通过磁共振速度成像测量的完全性腔肺连接术中运动时的血流情况。
Flow during exercise in the total cavopulmonary connection measured by magnetic resonance velocity mapping.
作者信息
Pedersen E M, Stenbøg E V, Fründ T, Houlind K, Kromann O, Sørensen K E, Emmertsen K, Hjortdal V E
机构信息
Department of Cardiology, Aarhus University Hospital, Aarhus, Denmark.
出版信息
Heart. 2002 Jun;87(6):554-8. doi: 10.1136/heart.87.6.554.
OBJECTIVE
To measure caval and pulmonary flows at rest and immediately after exercise in patients with total cavopulmonary connection (TCPC).
DESIGN
An observational study using the patients as their own controls.
SETTING
Using a combination of magnetic resonance (MR) phase contrast techniques and an MR compatible bicycle ergometer, blood flow was measured in the superior vena cava, the tunnel from the inferior vena cava, and in the left and right pulmonary arteries during rest and on exercise (0.5 W/kg and 1.0 W/kg).
PATIENTS
Eleven patients aged 11.4 (4.6) years (mean (SD)) were studied 6.3 (3.8) years after TCPC operation.
MAIN OUTCOME MEASURES
Volume flow measured in all four branches of the TCPC connection during rest and exercise.
RESULTS
Systemic venous return (inferior vena cava plus superior vena cava) increased from 2.5 (0.1) l/min/m2 (mean (SEM)) to 4.4 (0.4) l/min/m2 (p < 0.05) during exercise, with even distribution to the two pulmonary arteries. At rest, inferior vena caval flow was higher than superior vena caval flow, at 1.4 (0.1) v 1.1 (0.1) l/min/m2 (p < 0.05). During exercise, inferior vena caval flow doubled (to 3.0 (0.3) l/min/m2) while superior vena caval flow only increased slightly (to 1.4 (0.1) l/min/m2) (p < 0.05). The increased blood flow mainly reflected an increase in heart rate. The inferior vena caval to superior vena caval flow ratio was 1.4 (0.1) at rest and increased to 1.8 (0.1) (p < 0.05) at 0.5 W/kg, and to 2.2 (0.2) at 1.0 W/kg (p < 0.05).
CONCLUSIONS
Quantitative flow measurements can be performed immediately after exercise using MR techniques. Supine leg exercise resulted in a more than twofold increase in inferior vena caval flow. This was equally distributed to the two lungs, indicating that pulmonary resistance rather than geometry decides flow distribution in the TCPC circulation.
目的
测量完全性腔肺连接(TCPC)患者静息时及运动后即刻的腔静脉和肺血流情况。
设计
以患者自身作为对照的观察性研究。
设置
采用磁共振(MR)相位对比技术与MR兼容的自行车测力计相结合的方法,在静息及运动(0.5W/kg和1.0W/kg)状态下,测量上腔静脉、下腔静脉隧道以及左右肺动脉的血流情况。
患者
11例年龄为11.4(4.6)岁(均值(标准差))的患者在TCPC手术后6.3(3.8)年接受研究。
主要观察指标
静息及运动时测量TCPC连接的所有四个分支的容积流量。
结果
运动时,体循环静脉回流(下腔静脉加上腔静脉)从2.5(0.1)升/分钟/平方米(均值(标准误))增加至4.4(0.4)升/分钟/平方米(p<0.05),且均匀分布至两支肺动脉。静息时,下腔静脉血流高于上腔静脉血流,分别为1.4(0.1)对1.1(0.1)升/分钟/平方米(p<0.05)。运动时,下腔静脉血流增加一倍(至3.0(0.3)升/分钟/平方米),而上腔静脉血流仅略有增加(至(0.1)升/分钟/平方米)(p<0.05)。血流增加主要反映心率增加。下腔静脉与上腔静脉血流比值在静息时为1.4(0.1),在0.5W/kg时增加至1.8(0.1)(p<0.05),在1.0W/kg时增加至2.2(0.2)(p<0.05)。
结论
使用MR技术可在运动后即刻进行血流定量测量。仰卧位腿部运动使下腔静脉血流增加两倍多。血流均匀分布至两肺,表明在TCPC循环中,肺阻力而非解剖结构决定血流分布。
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