目的探讨急性前循环大血管闭塞性脑卒中患者应用单纯中间导管抽吸取栓与支架取栓治疗的临床疗效。方法选取2019年3月至2021年3月洛阳市第一人民医院接收的急性前循环大血管闭塞性脑卒中患者85例,将行支架取栓治疗的患者设为对照组(n=39)...目的探讨急性前循环大血管闭塞性脑卒中患者应用单纯中间导管抽吸取栓与支架取栓治疗的临床疗效。方法选取2019年3月至2021年3月洛阳市第一人民医院接收的急性前循环大血管闭塞性脑卒中患者85例,将行支架取栓治疗的患者设为对照组(n=39),将行单纯中间导管抽吸取栓治疗的患者设为观察组(n=46)。回顾性分析两组患者临床资料,比较其血管再通情况与并发症及手术前后脑卒中量表(NIHSS)、改良Rankin评分量表(MRS)评分。结果两组患者术后NIHSS评分、MRS评分较术前均明显下降,且术后14 d NIHSS评分明显低于术后7 d NIHSS评分,观察组术后7 d、术后14 d NIHSS评分与术后14 d MRS评分分别为(9.79±6.28)分、(6.68±5.46)分、(1.10±0.70)分,均明显低于对照组(P<0.05);手术后观察组患者血管再通率为93.48%,显著优于对照组患者的76.92%(P<0.05),两组并发症发生率比较,差异无统计学意义(P>0.05)。结论单纯中间导管抽吸取栓治疗急性前循环大血管闭塞性脑卒中患者效果显著优于支架取栓治疗,可有效提高患者血管再通率,改善患者预后。展开更多
The vibration protection strategy of large rotating machinery in thermal power and petroleum industry hasbeen applied for many years, but it still develops without breakthrough in hydropower unit operation due to thec...The vibration protection strategy of large rotating machinery in thermal power and petroleum industry hasbeen applied for many years, but it still develops without breakthrough in hydropower unit operation due to thecomplication of its operation and vibration. According to this situation, the vibration protection strategy is proposedbased on the analysis of unit vibration mechanism. The vibration protection strategywith two functions of timelyprotection and fault diagnosis are of great engineering application value.展开更多
文摘目的探讨急性前循环大血管闭塞性脑卒中患者应用单纯中间导管抽吸取栓与支架取栓治疗的临床疗效。方法选取2019年3月至2021年3月洛阳市第一人民医院接收的急性前循环大血管闭塞性脑卒中患者85例,将行支架取栓治疗的患者设为对照组(n=39),将行单纯中间导管抽吸取栓治疗的患者设为观察组(n=46)。回顾性分析两组患者临床资料,比较其血管再通情况与并发症及手术前后脑卒中量表(NIHSS)、改良Rankin评分量表(MRS)评分。结果两组患者术后NIHSS评分、MRS评分较术前均明显下降,且术后14 d NIHSS评分明显低于术后7 d NIHSS评分,观察组术后7 d、术后14 d NIHSS评分与术后14 d MRS评分分别为(9.79±6.28)分、(6.68±5.46)分、(1.10±0.70)分,均明显低于对照组(P<0.05);手术后观察组患者血管再通率为93.48%,显著优于对照组患者的76.92%(P<0.05),两组并发症发生率比较,差异无统计学意义(P>0.05)。结论单纯中间导管抽吸取栓治疗急性前循环大血管闭塞性脑卒中患者效果显著优于支架取栓治疗,可有效提高患者血管再通率,改善患者预后。
文摘The vibration protection strategy of large rotating machinery in thermal power and petroleum industry hasbeen applied for many years, but it still develops without breakthrough in hydropower unit operation due to thecomplication of its operation and vibration. According to this situation, the vibration protection strategy is proposedbased on the analysis of unit vibration mechanism. The vibration protection strategywith two functions of timelyprotection and fault diagnosis are of great engineering application value.