Smriti Badhwar, Dinu S Chandran, Ashok K Jaryal, Rajiv Narang, Chetan Patel, Kishore Kumar Deepak
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Change in anterograde and retrograde blood flow velocities (delta anterograde blood flow velocity and retrograde blood flow velocity), anterograde shear rate and retrograde shear rate (delta ASR and RSR, respectively), and oscillatory shear index (delta) during forearm occlusion at 50 mm Hg above systolic pressure, from baseline was calculated. Myocardial perfusion was evaluated in patients using exercise single positron emission computed tomography and % myocardial PD was calculated from summed stress score.</p><p><strong>Results: </strong>LFMC emerged as independent predictor of defect severity after correcting for age and gender (<i>p</i> = 0.014). Sixty-seven patients (73.6%) and 15 healthy subjects (50%) showed constriction during occlusion. In stepwise backward regression analysis, RSR contributed 35.5% and ASR contributed 20.1% of the total 63.9% variability in artery diameter during occlusion.</p><p><strong>Conclusion: </strong>The results suggest that LFMC is independently associated with myocardial perfusion severity and is \"mediated\" by an altered flow profile during occlusion.</p>","PeriodicalId":29774,"journal":{"name":"Pulse","volume":"9 3-4","pages":"99-108"},"PeriodicalIF":3.8000,"publicationDate":"2021-11-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8738914/pdf/pls-0009-0099.pdf","citationCount":"1","resultStr":"{\"title\":\"Brachial Artery \\\"Low-Flow Mediated Constriction\\\" Is Associated with Myocardial Perfusion Defect Severity and Mediated by an Altered Flow Pattern during Occlusion.\",\"authors\":\"Smriti Badhwar, Dinu S Chandran, Ashok K Jaryal, Rajiv Narang, Chetan Patel, Kishore Kumar Deepak\",\"doi\":\"10.1159/000519558\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Introduction: </strong>The relationship between low flow-mediated constriction (LFMC), a new proposed measure of endothelial function, with cardiovascular disease severity and its hypothesized stimulus, that is, low flow, has not been comprehensively evaluated. 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引用次数: 1
摘要
低流量介导的收缩(LFMC)是一种新的内皮功能测量指标,与心血管疾病严重程度及其假设的刺激因素(即低流量)之间的关系尚未得到全面评估。该研究评估了缩窄期间肱动脉直径变化与心肌灌注缺陷(PD)严重程度和血流剖面不同组分改变之间的关系。方法:对91例患者和30例健康人的肱动脉闭塞反应进行观察。计算在收缩压高于50 mm Hg时前臂闭塞期间顺行和逆行血流速度(delta顺行血流速度和逆行血流速度)、顺行剪切速率和逆行剪切速率(分别为delta ASR和RSR)以及振荡剪切指数(delta)的变化。采用运动单正电子发射计算机断层扫描评估心肌灌注,并根据总应激评分计算心肌PD %。结果:校正年龄和性别后,LFMC成为缺陷严重程度的独立预测因子(p = 0.014)。67例患者(73.6%)和15例健康者(50%)在咬合过程中出现缩窄。在逐步回归分析中,闭塞期间动脉直径63.9%的变异性中,RSR占35.5%,ASR占20.1%。结论:结果表明LFMC与心肌灌注严重程度独立相关,并由闭塞时血流谱改变“介导”。
Brachial Artery "Low-Flow Mediated Constriction" Is Associated with Myocardial Perfusion Defect Severity and Mediated by an Altered Flow Pattern during Occlusion.
Introduction: The relationship between low flow-mediated constriction (LFMC), a new proposed measure of endothelial function, with cardiovascular disease severity and its hypothesized stimulus, that is, low flow, has not been comprehensively evaluated. The study evaluated association between change in brachial artery diameter during constriction with severity of myocardial perfusion defect (PD) and alterations in different components of flow profile.
Methods: Brachial artery responses to occlusion were assessed in 91 patients and 30 healthy subjects. Change in anterograde and retrograde blood flow velocities (delta anterograde blood flow velocity and retrograde blood flow velocity), anterograde shear rate and retrograde shear rate (delta ASR and RSR, respectively), and oscillatory shear index (delta) during forearm occlusion at 50 mm Hg above systolic pressure, from baseline was calculated. Myocardial perfusion was evaluated in patients using exercise single positron emission computed tomography and % myocardial PD was calculated from summed stress score.
Results: LFMC emerged as independent predictor of defect severity after correcting for age and gender (p = 0.014). Sixty-seven patients (73.6%) and 15 healthy subjects (50%) showed constriction during occlusion. In stepwise backward regression analysis, RSR contributed 35.5% and ASR contributed 20.1% of the total 63.9% variability in artery diameter during occlusion.
Conclusion: The results suggest that LFMC is independently associated with myocardial perfusion severity and is "mediated" by an altered flow profile during occlusion.
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