Central venous pressure
Central venous pressure (CVP) is the
blood returning to the heart and the ability of the heart to pump the blood back into the arterial system. CVP is often a good approximation of right atrial pressure (RAP),[1] although the two terms are not identical, as a pressure differential can sometimes exist between the venae cavae and the right atrium. CVP and RAP can differ when arterial tone is altered. This can be graphically depicted as changes in the slope of the venous return plotted against right atrial pressure
(where central venous pressure increases, but right atrial pressure stays the same; VR = CVP − RAP).
CVP has been, and often still is, used as a surrogate for
intravenous fluid therapy.[2][3] Nevertheless, CVP monitoring is a useful tool to guide hemodynamic therapy
.
The cardiopulmonary baroreflex responds to an increase in CVP by decreasing systemic vascular resistance while increasing heart rate and ventricular contractility in dogs.[4]
Measurement
Site | Normal pressure range (in mmHg)[5]
| |
---|---|---|
Central venous pressure | 3–8 | |
Right ventricular pressure |
systolic | 15–30 |
diastolic | 3–8 | |
Pulmonary artery pressure | systolic | 15–30 |
diastolic | 4–12 | |
Pulmonary vein/ |
2–15 | |
Left ventricular pressure |
systolic | 100–140 |
diastolic | 3–12 |
Normal CVP in patients can be measured from two points of reference:[citation needed]
- cm H2O
- Midaxillary line: 8–15 cm H2O
CVP can be measured by connecting the patient's central venous catheter to a special infusion set which is connected to a small diameter water column. If the water column is calibrated properly the height of the column indicates the CVP.[citation needed]
In most intensive care units, facilities are available to measure CVP continuously.[citation needed]
Normal values vary between 4 and 12 cm H2O.
Factors affecting CVP
Factors that increase CVP include:[citation needed]
- Cardiac tamponade
- Decreased cardiac output
- Forced exhalation
- Heart failure
- Hypervolemia
- Mechanical ventilation and the application of positive end-expiratory pressure (PEEP)
- Pleural effusion
- Pulmonary embolism
- Pulmonary hypertension
- Tension pneumothorax
Factors that decrease CVP include:
- Deep inhalation
- Distributive shock
- Hypovolemia
See also
- Jugular venous pressure
- Pulmonary capillary wedge pressure
References
- ^ "Central Venous Catheter Physiology". Archived from the original on 2008-08-21. Retrieved 2009-02-27.
- S2CID 41905070.
- PMID 19059974. Archived from the original(PDF) on 2014-06-11. Retrieved 2012-12-09.
- PMID 24944253.
- ISBN 978-0-7817-7447-5.
External links
- Venous function and central venous pressure: a physiologic story - a technical discussion of the more modern understanding of central venous pressure; this may well conflict with the sources below.
- Central Venous Pressure and Pulmonary Capillary Wedge Monitoring
- Cardiovascular Physiology
- Central+Venous+Pressure at the U.S. National Library of Medicine Medical Subject Headings (MeSH)