Background::Various experimental and clinical studies have reported on coronary microcirculatory dysfunction ( "no-reflow" phenomenon). Nevertheless, pathogenesis and effective treatment are yet to be fully elucidated. This study aimed to measure the intracoronary pressure gradient in the no-reflow artery during emergent percutaneous coronary intervention and explore the potential mechanism of no-reflow.Methods::From September 1st, 2018 to June 30th, 2019, intracoronary pressure in acute myocardial infarction patient was continuously measured by aspiration catheter from distal to proximal segment in the Department of Coronary Care Unit, Tianjin Chest Hospital, respectively in no-reflow arteries (no-reflow group) and arteries with thrombolysis in myocardial infarction-3 flow (control group). At least 12 cardiac cycles were consecutively recorded when the catheter was pulled back. The forward systolic pressure gradient was calculated as proximal systolic pressure minus distal systolic pressure. Comparison betwe

作者：Gao Ming-Dong；Zhang En-Yuan；Liu Yuan-Ying；Li Xiao-Wei；Xiao Jian-Yong；Sun Gen-Yi；Liu Yin

来源：中华医学杂志英文版 2020 年 133卷 7期