搏動血流 的英文怎麼說
中文拼音 [bódòngxiěliú]
搏動血流
英文
pulsatile flow-
Objective : to investigate the effect of pumpless portosystemic bypass in clinical piggyback liver transplantation. methods : after catheterized inferior mesenteric vein, the silastic catheter ( filled with heparin saline ) was connected with the catheterized tube of internal jugular vein or subclavian vein in four piggyback liver transplantation patients. the channel was opened after the portal vein was occluded. the portal vein blood poured into the superior vena cava through the pumpless channel. the changes of mesenteric congestion, portal vein pressure, blood pressure and pulse were observed. results : during the occlusion of portal vein, the portal vein pressure was increased greatly, the intestine was congested and swelled obviously and the blood pressure and pulse fluctuated gently. after the pumpless bypass opened, intestinal congestion and swell were abated markedly, the portal pressure, blood pressure and pulse gradually returned to normal range. conclusions : pumpless portosystemic bypass shows a great effect on clinical piggyback liver transplantation. it is a feasible and economical method
目的探討背駝式原位肝移植術中採用體外門-體靜脈無泵轉流的臨床效果.方法4例行背駝式原位肝移植患者,腸系膜下靜脈屬支插管經體外硅膠管(充滿肝素鹽水)與頸內靜脈或鎖骨下靜脈插管相接,在阻斷門靜脈后開通腸系膜下靜脈插管,門靜脈血從體外無泵轉流管流入上腔靜脈,觀察轉流前後腸道瘀血、門靜脈壓、血壓、脈搏等變化情況.結果門靜脈阻斷后腸道明顯瘀血、腫脹,門靜脈壓力明顯升高,血壓、脈搏有不同程度的波動,無泵門靜脈轉流開放后,腸道瘀血、腫脹明顯好轉,門靜脈壓力逐漸恢復正常水平,血壓、脈搏恢復正常.結論背駝式原位肝移植術中體外門-體靜脈無泵流具有方便、經濟、實用等優點,具有良好的臨床效果Objective to study the effect of external counterpulsation on cerebral blood flow
摘要目的研究體外反搏對腦動脈血流量的影響。It realizes the cooperates detection of electrocardiogram and pulse gram. it collects twelve lead electrocardiogram and pulse gram, display them on the screen at the same time, analyses and hands with electrocardiogram and pulse gram, obtains patients " hemodynamics parameters and electrocardiogram parameters, provides references for doctors " diagnosing. according to the results of detection, it provides suggestion or diagnosing references, as well as printing good diagnosis reports
他實現了心電圖和脈圖同時配合檢查,系統同時採集病人的十二導聯心電圖和脈搏圖,實時在屏幕上進行顯示,可隨時能夠對脈圖和心電圖波形進行分析處理,來獲得病人的血流動力學參數和心電圖參數,為醫生提供診斷與搶救的依據,並且能夠根據檢查結果自動為醫生提供診斷建議或進行診斷咨詢,並列印結果報告。Methods cerebral blood flows were simulated on hemodynamics models of cerebral blood on condition of normal and stroke with practical measured normal carotid blood pressure pre - ecp and during ecp
方法將實際測量的正常的頸動脈血壓和進行體外反搏時的頸動脈血壓作用於正常情況下和缺血情況下腦血流動力學數學模型,模擬上述情況下腦動脈血流的變化。Conclusion the blood perfusion of brain was improved and the time - dependent pattern of timedependent cerebral arterial blood was changed with ecp
結論體外反搏可以明顯增加大腦的血流灌注和改變腦動脈血流變化的時相模式。Pulse - hemodynamics - electrocardiogram detecting system ( peds ) is a medical electronic instrument developed to meet the need
脈搏血流動力-心電檢測系統正是適合這種潮流而研製出的醫用電子儀器。Peds is the medical instrument witch makes a no trauma cardiovascular hemodynamics diagnosing with patients " pulse and electrocardiogram signals and is applied to monitor patients
脈搏血流動力-心電檢測系統是通過病人的脈搏和心電信號進行無創傷性的心血管血流動力學診斷和床旁監護用的醫療儀器。Peds is a smart signal collecting and process system. it includes systematic software part and front end hardware part. the two parts implement its system function jointly
脈搏血流動力-心電檢測系統是一個智能化的信號採集處理系統,在其結構上主要分為系統軟體部分和前端硬體部分,由這兩部分配合工作完成系統功能。Around computer software and hardware technique, this paper presets the whole development process of peds and related technical issues and innovation, points out the defects and future development direction of peds
本論文從計算機軟、硬體技術領域論述了脈搏血流動力-心電檢測系統開發研製的整個過程以及相關的技術問題和技術創新,並指出了系統目前存在的不足和今後發展的方向。Results stroke and ecp may bring change of blood perfusion flow of brain
結果缺血和體外反搏都引起腦動脈血流的變化。Because single scans with the 256 - ct should provide a patient ' s calcium score, to detect hardening of the arteries, along with blood - flow data and strength of the pulse and heartbeat, it is expected to have value in determining more precisely the best candidates for more invasive procedures, such as cardiac catheterization or catheter angiograms of the brain
由於256 - ct單次掃描應該提供用來檢查動脈硬度的患者鈣化、血流數據、心跳和脈搏強度,其為更多侵入性檢查(如心導管術或腦部血管導管造影術)更準確決定最適患者期待有價值。分享友人