional interaction creates a vicious cycle that worsens cognitive decline, underscoring the complexity of these diseases. This review aims to highlight recent advances in research on the mechanisms of aging-related vascular dysfunction in neurodegenerative diseases, focusing on vascular contributions to cognitive impairment and dementia (VCID) and AD. Additionally, we will explore the reciprocal effects and intricate relationship between vascular dysfunction and neurodegenerative pathologies, enhancing our understanding of relative disease pathogenesis and guiding the development of innovative prevention and treatment strategies. Full article

Vascular dementia (VD), characterized by cognitive decline and behavioral disorders, has seen a rapid increase in prevalence in recent years. However, effective treatments for VD remain unavailable. Due to its regenerative potential, stem cell therapy has garnered attention as a promising approach for VD treatment, yet it has shown limited effects on cognitive and behavioral impairments caused by the disease. To address this limitation, this study aimed to develop a novel treatment using human embryonic stem cell-derived multipotent mesenchymal stem cells (MMSCs). The therapeutic efficacy of MMSCs was evaluated using a vascular dementia mouse model induced by bilateral carotid artery stenosis (BCAS). The effects of MMSCs were assessed through behavioral tests and postmortem brain tissue analysis, including mRNA expression analysis and hematoxylin and eosin (H&E) staining. MMSCs treatment significantly improved both working memory and long-term memory. Histological analysis revealed enhanced angiogenesis, preservation of blood–brain barrier integrity, and improved hippocampal organization. Furthermore, MMSCs treatment reduced the expression of Rock1/2, indicating suppression of neuroinflammatory and apoptotic pathways. These findings suggest that MMSCs offer a sustainable and effective therapeutic approach for vascular dementia. Full article

Vascular dementia (VaD) is a heterogeneous group of brain disorders caused by cerebrovascular pathologies and the second most common cause of dementia, accounting for over 20% of cases and posing an important global health concern. VaD can be caused by cerebral infarction or injury in critical brain regions, including the speech area of the dominant hemisphere or arcuate fasciculus of the dominant hemisphere, leading to notable cognitive impairment. Although the exact causes of dementia remain multifactorial and complex, oxidative stress (reactive oxygen species), neuroinflammation (TNFα, IL-6, and IL-1β), and inflammasomes are considered central mechanisms in its pathology. These conditions contribute to neuronal damage, synaptic dysfunction, and cognitive decline. Thus, antioxidants and anti-inflammatory agents have emerged as potential therapeutic targets in dementia. Recent studies emphasize that cerebrovascular disease plays a dual role: first, as a primary cause of cognitive impairment and then as a contributor to the manifestation of dementia driven by other factors, such as Alzheimer’s disease and other neurodegenerative conditions. This comprehensive review of VaD focuses on molecular mechanisms and their consequences. We provided up-to-date knowledge about epidemiology, pathophysiological mechanisms, and current therapeutic approaches for VaD. Full article

Perivascular spaces (PVS) support metabolic clearance in the brain and are increasingly recognized as key contributors to dementia pathogenesis. Plasma-based biomarkers, such as glial fibrillary acidic protein (GFAP) and the amyloid β42/40 (Aβ42/40) ratio, show promise in dementia diagnosis but remain understudied in vascular cognitive impairment (VCI). VCI, a major global cause of cognitive decline, may be more prevalent in Southeast Asia. Despite its impact, it is underdiagnosed compared to Alzheimer’s, highlighting the need for early, reliable markers. This study aims to examine how these biomarkers relate to PVS burden and domain-specific cognitive outcomes in VCI. VCI was defined as global cognition as assessed by a Montreal Cognitive Assessment Score <26, along with the presence of confluent white matter hyperintensities (deep white matter hyperintensities score >2 or periventricular hyperintensities >3), and >1 lacuna. A total of 108 participants (mean age of 67.3 years, 51.9% female) were included. Multivariate ordinal regression assessed biomarker associations with PVS grade, adjusting for age and diastolic blood pressure. A Aβ42/40 ratio <0.05 and GFAP >54.1 pg/mL were used as biomarker thresholds to subgroup the participants, and the relationship between these thresholds and cognitive performance was analyzed. Elevated GFAP (p = 0.0438) and a reduced Aβ42/40 ratio (p < 0.01) were correlated with a higher PVS grade. In the subgroup with a low Aβ42/40 ratio, a greater PVS burden was associated with poorer executive function (p = 0.045, β = 0.612), while in those with high GFAP levels, it was linked to more pronounced impairments in learning and memory (p = 0.006, β = 0.375). A lower Aβ42/40 ratio and higher GFAP levels track greater PVS burden in VCI. PVS severity may be associated with domain-specific cognitive decline, highlighting the potential utility of these biomarkers in refining clinical assessments and monitoring disease progression. Full article

