Abstract

PurposeThe placement of a pulmonary artery catheter sometimes needs long time by observing the pressure wave, and several factors have been reported to hinder the placement. In the present study, we examined whether enlargement of the aortic root is associated with longer time for the placement.MethodWe examined the time required for the catheter placement. The catheter placement time was defined as the duration of time required for the catheter to float from the CVP position to the pulmonary artery. The catheter placement was performed by one experienced physician. We examined the following factors on the catheter placement time: the patient’s age, height, weight, cardiothoracic ratio, tricuspid regurgitation, ejection fraction and the diameter of aortic annulus, sinus of Valsalva, sinotubular junction, and proximal ascending aorta. These diameter values were divided by body surface area (BSA) to equalize among different physical sizes. The data were analyzed by multiple linear regression analysis after univariate analysis.ResultsThe univariate analysis showed that ejection fraction and aortic annulus/BSA, sinus of Valsalva/BSA, and sinotubular junction/BSA correlated with the catheter placement time (P = 0.079, 0.030, 0.029, and 0.025, respectively). Since the three aortic root values correlated with each other, we chose the sinotubular junction/BSA for the following multivariate analysis, because of the highest P value. The multivariate analysis showed that sinotubular junction/BSA had a significant positive association with the placement time (P = 0.048).ConclusionThe present study showed that enlargement of the aortic root is associated with long placement time of the catheter.

Highlights

  • The placement of a pulmonary artery catheter sometimes needs long time by observing the pressure wave, and several factors have been reported to hinder the placement

  • The univariate analysis showed that ejection fraction and aortic annulus/body surface area (BSA), sinus of Valsalva/BSA, and sinotubular junction/BSA correlated with the catheter placement time (P = 0.079, 0.030, 0.029, and 0.025, respectively)

  • We routinely place the catheter in patients undergoing cardiovascular surgery after induction of anesthesia by monitoring the pressure waveform

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Summary

Results

The univariate analysis showed that EF and the diameters of aortic root/BSA, including aortic annulus, sinuses of Valsalva, and sinotubular junction, significantly correlated with the catheter placement time (P = 0.079, 0.030, 0.029, and 0.025, respectively). Data were expressed as means ± SD or as a median range and interquartile range as appropriate CTR cardiothoracic ratio, LVEF left ventricular ejection fraction, TR tricuspid regurgitation, BSA body surface area, S Val sinuses of Valsalva, STJ sinotubular junction, AscAo proximal ascending aorta, AS aortic stenosis, AR aortic regurgitation, MS mitral stenosis, MR mitral regurgitation, CAD coronary artery disease, DCM dilated cardiomyopathy, TAA thoracic aorta aneurysm, AAE annuloaortic ectasia, CoA coarctation of the aorta so we chose the diameter of sinotubular junction/BSA which represented the diameter of aortic root for the following multivariate analysis, because of the highest P value in the univariate analysis. The multivariate analysis showed that the diameter of sinotubular junction/BSA had a significant positive association with the time to place a PAC (P = 0.048; Table 3)

Conclusion
Methods
Discussion

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