Department of Radiology, Korea University Ansan Hospital, Ansan-si, Gyeonggi-do, South Korea.
Department of Radiology, Ajou University Hospital, Suwon-si, Gyeonggi-do, South Korea.
J Vasc Access. 2022 Jul;23(4):550-557. doi: 10.1177/11297298211001147. Epub 2021 Mar 22.
To develop formulas that predict the optimal length of a peripherally inserted central catheter (PICC) from variables measured on anteroposterior (AP) chest radiography (CXR).
A total of 134 patients who underwent PICC insertion at the angiography suites were included. Clinical information such as patient height, weight, sex, age, cubital crease to inferior carina border length (CCL), and approach side were recorded. The following variables via measurement on AP-CXR were also collected: (1) distance from the T1 to T12 vertebra (DTV), (2) maximal horizontal thoracic diameter (MHTD), and (3) clavicle length (CL).
Significant correlations between CCL and the following variables were identified in linear regression analyses: approach side, height, weight, sex, DTV, MHTD, and CL. Multiple regression results motivated the following two formulas: (1) with height data, estimated CCL (cm) = 12.429 + 0.113 × Height + 0.377 × MHTD (if left side, add 2.933 cm, if female, subtract 0.723 cm); (2) without height data, estimated CCL = 19.409 + 0.424 × MHTD + 0.287 × CL + 0.203 × DTV (if left side, add 3.063 cm, if female, subtract 0.997 cm). Estimated final PICC length can be calculated as (Estimated CCL, cm) + 4.0 (distance from inferior carina border to about 2.0 vertebra body unit, cm) - (distance from set cubital crease to designated puncture point, cm).
This study suggests new formulas to predict the appropriate PICC length for bedside insertion using previous AP-CXRs. With this formula, ideal positioning of the catheter's tip can be achieved in the clinical practice, avoiding or minimalizing the exposed catheter out of skin. These formulas may be helpful for patients who cannot undergo intra-hospital transport due to hemodynamic instability or who are concerned about isolation precautions due to any infectious-related contamination.
开发从前后位(AP)胸部 X 线摄影(CXR)测量的变量预测外周插入中心导管(PICC)最佳长度的公式。
共纳入 134 例在血管造影室行 PICC 置管术的患者。记录患者身高、体重、性别、年龄、肘窝至下隆突边界长度(CCL)和入路侧等临床信息。还通过 AP-CXR 测量收集以下变量:(1)从 T1 到 T12 椎体的距离(DTV),(2)最大胸径(MHTD),和(3)锁骨长度(CL)。
线性回归分析显示 CCL 与以下变量呈显著相关:入路侧、身高、体重、性别、DTV、MHTD 和 CL。多元回归结果促使提出以下两个公式:(1)有身高数据时,估计的 CCL(cm)=12.429+0.113×身高+0.377×MHTD(左侧加 2.933cm,女性减 0.723cm);(2)无身高数据时,估计的 CCL=19.409+0.424×MHTD+0.287×CL+0.203×DTV(左侧加 3.063cm,女性减 0.997cm)。最终 PICC 长度的估计值可计算为(估计的 CCL,cm)+4.0(从下隆突边界到约 2.0 个椎体单位的距离,cm)-(从设定的肘窝到指定穿刺点的距离,cm)。
本研究提出了使用先前的 AP-CXR 预测床边插入合适 PICC 长度的新公式。使用该公式,可以在临床实践中实现导管尖端的理想定位,避免或最小化导管从皮肤外暴露。这些公式可能对因血流动力学不稳定而无法进行院内转运的患者或因任何与感染相关的污染而担心隔离预防的患者有帮助。
