Sara Jaskanwal D S, Pillai Jay J, Lerman Lilach O, Lerman Amir, Welker Kirk
Department of Cardiovascular Medicine, Mayo College of Medicine, Rochester, MN, USA.
Division of Neuroradiology, Department of Radiology, Mayo Clinic, Rochester, MN, USA.
Int J Cardiol. 2025 Apr 1;424:133021. doi: 10.1016/j.ijcard.2025.133021. Epub 2025 Feb 1.
Endothelial dysfunction represents the earliest detectable stage of atherosclerosis, is associated with an increased risk of cardiovascular events, and predicts cardiovascular disease (CVD) more effectively than traditional cardiovascular risk factors. Cerebrovascular reactivity (CVR) provides an index of endothelial function in the brain. Poor CVR is associated with stroke, cerebral small vessel disease, dementia, and even coronary artery disease. Traditional CVD risk factors are associated with low CVR in patients with known CVD and in older cohorts. However, the relationship between cardiovascular risk profile and reduced CVR in young adults who do not yet have CVD is uncertain. We hypothesized that in young adults undergoing routine clinical fMRI examinations for non-vascular disease low CVR measures would be associated with increased cardiovascular risk factors.
This cross-sectional study included adults with epilepsy undergoing a 3-Tesla fMRI scan of the brain for mapping of eloquent cortex with a "breath-hold task" to facilitate pre-operative planning for epilepsy-related surgery. Individuals with intracranial masses and those with baseline CVD were excluded. The task consisted of 5½, 20-s blocks of normal breathing interspersed with 20-s blocks of continuous breath holding. In breath hold fMRI scans, a voxel-wise comparison of brain T2 signal to an expected hemodynamic response curve is used to generate maps of voxel-wise t-statistics, indicating the probability that blood flow within a specific voxel had increased in response to changes in blood carbon dioxide levels. Using an axial slice 8 mm superior to the corpus callosum, a mean cerebral t-statistic was calculated for the slice as a comparative global measure of CVR in each patient. We retrospectively reviewed the charts of all individuals to characterize their clinical profile at the time of the fMRI. Based on the distribution of mean t-statistic values the sample was divided into two groups: high t-statistic ("normal reactivity") and low t-statistic value ("abnormal reactivity"). The distribution of cardiovascular risk factors was then compared across groups.
Between January 2014 and December 2023, 76 individuals underwent brain fMRI employing a "breath hold task" with suitable image quality for the current analysis (mean ± SD age, 35.46 ± 12.09 yrs.; 31.6 % female). Mean ± SD global CVR T-statistic was 3.97 ± 1.62. Low CVR was defined as a mean T-statistic ≤4.2 (n = 44, 57.9 %). Individuals with abnormal CVR were older (age: 45.1 ± 10.3 vs. 27.0 ± 3.4 yrs., p < 0.001), had a higher frequency of hypertension (31.8 % vs. 14.3 %, p = 0.0069) and hyperlipidemia (18.2 % vs. 3.1 %, p = 0.0449), and had higher systolic (123.5 ± 13.2 vs. 116.9 ± 12.2 mmHg, p = 0.0282) and diastolic blood pressures (77.9 ± 11.8 vs. 72.2 ± 8.9, p = 0.0141). Age, systolic blood pressure and hyperlipidemia were significantly associated with abnormal CVR in univariable and multivariable analyses (age, increase by 10 years OR: 2.00, 95 % CI 1.40-2.78, p = 0.0078; hyperlipidemia OR: 8.54, 95 % CI 1.07-184.9, p = 0.0049, and systolic blood pressure (OR for an increase in 10 mmHg: 1.57, 95 % CI 1.10-2.10, p = 0.0084).
Traditional cardiovascular risk factors, specifically age, systolic blood pressure and hyperlipidemia, are significantly associated with abnormal CVR in young adults without baseline CVD or cerebrovascular disease undergoing fMRI for reasons related to a diagnosis of epilepsy.
内皮功能障碍是动脉粥样硬化最早可检测到的阶段,与心血管事件风险增加相关,并且比传统心血管危险因素更有效地预测心血管疾病(CVD)。脑血管反应性(CVR)提供了大脑内皮功能的指标。CVR差与中风、脑小血管疾病、痴呆甚至冠状动脉疾病相关。传统的CVD危险因素与已知CVD患者和老年人群的低CVR相关。然而,在尚未患CVD的年轻人中,心血管风险状况与CVR降低之间的关系尚不确定。我们假设,在因非血管疾病接受常规临床功能磁共振成像(fMRI)检查的年轻人中,低CVR测量值将与心血管危险因素增加相关。
这项横断面研究纳入了患有癫痫的成年人,他们接受了3特斯拉的脑部fMRI扫描,通过“屏气任务”来绘制明确的皮层,以促进癫痫相关手术的术前规划。排除有颅内肿块的个体和有基线CVD的个体。该任务包括5个半20秒的正常呼吸块,中间穿插20秒的持续屏气块。在屏气fMRI扫描中,将脑T2信号与预期的血流动力学反应曲线进行体素水平的比较,以生成体素水平t统计量的图谱,表明特定体素内的血流因血二氧化碳水平变化而增加的概率。使用位于胼胝体上方8毫米的轴向切片,计算该切片的平均脑t统计量,作为每个患者CVR的比较性整体测量指标。我们回顾性地查阅了所有个体的病历,以描述他们在fMRI时的临床特征。根据平均t统计量值的分布,将样本分为两组:高t统计量(“正常反应性”)和低t统计量值(“异常反应性”)。然后比较两组之间心血管危险因素的分布情况。
在2014年1月至2023年12月期间,76名个体接受了采用“屏气任务”的脑部fMRI检查,图像质量适合当前分析(平均±标准差年龄,35.46±12.09岁;31.6%为女性)。平均±标准差整体CVR T统计量为3.97±1.62。低CVR定义为平均T统计量≤4.2(n = 44,57.9%)。CVR异常的个体年龄较大(年龄:45.1±10.3岁 vs. 27.0±3.4岁,p < 0.001),高血压(31.8% vs. 14.3%,p = 0.0069)和高脂血症(18.2% vs. 3.1%,p = 0.0449)的发生率较高,收缩压(123.5±13.2 vs. 116.9±12.2 mmHg,p = 0.02)和舒张压(77.9±11.8 vs. 72.2±8.9, p = 0.0141)也较高。在单变量和多变量分析中,年龄、收缩压和高脂血症与异常CVR显著相关(年龄,每增加10岁OR:2.00,95%CI 1.40 - 2.78,p = 0.0078;高脂血症OR:8.54,95%CI 1.07 - 184.9,p = 0.0049,收缩压(每增加10 mmHg的OR:1.57,95%CI 1.10 - 2.10,p = 0.0084)。
传统心血管危险因素,特别是年龄、收缩压和高脂血症,与因癫痫诊断而接受fMRI检查、无基线CVD或脑血管疾病的年轻人的异常CVR显著相关。
