Experience of using a non-invasive pulse-wave transit time-based cardiac output monitoring in patients undergoing robot-assisted surgery with pneumoperitoneum in a head-down position

R, Kumar R: Hemodynamic changes during robotic

radical prostatectomy. Saudi Journal of Anaesthesia

１．

Bennett-Guerrero E, Welsby I, Dunn TJ, et al. :

The use of a postoperative morbidity survey to

evaluate patients with prolonged hospitalization after

2012; 6; 213-218

10．

Cannesson M: Comparison of FloTrac cardiac output

monitoring system in patients undergoing coronary

routine, moderate-risk, elective surgery. Anesth Analg

artery bypass grafting with pulmonary artery cardiac

1999; 89: 514-519

output measurements. Eur J Anaesthesiol 2007; 24: 832-

２．

Gan TJ, Mythen MG: Does peroperative gutmucosa hypoperfusion cause postoperative nausea and

vomiting? Lancet 1995; 345: 1123-1124

839

11．

Terada T, Oiwa A, Maemura Y, Samuna R, Kessoku

S, Ochiai R: Comparison of the ability of two continuous

３．

Krell RW, Glrotti ME, Dimick JB: Extended length of

cardiac output monitors to measure trends in cardiac

stay after surgery: complications, inefficient practice or

output: estimated continuous cardiac output measured

sick patients? JAMA Surg 2014; 149: 815-820

by modified pulse wave transit time and an arterial

４．

Corcoran T, Rhodes JE, Clarke S, Myles PS, Ho KM:

pulse contour-based cardiac output device. J clin Monit

Perioperative fluid management strategies in major

surgery: a stratified meta-analysis. Anesth Analg 2012;

114: 640-651

Comput 2016; 30: 621-627

12． Suehiro K, Tanaka K, Funao T, Matsuura T, Mori

T, Nishikawa K: Systemic vascular resistance has an

５．

Sugo Y, Sakai T, Terao M, Ukawa T, Ochiai R:

impact on the reliability of the Vigileo-Flotrac system

The comparison of a novel continuous cardiac output

in measuring cardiac output and tracking cardiac

monitor based on pulse wave transit time and echo

Doppler during exercise. Conf Proc IEEE Eng Med Biol

Soc 2012; 2012: 236-239

output changes. Br J Anaesth 2013; 111: 170-177

13．

Ishihara H, Okawa H, Tanabe K,Tsubo T, Sugo

Y, Akiyama T, Takeda S: A new non-invasive

６．

Sugo Y, Ukawa T, Takeda S, Ishihara H, Kazama T,

continuous cardiac output trend solely utilizing routine

Takeda J: A novel continuous cardiac output monitor

cardiovascular monitors. J Clin Monit Comput 2004; 18:

based on pulse wave transit time. Conf Proc IEEE Eng

Med Biol Soc 2010; 2010: 2853-2856

７．

Terada T, Maemura Y, Yoshida A, Muto R, Ochiai R:

313-320

14． Ochiai R, Takeda J, Hosaka H, Sugo Y, Tanaka R,

Soma T: The relationship between modified pulse wave

Evaluation of the estimated continuous cardiac output

transit time and cardiovascular changes in isoflurane

monitoring system in adults and children undergoing

anesthetized dogs. J Clin Monit Comput 1999; 15: 493-

kidney transplant surgery: a pilot study. J Clin Monit

Comput 2014; 28: 95-99

８．

Yamada T, Tsutsui M, Sugo Y, Akazawa T, Sato N,

Yamashita K, Ishihara H, Takeda J: Multicenter study

verifying a method of noninvasive continuous cardiac

501

15．

Vincent JL, Weil MH: Fluid challenge revisited. Crit

Care Med 2006; 34: 1333-1337

16． P e y t o n P J , C h o n g S W : M i n i m a l l y i n v a s i v e

output measurement using pulse wave transit time:

a comparison with intermittent bolus thermodilution

－42－

measurement of cardiac output during surgery and

critical care: a meta-analysis of accuracy and precision.

Anesthesiology 2010; 113: 1220-1235

...