Page 532 - Cardiac Nursing

P. 532

8 A
8:2
P
M
9/0
0
009
9/2
08
08
p46
Apt
g
P
ara
e 5
qxd
K34
0-c
21_
K34
LWB K34 0-c 21_ p46 0-5 10. qxd 0 9/0 9/2 009 0 0 8:2 8 A M P a a g e 5 08 Apt ara
LWBK340-c21_21_p460-510.qxd 09/09/2009 08:28 AM Page 508 Aptara
L L LWB
0-5
10.
10.
508 P A R T III / Assessment of Heart Disease
420. Piccini, J. P., & Hranitzky, P. (2007). Diagnostic monitoring strategies in nous oxygen saturation. Journal of Cardiothoracic and Vascular Anesthesia,
heart failure management. American Heart Journal, 153, 12–17. 15, 574–579.
421. Abraham, W. T., Foreman, B., Fishel, R., et al. (2005). Fluid Accumula- 446. Chawla, L. S., Zia, H., Gutierrez, G., et al. (2004). Lack of equivalence be-
6
tion Status Trial (FAST). Heart Rhythm, 2, S65–S66. tween central and mixed venous oxygen saturation. Chest, 126, 1891–1896.
6
422. Ypenburg, C., Bax, J. J., van der Wall, E. E., et al. (2007). Intrathoracic 447. Varpula, M., Karlsson, S., Ruokonen, E., et al. (2006). Mixed venous
impedance monitoring to predict decompensated heart failure. American oxygen saturation cannot be estimated by central venous oxygen satura-
Journal of Cardiology, 99, 554–557. tion in septic shock. Intensive Care Medicine, 32, 1336–1343.
423. Wadas, T. M. (2005). The implantable hemodynamic monitoring sys- 448. Yazigi, A., El Khoury, C., Jebara, S., et al. (2008). Comparison of central
tem. Critical Care Nurse, 25, 14–16, 18–20, 22–24. venous to mixed venous oxygen saturation in patients with low cardiac
424. Bourge, R. C., Abraham, W. T., Adamson, P. B., et al. (2008). Random- index and ﬁlling pressures after coronary artery surgery. Journal of Car-
ized controlled trial of an implantable continuous hemodynamic moni- diothoracic and Vascular Anesthesia, 22, 77–83.
tor in patients with advanced heart failure: The COMPASS-HF study. 449. Sander, M., Spies, C. D., Foer, A., et al. (2007). Agreement of central ve-
Journal of the American College of Cardiology, 51, 1073–1079. nous saturation and mixed venous saturation in cardiac surgery patients.
425. Ritzema, J., Melton I. C., Richards, A. M., et al. (2007). Direct left atrial Intensive Care Medicine, 33, 1719–1725.
pressure monitoring in ambulatory heart failure patients: Initial experience 450. Rivers, E. (2006). Mixed vs central venous oxygen saturation may be not
6
6
with a new permanent implantable device. Circulation, 116, 2952–2959. numerically equal, but both are still clinically useful. Chest, 129, 507–508.
426. Walton, A. S., & Krum, H. (2005). The Heartpod implantable heart fail- 451. Rady, M. Y. (1992). The role of central venous oximetry, lactic acid con-
ure therapy system. Heart, Lung & Circulation, 14(Suppl. 2), S31–S33. centration and shock index in the evaluation of clinical shock: A review.
4
4
427. Teerlink, J. R. (2008). Learning the points of COMPASS-HF: Assessing Resuscitation, 24, 55–60.
implantable hemodynamic monitoring in heart failure patients. Journal 452. Bracht, H., Hanggi, M., Jeker, B., et al. (2007). Incidence of low central
of the American College of Cardiology, 51, 1080–1082. venous oxygen saturation during unplanned admissions in a multidiscipli-
428. Rady, M. Y., Rivers, E. P., & Nowak, R. M. (1996). Resuscitation of the nary intensive care unit: An observational study. Critical Care, 11, R2–R9.
critically ill in the ED: Responses of blood pressure, heart rate, shock in- 453. Collaborative Study Group on Perioperative ScvO 2 Monitoring. (2006).
dex, central venous oxygen saturation, and lactate. American Journal of Multicentre study on peri- and postoperative central venous oxygen sat-
4
4
Emergency Medicine, 14, 218–225. uration in high-risk surgical patients. Critical Care, 10, R158–R165.
