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Prehospital Emergency Care Volume 12, 2008 - Issue 2
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Military Medicine

Limitations of End-Tidal CO2 as an Early Indicator of Central Hypovolemia in Humans

John G. McManus The U.S. Army Institute of Surgical Research, Fort Sam Houston, Texas
, MD, MRC,
Kathy L. Ryan The U.S. Army Institute of Surgical Research, Fort Sam Houston, Texas
, PhD,
Melinda J. Morton The U.S. Army Institute of Surgical Research, Fort Sam Houston, Texas
, BS,
Caroline A. Rickards The U.S. Army Institute of Surgical Research, Fort Sam Houston, Texas
, PhD,
William H. Cooke The U.S. Army Institute of Surgical Research, Fort Sam Houston, Texas
, PhD &
Victor A. Convertino The U.S. Army Institute of Surgical Research, Fort Sam Houston, Texas
, PhD
Pages 199-205 | Received 21 Jun 2007, Accepted 10 Oct 2007, Published online: 02 Jul 2009

References

  • Sauaia A, Moore F A, Moore E E, Moser K S, Brennan R, Read R A, Pons P T. Epidemiology of trauma deaths: a reassessment. J Trauma 1995; 38: 185–193
  • Bellamy R F. The causes of death in conventional land warfare: implications for combat casualty care research. Mil Med. 1984; 149: 55–62
  • Champion H R, Sacco W J, Carnazzo A J, Copes W, Fouty W J. Trauma score. Crit Care Med. 1981; 9: 672–676
  • Champion H R, Sacco W J, Copes W S, Gann D S, Gennarelli T A, Flanagan M E. A revision of the trauma score. J Trauma 1989; 29: 623–629
  • Mullins R J, Veum-Stone J, Helfand M, Zimmer-Gembeck M, Hedges J R, Southard P A, Trunkey D D. Outcome of hospitalized injured patients after institution of a trauma system in an urban area. JAMA 1994; 271: 1919–1924
  • Zimmer-Gembeck M J, Southard P A, Hedges J R, Mullins R J, Rowland D, Stone J V, Trunkey D D. Triage in an established trauma system. J Trauma 1995; 39: 922–928
  • Hedges J R, Feero S, Moore B, Haver D W, B Shultz. Comparison of prehospital trauma triage instruments in a semirural population. J Emerg Med 1987; 5: 197–208
  • Phillips J A, Buchman T G. Optimizing prehospital triage criteria for trauma team alerts. J Trauma 1993; 34: 127–132
  • Baxt W G, Berry C C, Epperson M D, Scalzitti V. The failure of prehospital trauma prediction rules to classify trauma patients accurately. Ann Emerg Med. 1989; 18: 1–8
  • Baxt W G, Jones G, Fortlage D. The trauma triage rule: a new, resource-based approach to the prehospital identification of major trauma victims. Ann Emerg Med. 1990; 19: 1401–1406
  • McManus J, Yershov A L, Ludwig D, Holcomb J B, Salinas J, Dubick M A, Convertino V A, et al. Radial pulse character relationships to systolic blood pressure andtrauma outcomes. Prehosp Emerg Care 2005; 9: 423–428
  • Emerman C L, Shade B, Kubincanek J. Comparative performance of the Baxt Trauma Triage Rule. Am J Emerg Med. 1992; 10: 294–297
  • Donald M J, Paterson B. End-tidal carbon dioxide monitoring in prehospital andretrieval medicine: a review. Emerg Med J. 2006; 23: 728–730
  • Jin X, Weil M H, Tang W, Povoas H, Pernat A, Xie J, Bisera J. End-tidal carbon dioxide as a noninvasive indicator of cardiac index during circulatory shock. Crit Care Med. 2000; 28: 2415–2419
  • Dubin A, Murias G, Estenssoro E, Canales H, Sottile P, Badie J, Baran M, et al. End-tidal CO2 pressure determinants during hemorrhagic shock. Intensive Care Med. 2000; 26: 1619–1623
  • Isserles S A, Breen P H. Can changes in end-tidal PCO2measure changes in cardiac output?. Anesth Analg 1991; 73: 808–814
  • Ornato J P, Garnett A R, Glauser F L. Relationship between cardiac output andthe end-tidal carbon dioxide tension. Ann Emerg Med. 1990; 19: 1104–1106
  • Cantineau J P, Lambert Y, Merckx P, Reynaud P, Porte F, Bertrand C, Duvaldestin P. End-tidal carbon dioxide during cardiopulmonary resuscitation in humans presenting mostly with asystole: a predictor of outcome. Crit Care Med. 1996; 24: 791–796
  • Gudipati C V, Weil M H, Bisera J, Deshmukh H G, Rackow E C. Expired carbon dioxide: a noninvasive monitor of cardiopulmonary resuscitation. Circulation 1988; 77: 234–239
  • Pellis T, Weil M H, Tang W, Sun S, Csapozi P, Castillo C. Increases in both buccal andsublingual partial pressure of carbon dioxide reflect decreases of tissue blood flows in a porcine model during hemorrhagic shock. J Trauma 2005; 58: 817–824
  • Cooke W H, Ryan K L, Convertino V A. Lower body negative pressure as a model to study progression to acute hemorrhagic shock in humans. J Appl Physiol. 2004; 96: 1249–1261
  • McManus J G, Convertino V A, Cooke W H, Ludwig D A, Holcomb J B. R-wave amplitude in lead II of an electrocardiograph correlates with central hypovolemia in human beings. Acad Emerg Med. 2006; 13: 1003–1010
  • Convertino V A, Ryan K L, Rickards C A, Cooke W H, Idris A H, Metzger A, Holcomb J B, et al. Inspiratory resistance maintains arterial pressure during central hypovolemia: implications for treatment of patients with severe hemorrhage. Crit Care Med. 2007; 35: 1145–1152
