Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress 2023 EHA Congress 2023 ASCO Annual Meeting
Clinical Collections
Advances in Alzheimer’s

At a glance: The ONWARDS insulin icodec trials

A round-up of the ONWARDS phase 3 clinical trials evaluating the novel weekly insulin icodec in people with diabetes.
ADVANCED SEARCH
Log in
Top
Intensive Care Medicine
Published in: Intensive Care Medicine 6/2005

01-06-2005 | Original

Central venous-arterial carbon dioxide difference as an indicator of cardiac index

Authors: Joseph Cuschieri, Emanuel P. Rivers, Michael W. Donnino, Marius Katilius, Gordon Jacobsen, H. Bryant Nguyen, Nikolai Pamukov, H. Mathilda Horst

Published in: Intensive Care Medicine | Issue 6/2005

Login to get access

Abstract

Objective: The mixed venous-arterial (v-a) pCO2 difference has been shown to be inversely correlated with the cardiac index (CI). A central venous pCO2, which is easier to obtain, may provide similar information. The purpose of this study was to examine the correlation between the central venous-arterial pCO2 difference and CI. Design: Prospective, cohort study. Setting: Intensive care unit of an urban tertiary care hospital. Patients and participants: Eighty-three consecutive intensive care unit patients. Measurements: Simultaneous blood gases from the arterial, pulmonary artery (PA), and central venous (CV) catheters were obtained. At the same time point, cardiac indices were measured by the thermodilution technique (an average of three measurements). The cardiac indices obtained by the venous-arterial differences were compared with those determined by thermodilution. Results: The correlation (R2) between the mixed venous-arterial pCO2 difference and cardiac index was 0.903 ( p <0.0001), and the correlation between the central venous-arterial pCO2 difference and cardiac index was 0.892 ( p <0.0001). The regression equations for these relationships were natural log (CI)=1.837−0.159 (v-a) CO2 for the PA and natural log (CI)=1.787−0.151 (v-a) CO2 for the CV ( p <0.0001 for both). The root-mean-squared error for the PA and CV regression equations were 0.095 and 0.101, respectively. Conclusion: Venous-arterial pCO2 differences obtained from both the PA and CV circulations inversely correlate with the cardiac index. Substitution of a central for a mixed venous-arterial pCO2 difference provides an accurate alternative method for calculation of cardiac output.
Literature
1.
Pittman J, Gupta KJ (2003) Cardiac output monitoring: Will new technologies replace the pulmonary artery catheter. Yearbook of intensive care and emergency medicine, pp 481–498
2.
Durkin R, Gergits MA, Reed JF 3rd, Fitzgibbons J (1993) The relationship between the arteriovenous carbon dioxide gradient and cardiac index. J Crit Care 8:217–21
3.
Cuschieri J, Hays G, Rivers EP (1998) Arterial-venous carbon dioxide gradients as an indicator of cardiac index: A comparison between the mixed and central circulation. Crit Care Med 26:A56
4.
Johnson BA, Weil MH (1991) Redefining ischemia due to circulatory failure as dual defects of oxygen deficits and of carbon dioxide excesses. Crit Care Med 19:1432–438PubMed
5.
Bakker J, Vincent JL, Gris P, Leon M, Coffernils M, Kahn RJ (1992) Veno-arterial carbon dioxide gradient in human septic shock. Chest 101:509–515
6.
Cavaliere F, Martinelli L, Guarneri S, Varano C, Rossi M, Schiavello R (1996) Arterial-venous PCO2 gradient in early postoperative hours following myocardial revascularization. J Cardiovasc Surg (Torino) 37:499–503
7.
Ducey JP, Lamiell JM, Gueller GE (1992) Arterial-venous carbon dioxide tension difference during severe hemorrhage and resuscitation. Crit Care Med 20:518–22
