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EuroIntervention. 2021 Dec 3;17(11):e925-e931. doi: 10.4244/EIJ-D-21-00453.
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Insufficient adenosine-induced hyperemia is a major determinant of discordance between non-hyperemic pressure ratio and fractional flow reserve.腺苷诱导的充血不足是非充血压力比与血流储备分数不匹配的主要决定因素。
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本文引用的文献

1
Non-hyperaemic coronary pressure measurements to guide coronary interventions.非高血运状态下的冠状动脉压力测量指导冠状动脉介入治疗。
Nat Rev Cardiol. 2020 Oct;17(10):629-640. doi: 10.1038/s41569-020-0374-z. Epub 2020 May 14.
2
Feasibility of intracoronary nicorandil for inducing hyperemia on fractional flow reserve measurement: Comparison with intracoronary papaverine.冠状动脉内应用尼可地尔诱导充血用于血流储备分数测量的可行性:与冠状动脉内应用罂粟碱的比较。
Int J Cardiol. 2020 Sep 1;314:1-6. doi: 10.1016/j.ijcard.2020.05.013. Epub 2020 May 6.
3
Quantitative myocardial perfusion positron emission tomography and caffeine revisited with new insights on major adverse cardiovascular events and coronary flow capacity.定量心肌灌注正电子发射断层扫描和咖啡因与重大心血管不良事件和冠状动脉血流能力的新见解重新探讨。
Eur Heart J Cardiovasc Imaging. 2019 Jul 1;20(7):751-762. doi: 10.1093/ehjci/jez080.
4
2018 ESC/EACTS Guidelines on myocardial revascularization.2018年欧洲心脏病学会/欧洲心胸外科学会心肌血运重建指南。
Eur Heart J. 2019 Jan 7;40(2):87-165. doi: 10.1093/eurheartj/ehy394.
5
Effects of Caffeine on Myocardial Blood Flow: A Systematic Review.咖啡因对心肌血流的影响:系统评价。
Nutrients. 2018 Aug 13;10(8):1083. doi: 10.3390/nu10081083.
6
Single Photon Emission Computed Tomography (SPECT) Myocardial Perfusion Imaging Guidelines: Instrumentation, Acquisition, Processing, and Interpretation.单光子发射计算机断层扫描(SPECT)心肌灌注成像指南:仪器设备、采集、处理与解读
J Nucl Cardiol. 2018 Oct;25(5):1784-1846. doi: 10.1007/s12350-018-1283-y.
7
Accuracy of Fractional Flow Reserve Measurements in Clinical Practice: Observations From a Core Laboratory Analysis.在临床实践中测量分流量储备的准确性:核心实验室分析观察。
JACC Cardiovasc Interv. 2017 Jul 24;10(14):1392-1401. doi: 10.1016/j.jcin.2017.03.031.
8
Standardization of Fractional Flow Reserve Measurements.分流量储备测量的标准化。
J Am Coll Cardiol. 2016 Aug 16;68(7):742-53. doi: 10.1016/j.jacc.2016.05.067.
9
Caffeine does not significantly reduce the sensitivity of vasodilator stress myocardial perfusion imaging.咖啡因不会显著降低血管扩张剂负荷心肌灌注成像的敏感性。
J Nucl Cardiol. 2016 Jun;23(3):442-6. doi: 10.1007/s12350-015-0364-4. Epub 2015 Dec 14.
10
Is Caffeine Abstention Necessary Before Adenosine-Induced Fractional Flow Reserve Measurement?在腺苷诱导的血流储备分数测量前必须戒除咖啡因吗?
J Am Coll Cardiol. 2015 Oct 27;66(17):1943-5. doi: 10.1016/j.jacc.2015.08.034.

线性浓度-反应关系的血清咖啡因与腺苷诱导的血流储备分数高估:与罂粟碱的比较。

Linear concentration-response relationship of serum caffeine with adenosine-induced fractional flow reserve overestimation: a comparison with papaverine.

机构信息

Division of Cardiology, Showa University School of Medicine, Tokyo, Japan.

出版信息

EuroIntervention. 2021 Dec 3;17(11):e925-e931. doi: 10.4244/EIJ-D-21-00453.

DOI:10.4244/EIJ-D-21-00453
PMID:34647891
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9725067/
Abstract

BACKGROUND

Caffeine intake from one cup of coffee one hour before adenosine stress tests, corresponding to serum caffeine levels of 3-4 mg/L, is thought to be acceptable for non-invasive imaging.

AIMS

We aimed to elucidate whether serum caffeine is independently associated with adenosine-induced fractional flow reserve (FFR) overestimation and their concentration-response relationship.

METHODS

FFR was measured using adenosine (FFRADN) and papaverine (FFRPAP) in 209 patients. FFRADN overestimation was defined as FFRADN - FFRPAP. The locally weighted scatterplot smoothing (LOWESS) approach was applied to evaluate the relationship between serum caffeine level and FFRADN overestimation. Multiple regression analysis was used to determine independent factors associated with FFRADN overestimation.

RESULTS

Caffeine was ingested at <12 hours in 85 patients, at 12-24 hours in 35 patients, and at >24 hours in 89 patients. Multiple regression analysis identified serum caffeine level as the strongest factor associated with FFRADN overestimation (p<0.001). The LOWESS curve demonstrated that FFRADN overestimation started from just above the lower detection limit of serum caffeine and increased approximately 0.01 FFR unit per 1 mg/L increase in serum caffeine level with a linear relationship. The 90th percentile of serum caffeine levels for the ≤12-hour, the 12-24-hour, and the >24-hour groups corresponded to FFRADN overestimations by 0.06, 0.03, and 0.02, respectively.

CONCLUSIONS

Serum caffeine overestimates FFRADN values in a linear concentration-response manner. FFRADN overestimation occurs at much lower serum caffeine levels than those that were previously believed. Our results highlight that standardised caffeine control is required for reliable adenosine-induced FFR measurements.

摘要

背景

在进行腺苷负荷试验前一小时饮用一杯咖啡,相应的血清咖啡因水平为 3-4mg/L,被认为可用于无创成像。

目的

本研究旨在阐明血清咖啡因是否与腺苷诱导的血流储备分数(FFR)高估独立相关及其浓度-反应关系。

方法

209 例患者接受腺苷(FFRADN)和罂粟碱(FFRPAP)测量 FFR。FFRADN 高估定义为 FFRADN-FFRPAP。应用局部加权散点平滑(LOWESS)方法评估血清咖啡因水平与 FFRADN 高估的关系。采用多元回归分析确定与 FFRADN 高估相关的独立因素。

结果

85 例患者在<12 小时内摄入咖啡因,35 例患者在 12-24 小时内摄入咖啡因,89 例患者在>24 小时内摄入咖啡因。多元回归分析确定血清咖啡因水平是与 FFRADN 高估相关的最强因素(p<0.001)。LOWESS 曲线表明,FFRADN 高估从血清咖啡因的下限检测值开始,并随着血清咖啡因水平每增加 1mg/L 而增加约 0.01 的 FFR 单位,呈线性关系。≤12 小时、12-24 小时和>24 小时组的血清咖啡因水平第 90 百分位数分别对应 FFRADN 高估 0.06、0.03 和 0.02。

结论

血清咖啡因呈线性浓度-反应关系高估 FFRADN 值。FFRADN 高估发生在比之前认为的更低的血清咖啡因水平。我们的结果强调,需要进行标准化的咖啡因控制,以确保可靠的腺苷诱导的 FFR 测量。