正常儿科受检者的体循环静脉直径、塌陷指数和右心房测量值。

Systemic venous diameters, collapsibility indices, and right atrial measurements in normal pediatric subjects.

机构信息

Division of Pediatric Cardiology, University of Nebraska Medical Center and Children's Hospital and Medical Center, Omaha, Nebraska.

出版信息

J Am Soc Echocardiogr. 2014 Feb;27(2):155-62. doi: 10.1016/j.echo.2013.09.002. Epub 2013 Oct 9.

DOI:10.1016/j.echo.2013.09.002

PMID:24120318

Abstract

BACKGROUND

Compromise of right heart function is an important feature of many forms of congenital heart disease, and right atrial (RA) pressure is clinically relevant. Inferior vena cava (IVC) diameter and inspiratory collapse are indices of RA pressure, but pediatric data are lacking.

METHODS

RA measurements, systemic venous diameters, and Doppler filling fractions were prospectively investigated in healthy volunteer children and adolescents. The IVC was measured in its long axis just above the junction with the hepatic veins in the subxiphoid view and the superior vena cava at its junction with the right atrium in the right parasternal view. The changes in IVC diameter (IVCD) during quiet respiration and with a sniff were recorded. Hepatic venous systolic filling fraction was calculated from Doppler velocities in the first hepatic vein. RA major-axis length, area, and volume were measured from the apical four-chamber view. Three measurements of each parameter were averaged over at least three respiratory cycles. The IVC collapsibility index (IVCCI) was calculated as [(IVCDmax - IVCDmin)/IVCDmax] × 100. Substituting IVCDsniff for IVCDmin in the formula, the IVCCIsniff was calculated.

RESULTS

Of 132 subjects enrolled, data in 120 (mean age, 8.3 ± 4.5 years) were analyzed. The maximal (expiratory) and minimal (inspiratory) diameters during free breathing were 12.1 ± 3.8 and 8.9 ± 3.8 mm for the IVC and 11.9 ± 3.4 and 7.9 ± 2.6 mm for the superior vena cava. IVCCImin and IVCCIsniff were 30 ± 13 and 47 ± 18, respectively. The RA major-axis length, area, and indexed maximal volume were 3.7 ± 0.7 cm, 10.3 ± 3.6 cm(2), and 22.3 ± 7.0 mL/m(2), respectively. Correlations of maximal superior vena cava and IVC dimensions with body surface area were slightly better than with age and much stronger than with RA volume. No significant correlation was found between IVCCIs and age, gender, or indexed RA volume.

CONCLUSIONS

Measurement of systemic venous diameters, collapsibility indices, and RA volumes is feasible in healthy children and adolescents. Venous diameters increase predictably with growth and so must be interpreted in light of body surface area. IVCCIs and hepatic venous filling fraction compare closely with those reported in adults. Pediatric nomograms for these parameters are provided, and they should next be evaluated for relation to directly measured RA pressure in this age group.

摘要

背景

右心功能不全是多种先天性心脏病的重要特征，而右心房（RA）压力具有临床相关性。下腔静脉（IVC）直径和吸气塌陷是 RA 压力的指标，但儿科数据缺乏。

方法

前瞻性研究健康志愿者儿童和青少年的 RA 测量、体静脉直径和多普勒充盈分数。在下腔静脉在剑突下视图中与肝静脉交界处上方的长轴上测量 IVC，并在右胸骨旁视图中测量上腔静脉在与右心房交界处的上腔静脉。记录 IVC 直径（IVCD）在安静呼吸和嗅探时的变化。从第一肝静脉的多普勒速度计算肝静脉收缩期充盈分数。从心尖四腔视图测量 RA 长轴长度、面积和容积。每个参数至少测量三个呼吸周期，取三个测量值的平均值。IVC 可塌陷性指数（IVCCI）计算为[(IVCDmax-IVCDmin)/IVCDmax]×100。用公式中 IVCDsniff 代替 IVCDmin，计算 IVCCIsniff。

结果

共纳入 132 例受试者，其中 120 例（平均年龄 8.3±4.5 岁）的数据进行了分析。IVC 的最大（呼气）和最小（吸气）直径在自由呼吸时分别为 12.1±3.8 和 8.9±3.8mm，上腔静脉分别为 11.9±3.4 和 7.9±2.6mm。IVCCImin 和 IVCCIsniff 分别为 30±13 和 47±18。RA 长轴长度、面积和最大指数容积分别为 3.7±0.7cm、10.3±3.6cm2 和 22.3±7.0mL/m2。最大上腔静脉和 IVC 直径与体表面积的相关性略优于与年龄的相关性，远强于与 RA 容积的相关性。IVCCIs 与年龄、性别或指数 RA 容积无显著相关性。

结论

在健康儿童和青少年中，系统静脉直径、可塌陷性指数和 RA 容积的测量是可行的。静脉直径随生长而有规律地增加，因此必须根据体表面积进行解释。IVCCIs 和肝静脉充盈分数与成人报告的结果非常接近。提供了这些参数的儿科图表，下一步将评估它们与该年龄段直接测量的 RA 压力的关系。

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正常儿科受检者的体循环静脉直径、塌陷指数和右心房测量值。

Systemic venous diameters, collapsibility indices, and right atrial measurements in normal pediatric subjects.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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