RiversE, NguyenB, HavstadS, ResslerJ, MuzzinA, KnoblichB, et al. Early goal-directed therapy in the treatment of severe sepsis and septic shock. N Engl J Med, 2001; 345(19):1368–1377.
2.
BiffiM, BorianiG, FrabettiL, BronzettiG, BranziA. Left superior vena cava persistence in patients undergoing pacemaker or cardioverter-defibrillator implantation: a 10-year experience. Chest, 2001; 120(1):139–144.
3.
GoyalSK, PunnamSR, VermaG, RubergFL. Persistent left superior vena cava: a case report and review of literature. Cardiovasc Ultrasound, 2008; 6:50.
4.
LeibowitzAB, HalpernNA, LeeMH, IbertiTJ. Left-sided superior vena cava: a not-so-unusual vascular anomaly discovered during central venous and pulmonary artery catheterization. Crit Care Med, 1992; 20(8):1119–1122.
5.
RubenfireM, EvangelistaJ, WajszczukWJ, KantrowitzA. Implication of a persistent left superior vena cava in transvenous pacemaker therapy and cardiac hemodynamic monitoring. Chest, 1974; 65(2):145–147.
6.
MorganDR, HanrattyCG, DixonLJ, TrimbleM, O'KeeffeDB. Anomalies of cardiac venous drainage associated with abnormalities of cardiac conduction system. Europace, 2002; 4(3):281–287.
7.
SnellenHA, van IngenHC, HoefsmitEC. Patterns of anomalous pulmonary venous drainage. Circulation, 1968; 38(1):45–63.
8.
SahinT, KilicT, CelikyurtU, BildiriciU, UralD. Persistent left superior vena cava and partial anomalous pulmonary venous return in an old asymptomatic female patient. Cardiol Res Pract, 2009; 2009:152–164.
9.
WalleyKR. Use of central venous oxygen saturation to guide therapy. Am J Respir Crit Care Med, 2011; 184(5):514–520.
10.
BeigiAA, SadeghiAM, KhosraviAR, KaramiM, MasoudpourH. Effects of the arteriovenous fistula on pulmonary artery pressure and cardiac output in patients with chronic renal failure. J Vasc Access, 2009; 10(3):160–166.
11.
YeeLL, DespotisGJ. Increased venous hemoglobin saturation during percutaneous right internal jugular vein cannulation in a patient with a mature right forearm arteriovenous hemodialysis fistula. Anesthesiology, 1990; 73(1):184–188.
12.
PoulikakosD, ThetiD, VasantiP, BanerjeeD, JonesD. The impact of arteriovenous fistula creation in pulmonary hypertension: measurement of pulmonary pressures by right heart catheterization in a patient with respiratory failure following arteriovenous fistula creation. Hemodial Int, 2012 [Epub ahead of print].
13.
JonesAE, ShapiroNI, TrzeciakS, ArnoldRC, ClaremontHA, KlineJA. Lactate clearance vs central venous oxygen saturation as goals of early sepsis therapy: a randomized clinical trial. JAMA, 2010; 303(8):739–746.
14.
KopteridesP, BonovasS, MavrouI, KostadimaE, ZakynthinosE, ArmaganidisA. Venous oxygen saturation and lactate gradient from superior vena cava to pulmonary artery in patients with septic shock. Shock, 2009; 31(6):561–567.
15.
DavisonDL, ChawlaLS, SelassieL, JonesEM, McHoneKC, VotaAR, et al. Femoral-based central venous oxygen saturation is not a reliable substitute for subclavian/internal jugular-based central venous oxygen saturation in patients who are critically ill. Chest, 2010; 138(1):76–83.
16.
ChawlaLS, ZiaH, GutierrezG, KatzNM, SeneffMG, ShahM. Lack of equivalence between central and mixed venous oxygen saturation. Chest, 2004; 126(6):1891–1896.
17.
el-MasryA, MukhtarAM, el-SherbenyAM, FathyM, el-MeteiniM. Comparison of central venous oxygen saturation and mixed venous oxygen saturation during liver transplantation. Anaesthesia, 2009; 64(4):378–382.
18.
ReinhartK, KuhnHJ, HartogC, BredleDL. Continuous central venous and pulmonary artery oxygen saturation monitoring in the critically ill. Intensive Care Med, 2004; 30(8):1572–1578.
