Pulmonary artery catheter | |
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Intervention | |
Diagram of Pulmonary artery catheter
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ICD-9-CM | 89.64 |
MeSH | D002407 |
eMedicine | 1824547 |
In medicine pulmonary artery catheterization (PAC) is the insertion of a catheter into a pulmonary artery. Its purpose is diagnostic; it is used to detect heart failure or sepsis, monitor therapy, and evaluate the effects of drugs. The pulmonary artery catheter allows direct, simultaneous measurement of pressures in the right atrium, right ventricle, pulmonary artery, and the filling pressure ("wedge" pressure) of the left atrium.
The pulmonary artery catheter is frequently referred to as a Swan-Ganz catheter, in honor of its inventors Jeremy Swan and William Ganz, from Cedars-Sinai Medical Center.
General indications are:
No study has definitively demonstrated improved outcome in critically ill patients managed with PA catheters. Given that the PA catheter is a monitoring tool and not a therapy in and of itself this is not entirely surprising. Justification for its continued use rests on a large body of clinical experience, disadvantages of other cardiac output monitoring systems, its ability to accurately measure pulmonary artery pressure, and the potential to use the catheter as a direct conduit for drug administration into the pulmonary artery.
The catheter is introduced through a large vein—often the internal jugular, subclavian, or femoral veins. From this entry site, it is threaded through the right atrium of the heart, the right ventricle, and subsequently into the pulmonary artery. The passage of the catheter may be monitored by dynamic pressure readings from the catheter tip or with the aid of fluoroscopy.
The standard pulmonary artery catheter has two lumens (Swan-Ganz) and is equipped with an inflatable balloon at the tip, which facilitates its placement into the pulmonary artery through the flow of blood. The balloon, when inflated, causes the catheter to "wedge" in a small pulmonary blood vessel. So wedged, the catheter can provide an indirect measurement of the pressure in the left atrium of the heart, showing a mean pressure, in addition to a, x, v, and y waves which have implications for status of the left atria and the mitral valve. Left ventricular end diastolic pressure (LVedp) is measured using a different procedure, with a catheter that has directly crossed the aortic valve and is well positioned in the left ventricle. LV edp reflects fluid status of the individual in addition to heart health. See also pulmonary wedge pressure and ventricular pressure.