  • Imholz B P, van Montfrans G A, Settels J J, van der Hoeven G M, Karemaker J M, Wieling W. Continuous noninvasive blood pressure monitoring: reliability of Finapres device during the Valsalva manoeuvre. Cardiovasc Res. 1988; 22: 390–397
  • Parati G, Casadei R, Groppelli A, Di Rienzo M, Mancia G. Comparison of finger andintra-arterial blood pressure monitoring at rest andduring laboratory testing. Hypertension 1989; 13: 647–655
  • Dorlas J C, Nijboer J A, Butijn W T, van der Hoeven G M, Settels J J, Wesseling K H. Effects of peripheral vasoconstriction on the blood pressure in the finger, measured continuously by a new noninvasive method (the Finapres). Anesthesiology 1985; 62: 342–345
  • Kubicek W G, Karnegis J N, Patterson R P, Witsoe D A, Mattson R H. Development andevaluation of an impedance cardiac output system. Aerosp Med. 1966; 37: 1208–1212
  • Newman D G, Callister R. The noninvasive assessment of stroke volume andcardiac output by impedance cardiography: a review. Aviat Space Environ Med. 1999; 70: 780–789
  • Sather T M, Goldwater D J, Montgomery L D, Convertino V A. Cardiovascular dynamics associated with tolerance to lower body negative pressure. Aviat Space Environ Med 1986; 57: 413–419
  • Idris A H, Staples E D, O'Brien D J, Melker R J, Rush W J, Del Duca K D, Falk J L. End-tidal carbon dioxide during extremely low cardiac output. Ann Emerg Med. 1994; 23: 568–572
  • Tyburski J G, Collinge J D, Wilson R F, Carlin A M, Albaran R G, Steffes C P. End-tidal CO2-derived values during emergency trauma surgery correlated with outcome: a prospective study. J Trauma 2002; 53: 738–743
  • Gisolf J, Wilders R, Immink R V, van Lieshout J J, Karemaker J M. Tidal volume, cardiac output, andfunctional residual capacity determine end-tidal CO2 transient during standing up in humans. J Physiol. 2004; 554: 579–590
  • Boccara G, Jaber S, Eliet J, Mann C, Colson P. Monitoring of end-tidal carbon dioxide partial pressure changes during infrarenal aortic cross-clamping: a noninvasive method to predict unclamping hypotension. Acta Anaesthesiol Scand 2001; 45: 188–193
  • Das J B, Joshi I D, Philippart A I. End-tidal CO2 andtissue pH in the monitoring of acid-base changes: a composite technique for continuous, minimally invasive monitoring. J Pediatr Surg. 1984; 19: 758–763
  • Yosefy C, Hay E, Nasri Y, Magen E, Reisin L. End-tidal carbon dioxide as a predictor of the arterial PCO2 in the emergency department setting. Emerg Med J. 2004; 21: 557–559
  • Barton C W, Wang E S. Correlation of end-tidal CO2 measurements to arterial PaCO2 in nonintubated patients. Ann Emerg Med. 1994; 23: 560–563
  • Matsumoto A, Itoh H, Eto Y, Kobayashi T, Kato M, Omata M, Watanabe H, et al. End-tidal CO2 pressure decreases during exercise in cardiac patients: association with severity of heart failure andcardiac output reserve. J Am Coll Cardiol. 2000; 36: 242–249
  • Ristagno G, Tang W, Sun S, Weil M H. Role of buccal Pco2 in the management of fluid resuscitation during hemorrhagic shock. Crit Care Med 2006; 34: S442–S446
  • Nakagawa Y, Weil M H, Tang W, Sun S, Yamaguchi H, Jin X, Bisera J. Sublingual capnometry for diagnosis andquantitation of circulatory shock. Am J Respir Crit Care Med. 1998; 157: 1838–1843
  • Povoas H P, Weil M H, Tang W, Sun S, Kamohara T, Bisera J. Decreases in mesenteric blood flow associated with increases in sublingual PCO2 during hemorrhagic shock. Shock 2001; 15: 398–402
  • Sato Y, Weil M H, Tang W, Sun S, Xie J, Bisera J, Hosaka H. Esophageal PCO2 as a monitor of perfusion failure during hemorrhagic shock. J Appl Physiol. 1997; 82: 558–562
  • Baron B J, Dutton R P, Zehtabchi S, Spanfelner J, Stavile K L, Khodorkovsky B, Nagdev A, et al. Sublingual capnometry for rapid determination of the severity of hemorrhagic shock. J Trauma 2007; 62: 120–124
  • Convertino V A, Cooke W H, Holcomb J B. Arterial pulse pressure andits association with reduced stroke volume during progressive central hypovolemia. J Trauma 2006; 61: 629–634
  • Cooke W H, Salinas J, Convertino V A, Ludwig D A, Hinds D, Duke J H, Moore F A, et al. Heart rate variability andits association with mortality in prehospital trauma patients. J Trauma 2006; 60: 363–370, discussion 370
  • Geeraerts T, Albaladejo P, Declere A D, Duranteau J, Sales J P, Benhamou D. Decrease in left ventricular ejection time on digital arterial waveform during simulated hypovolemia in normal humans. J Trauma 2004; 56: 845–849
  • Taneja I, Moran C, Medow M S, Glover J L, Montgomery L D, JM Stewart. Differential effects of lower body negative pressure andupright tilt on splanchnic blood volume. Am J Physiol Heart Circ Physiol 2007; 292: H1420–H1426
  • Pascucci R C, Schena J A, Thompson J E. Comparison of a sidestream andmainstream capnometer in infants. Crit Care Med. 1989; 17: 560–562

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