429. Ander, D. S., Jaggi, M., Rivers, E., et al. (1998). Undetected cardiogenic 454. Pearse, R., Dawson, D., Fawcett, J., et al. (2005). Changes in central ve-
shock in patients with congestive heart failure presenting to the emer- nous saturation after major surgery, and association with outcome. Crit-
gency department. American Journal of Cardiology, 82, 888–891. ical Care, 9, R694–R699.
430. Wo, C. C., Shoemaker, W. C., Appel, P. L., et al. (1993). Unreliability of 455. de Oliveira, C. F., de Oliveira, D. S., Gottschald, A. F., et al. (2008).
blood pressure and heart rate to evaluate cardiac output in emergency re- ACCM/PALS haemodynamic support guidelines for paediatric septic
suscitation and critical illness. Critical Care Medicine, 21, 218–223. shock: An outcomes comparison with and without monitoring central
4
431. Bauer, P., Reinhart, K., & Bauer, M. (2008). Significance of venous venous oxygen saturation. Intensive Care Medicine, 34, 1065–1075.
4
oximetry in the critically ill. Medicina Intensiva / Sociedad Española de 456. Varpula, M., Karlsson, S., Ruokonen, E., et al. (2007). Mixed venous
Medicina Intensiva y Unidades Coronarias, 32, 134–142. oxygen saturation cannot be estimated by central venous oxygen satura-
432. Gawlinski, A. (1998). Can measurement of mixed venous oxygen satu- tion in septic shock. Intensive Care Medicine, 33, 545; author reply 546.
ration replace measurement of cardiac output in patients with advanced 457. Bakker, J., & Jansen, T. C. (2007). Don’t take vitals, take a lactate. In-
7
7
heart failure? American Journal of Critical Care, 7, 374–380. tensive Care Medicine, 33, 1863–1865.
433. Vincent, J. L., & De Backer, D. (2004). Oxygen transport–the oxygen 458. Howell, M. D., Donnino, M., Clardy, P., et al. (2007). Occult hypoper-
delivery controversy. Intensive Care Medicine, 30, 1990–1996. fusion and mortality in patients with suspected infection. Intensive Care
434. Yalavatti, G. S., De Backer, D., & Vincent, J. L. (2000). Assessment of Medicine, 33, 1892–1899.
cardiac index in anemic patients. Chest, 118, 782–787. 459. Singhal, R., Coghill, J. E., Guy, A., et al. (2005). Serum lactate and base
435. Atkins, P., Hapshe, E., & Riegel, B. (1994). Effects of bedbath on mixed deﬁcit as predictors of mortality after ruptured abdominal aortic aneurysm
venous oxygen saturation and heart rate in coronary artery bypass graft repair. European Journal of Vascular and Endovascular Surgery, 30, 263–266.
patients. American Journal of Critical Care, 3, 107–115. 460. Maillet, J. M., Le Besnerais, P., Cantoni, M., et al. (2003). Frequency,
436. Horiuchi, K., Jordan, D., Cohen, D., et al. (1997). Insights into the in- risk factors, and outcome of hyperlactatemia after cardiac surgery. Chest,
creased oxygen demand during chest physiotherapy. Critical Care Medi- 123, 1361–1366.
cine, 25, 1347–1351. 461. Ranucci, M., De Toffol, B., Isgro, G., et al. (2006). Hyperlactatemia dur-
437. Banasik, J. L., & Emerson, R. J. (2001). Effect of lateral positions on tis- ing cardiopulmonary bypass: Determinants and impact on postoperative
sue oxygenation in the critically ill. Heart & Lung, 30, 269–276. outcome. Critical Care, 10, R167–R175.
