Anastasia A Shvetsova,Olga A Vlaskina,Sofia D Kabiolskaya et al.
Anastasia A Shvetsova et al.
Introduction: The vessels of different organs may demonstrate functional heterogeneity depending on organ they supply. However, few works systematically examine arteries of different organs. We hypothesized that arteries ...
Cardiometabolic Syndromes and Associated Cardiovascular Risks: A Narrative Review [0.03%]
心血管代谢综合征及其相关的心血管风险:叙述性综述
Antonio Ruiz-Saavedra,Fernando Vidal-Ostos De Lara,J Alfredo Martínez
Antonio Ruiz-Saavedra
Cardiovascular risk (CVR) represents a major global health challenge due to its strong association with metabolic and endocrine disorders. Conditions such as metabolic syndrome (MetS), hypertriglyceridemic waist (HTGW), metabolic dysfunctio...
Repeatability of Metrics of Skin Microvascular Function at Pressure Injury-Prone Sites Using a Direct Pressure and Heating Protocol [0.03%]
直接加压和加热法测定压力损伤易患部位皮肤微血管功能指标的重复性
Alex Lloyd,Alexander Robertson,Mike Fray et al.
Alex Lloyd et al.
Introduction: This study evaluated the repeatability of a heating and pressure protocol using laser Doppler flowmetry to measure the full dynamic range of skin microvascular responses at the sacrum and heel - key sites fo...
A Gelatine-Methylene Blue Method for Enhanced Visualization of Digital Artery Perforators in Cadaveric Studies [0.03%]
一种改良的明胶-美蓝方法以增强尸体解剖中数字动脉穿支血管的显影
Rasyidah Rehir,Sameer Dhumale
Rasyidah Rehir
Introduction: Precise visualization of digital artery perforators (DAPs) is essential for anatomical research and microsurgical planning. Traditional injection techniques often fail to highlight small-calibre vessels and ...
Dynamic Gene Expression Signatures Across Stages of Carotid Plaque Calcification [0.03%]
颈动脉斑块矿化不同阶段的动态基因表达特征分析
Hiroyuki Katano,Tomoyasu Yamanaka,Teishiki Shibata et al.
Hiroyuki Katano et al.
Objective: To elucidate gene expression changes associated with different stages of calcification in carotid artery plaques and clarify the dynamic biological processes underlying plaque maturation. ...
Differential Blood-Brain Barrier Permeability Driven by Asymmetric Hypoperfusion in a Vascular Dementia Model [0.03%]
血管性痴呆模型中由不对称低灌注驱动的血脑屏障通透性的差异性
Mengjun Dai,Kuizhi Qu,Ying Jiang et al.
Mengjun Dai et al.
Background: Blood-brain barrier (BBB) dysfunction has been associated with vascular dementia (VaD). However, the underlying mechanisms causing BBB dysfunction remain unclear, especially regarding cerebral hypoperfusion. T...
Effect of Water Temperature during Aquatic Exercise on Cognitive Impairment in Mice with Chronic Cerebral Hypoperfusion [0.03%]
水下运动用水温度对慢性脑低灌注小鼠认知障碍的影响
Chiyeon Lim,Sehyun Lim,Sung Min Moon et al.
Chiyeon Lim et al.
Introduction: Given the lack of effective pharmacotherapy for vascular dementia (VaD) and the reported benefits of exercise, this study examined the impact of water temperature during aquatic exercise (AE) on cognitive an...
Assessing Sex Differences in Metabolic Disease on Vasculopathy Using the Vascular Health Index [0.03%]
基于血管健康指数评估代谢性疾病对血管病变的性别差异效应
Nathaniel J Smail,Lujaina Kamar,Isabel Zimmerman et al.
Nathaniel J Smail et al.
Introduction: Vascular function with elevated disease risk has been long studied. However, understanding integrated vascular health has been challenging, as most work focuses on specific outcomes, interventions or mechani...
Development of an explainable machine learning model for cardiovascular-kidney-metabolic syndrome prediction based on dietary antioxidants in a national population [0.03%]
基于饮食抗氧化剂的解释性机器学习模型的发展,用于全国人口的心血管-肾脏-代谢综合征预测
Mei Xue,Hannah Chang,Bo-Chun Wang et al.
Mei Xue et al.
Aims: The role of dietary antioxidants in preventing or delaying the progression of cardiovascular-kidney-metabolic (CKM) syndrome remains underexplored. We aimed to develop and interpret a machine learning model to predi...
N6-methyladenosine (m6A) modification in Vascular Smooth Muscle Disease: A Review [0.03%]
血管平滑肌疾病中的N6-甲基腺苷(m6A)修饰:综述
Chengjun Huang,Xianping Long,Ranzun Zhao
Chengjun Huang
: The impairment of vascular smooth muscle cells (VSMCs) causes many vascular diseases, such as atherosclerosis, hypertension, and heart conditions. Research has shown that N6-methyladenosine (m6A) modification regulates s VSMCs ' function ...