Background: An increased risk of cognitive decline has been reported in patients with older age bipolar disorder (OABD); however, the underlying factors contributing to this association remain unclear. This cross-sectional study aims to identify the clinical features associated with cognitive impairment in OABD. Methods: A total of 152 participants, aged at least 50 years and diagnosed with bipolar disorder (BD) and related disorders in agreement with the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition, Text Revision criteria, were included in the study and divided into two subgroups based on the presence/absence of cognitive impairment, defined as a diagnosis of Mild Neurocognitive Disorder or Major Neurocognitive Disorder. Univariate comparisons and multivariate logistic regression models were performed to investigate the associations between clinical variables and cognitive impairment. Results: Cognitively impaired patients had a higher prevalence of otherwise specified BD/cyclothymic disorder, while BD type 2 was more common in the cognitively unimpaired group. Additionally, the cognitively impaired group had a later onset of major mood episodes (p < 0.05), fewer lifetime depressive episodes (p = 0.006), a higher prevalence of vascular leukoencephalopathy (p = 0.022) and dyslipidemia (p = 0.043), a lower prevalence of agoraphobia (p = 0.040), worse global functioning (p < 0.001), and higher psychopathology severity (p < 0.001). Late onset, vascular leukoencephalopathy, and dyslipidemia were all independently associated with cognitive impairment. Conclusions: Atypical BD, late onset of mood episodes, and somatic comorbidities like vascular leukoencephalopathy and dyslipidemia are associated with a higher risk of developing cognitive impairment and neurodegenerative disorders in OABD patients. Full article

Small extracellular vesicles (sEVs), including exosomes as a subtype, with a diameter typically less than 200 nm and originating from the endosomal system, are capable of transporting a diverse array of bioactive molecules, including proteins, nucleic acids, and lipids, thereby facilitating intercellular communication and modulating cellular functions. Vascular dementia (VaD) represents a form of cognitive impairment attributed to cerebrovascular disease, characterized by a complex and multifaceted pathophysiological mechanism. Currently, the therapeutic approach to VaD predominantly emphasizes symptom management, as no specific pharmacological treatment exists to cure the condition. Recent investigations have illuminated the significant role of sEVs in the pathogenesis of vascular dementia. This review seeks to provide a comprehensive analysis of the characteristics and functions of sEVs, with a particular focus on their involvement in vascular dementia and its underlying mechanisms. The objective is to advance the understanding of the interplays between sEVs and vascular dementia, thereby offering novel insights for future research and therapeutic strategies. Full article

Sufficient levels of physical activity are fundamental for preventing cardiovascular disease, dementia, and ultimately disability in older persons, yet this protective factor is nullified when excessive hours are spent in continuous sitting. Balancing physical activity and sedentary behavior is crucial for influencing metabolic parameters and vascular patterns, both central and peripheral, thereby reducing the risk of cardiovascular diseases, vascular dementia, and cognitive impairment. The primary goal of geriatric medicine is to improve quality of life and prevent disability by promptly identifying frail older individuals, thus mitigating both cognitive and motor impairments. Achieving this objective requires not only the optimization of pharmacological treatments but also the active promotion of a healthy lifestyle. In this context, investigating preclinical stages of disability, such as Motoric Cognitive Risk (MCR) Syndrome, which integrates physical and cognitive components of decline, becomes essential. However, despite robust evidence supporting these interventions, greater efforts are needed from the geriatric medical community to bridge the gap between scientific recommendations and everyday clinical practice. Integrating these guidelines into routine care is pivotal for delivering personalized interventions that address both physical inactivity and prolonged sedentary behavior. More research should aim to strengthen this balance, providing clearer, actionable strategies for clinicians to implement, thereby fostering the formation of evidence-based public health guidelines on physical activity specifically tailored for older persons. Full article