438. Reed, S., Jesurum-Urbaitis, J., Kumpula, J., et al. (2003). The effect of 462. Levy, B. (2006). Lactate and shock state: The metabolic view. Current
lateral positioning on tissue oxygenation in cardiovascular surgical pa- Opinion in Critical Care, 12, 315–321.
tients with anemia. American Journal of Critical Care, 12, 279–280. 463. Levy, B., Gibot, S., Franck, P., et al. (2005). Relation between muscle

439. Hébert, P. C. (1998). Transfusion requirements in critical care (TRICC): Na K ATPase activity and raised lactate concentrations in septic shock:
A multicentre, randomized, controlled clinical study. Transfusion Re- A prospective study. Lancet, 365, 871–875.
quirements in Critical Care Investigators and the Canadian Critical Care 464. Suistomaa, M., Ruokonen, E., Kari, A., et al. (2000). Time-pattern of
Trials Group. British Journal of Anaesthesiology,81(Suppl. 1), 25–33. lactate and lactate to pyruvate ratio in the ﬁrst 24 hours of intensive care
440. Rivers, E. P., Ander, D. S., & Powell, D. (2001). Central venous oxygen emergency admissions. Shock, 14, 8–12.
4
4
saturation monitoring in the critically ill patient. Current Opinion in 465. Nguyen, H. B., Rivers, E. P., Knoblich, B. P., et al. (2004). Early lactate
7
Critical Care, 7, 204–211. clearance is associated with improved outcome in severe sepsis and septic
7
441. Molnar, Z., Umgelter, A., Toth, I., et al. (2007). Continuous monitoring shock. Critical Care Medicine, 32, 1637–1642.
of ScvO(2) by a new ﬁbre-optic technology compared with blood gas 466. Kern, J. W., & Shoemaker, W. C. (2002). Meta-analysis of hemodynamic
oximetry in critically ill patients: A multicentre study. Intensive Care optimization in high-risk patients. Critical Care Medicine, 30, 1686–1692.
Medicine, 33, 1767–1770. 467. Poeze, M., Greve, J. W., & Ramsay, G. (2005). Meta-analysis of hemo-
442. Dueck, M. H., Klimek, M., Appenrodt, S., et al. (2005). Trends but not dynamic optimization: Relationship to methodological quality. Critical
individual values of central venous oxygen saturation agree with mixed Care, 9, R771–R779.
venous oxygen saturation during varying hemodynamic conditions. 468. Shapiro, N. I., Howell, M. D., Talmor, D., et al. (2006). Implementation
Anesthesiology, 103, 249–257. and outcomes of the Multiple Urgent Sepsis Therapies (MUST) proto-
4
443. Reinhart, K., Kuhn, H. J., Hartog, C., et al. (2004). Continuous central col. Critical Care Medicine, 34, 1025–1032.
4
venous and pulmonary artery oxygen saturation monitoring in the criti- 469. Nguyen, H. B., Corbett, S. W., Steele, R., et al. (2007). Implementation
cally ill. Intensive Care Medicine, 30, 1572–1578. of a bundle of quality indicators for the early management of severe sep-
444. Edwards, J. D., & Mayall, R. M. (1998). Importance of the sampling site sis and septic shock is associated with decreased mortality. Critical Care
for measurement of mixed venous oxygen saturation in shock. Critical Medicine, 35, 1105–1112.
Care Medicine, 26, 1356–1360. 470. Rivers, E. P., Coba, V., & Whitmill, M. (2008). Early goal–directed ther-
6
6
445. Turnaoglu, S., Tugrul, M., Camci, E., et al. (2001). Clinical applicabil- apy in severe sepsis and septic shock: A contemporary review of the liter-
ity of the substitution of mixed venous oxygen saturation with central ve- ature. Current Opinion in Anaesthesiology, 21, 128–140.

527 528 529 530 531 532 533 534 535 536 537