8.
Halmagyi DF, Kennedy M, Varga D (1970) Hidden hypercapnia in hemorrhagic hypotension. Anesthesiology 33: 594–601
9.
Jacob SV, Hornby L, Lands LC (1997) Estimation of mixed venous PCO2 for determination of cardiac output in children. Chest 111:474–480
10.
Sato S, Okubo N, Satsumae T, Kumagai M, Yamamoto S, Nakayama H, Taguchi N (1994) Arteriovenous differences in PCO2 and cardiac output during CPR in the dog. Resuscitation 27:255–259
11.
Sato Y, Weil MH, Tang W (1998) Tissue hypercarbic acidosis as a marker of acute circulatory failure (shock). Chest 114:263–274
12.
Weil MH, Rackow EC, Trevino R, Grundler W, Falk JL, Griffel MI (1986) Difference in acid-base state between venous and arterial blood during cardiopulmonary resuscitation. N Engl J Med 315:153–156
13.
Teboul JL , Monnet X (2003) Clinical use of venoarterial pCO2 difference in septic shock. Yearbook of intensive care and emergency medicine, pp 574–582
14.
Rackow EC, Astiz ME, Mecher CE, Weil MH (1994) Increased venous-arterial carbon dioxide tension difference during severe sepsis in rats. Crit Care Med 22:121–125
15.
Sise MJ, Hollingsworth P, Brimm JE, Peters RM, Virgilio RW, Shackford SR (1981) Complications of the flow-directed pulmonary artery catheter: A prospective analysis in 219 patients. Crit Care Med 9:315–318
16.
Sandham JD, Hull RD, Brant RF, Knox L, Pineo GF, Doig CJ, Laporta DP, Viner S, Passerini L, Devitt H, Kirby A, Jacka M (2003) A randomized, controlled trial of the use of pulmonary-artery catheters in high-risk surgical patients. N Engl J Med 348: 5–14CrossRefPubMed
17.
Rivers E, Nguyen B, Havstad S, Ressler J, Muzzin A, Knoblich B, Peterson E, Tomlanovich M (2001) Early goal-directed therapy in the treatment of severe sepsis and septic shock. N Engl J Med 345:1368–1377CrossRefPubMed
18.
Mekontso-Dessap A, Castelain V, Anguel N, Bahloul M, Schauvliege F, Richard C, Teboul JL (2002) Combination of venoarterial PCO2 difference with arteriovenous O2 content difference to detect anaerobic metabolism in patients. Intensive Care Med 28:272–277
19.
Reinhart K, Rudolph T, Bredle DL, Hannemann L, Cain SM (1989) Comparison of central-venous to mixed-venous oxygen saturation during changes in oxygen supply/demand. Chest 95:1216–1221
Metadata
Title
Central venous-arterial carbon dioxide difference as an indicator of cardiac index
Authors
Joseph Cuschieri
Emanuel P. Rivers
Michael W. Donnino
Marius Katilius
Gordon Jacobsen
H. Bryant Nguyen
Nikolai Pamukov
H. Mathilda Horst
Publication date
01-06-2005
Publisher
Springer-Verlag
Published in
Intensive Care Medicine / Issue 6/2005
Print ISSN: 0342-4642
Electronic ISSN: 1432-1238
DOI
https://doi.org/10.1007/s00134-005-2602-8

Other articles of this Issue 6/2005

Intensive Care Medicine 6/2005 Go to the issue

Correspondence

Intrahospital transport of a patient with acute exacerbation of chronic obstructive pulmonary disease under noninvasive ventilation

Original

Noninvasive pressure support ventilation vs. continuous positive airway pressure in acute hypercapnic pulmonary edema

Editorial

Increasing the participation of children in clinical research

Pediatric Original

Comparison between cerebral tissue oxygenation index measured by near-infrared spectroscopy and venous jugular bulb saturation in children

Original

End-of-life decisions: a cohort study of the withdrawal of all active treatment in intensive care units in the United Kingdom

Original

Transcranial Doppler to detect on admission patients at risk for neurological deterioration following mild and moderate brain trauma