This study explores whether molecular hydrogen (H₂) administration can alleviate cognitive and immunological disturbances in a mouse model of vascular dementia (VaD). Adult male C57BL/6 mice underwent bilateral common carotid artery stenosis to induce VaD and were subsequently assigned to three groups: VaD, VaD with hydrogen-rich water treatment (VaD + H₂), and Sham controls. Behavioral assessments using open field and novel object recognition tests revealed that VaD mice exhibited anxiety-deficient behavior and memory impairment, both of which were reversed by H₂ treatment. Histological examinations showed pyknotic neuronal morphologies and elevated reactive oxygen species (ROS) in the VaD hippocampus, whereas H₂ administration mitigated these alterations. Furthermore, VaD-induced downregulation of BCL2 was reversed in the VaD + H₂ group, in parallel with increased IL-4 expression. Flow cytometric analyses revealed that VaD disrupted T regulatory cell homeostasis by significantly increasing their proportion, an effect reversed by H₂ treatment, thereby restoring immunological balance. Transcriptomic evaluations confirmed that VaD suppressed key neuroprotective and anti-inflammatory genes, while H₂ treatment restored or enhanced their expression. Collectively, these findings highlight the neuroprotective and immuno-modulatory potential of molecular hydrogen, suggesting that H₂ supplementation may promote neuronal resilience, modulate T cell differentiation, and support cognitive recovery in vascular dementia. Full article

Stroke is the leading cause of death and disability worldwide, with ischemic stroke accounting for the majority of these. HBA is the active ingredient in Gastrodia elata and has potential therapeutic effects on central nervous system diseases. In this study, the cell model of cerebral ischemia was replicated by the culture method of oxygen-glucose deprivation/reoxygenation, and the rat model of vascular dementia was established by the two-vessel occlusion method. Metabolomics technology was employed to analyze the metabolic changes in ischemic neurons induced by HBA, and potential therapeutic targets were verified. The protective effects of HBA on ischemic neurons and their mitochondria were examined through multiple indicators, and the related mechanisms were verified. HBA can improve post-ischemic cognitive impairment in rats, and its mechanism is related to the regulation of the choline-activated phospholipase D2/Sirtuin 1/peroxisome proliferator-activated receptor-γ coactivator 1α pathway to improve mitochondrial function and reduce autophagic activity to maintain mitochondrial homeostasis. It is concluded that HBA has a protective effect on neuronal damage and cognitive impairment caused by cerebral ischemia by regulating key metabolites and signaling pathways, and that it provides a new molecular target for the treatment of cerebral ischemia. Full article

The human microbiota constitute a very complex ecosystem of microorganisms inhabiting both the inside and outside of our bodies, in which health maintenance and disease modification are the main regulatory features. The recent explosion of microbiome research has begun to detail its important role in neurological health, particularly concerning cerebral small vessel disease (CSVD), a disorder associated with cognitive decline and vascular dementia. This narrative review represents state-of-the-art knowledge of the intimate, complex interplay between microbiota and brain health through the gut–brain axis (GBA) and the emerging role of glymphatic system dysfunction (glymphopathy) and circulating cell-derived microparticles (MPs) as mediators of these interactions. We discuss how microbial dysbiosis promotes neuroinflammation, vascular dysfunction, and impaired waste clearance in the brain, which are critical factors in the pathogenesis of CSVD. Further, we discuss lifestyle factors that shape the composition and functionality of the microbiota, focusing on sleep as a modifiable risk factor in neurological disorders. This narrative review presents recent microbiome research from a neuroscientific and vascular perspective to establish future therapeutic avenues in targeting the microbiota to improve brain health and reduce the burden of CSVD. Full article