Automated Detection of Gastric Luminal Partial Pressure of Carbon Dioxide during Cardiovascular Surgery Using the Tonocap

Background A new automated system of air tonometry (Tonocap; Datex Ohmeda, Helsinki, Finland) allows for frequent (every 15 min) measurement of gastric luminal partial pressure of carbon dioxide. Its use has not been described in cardiac surgical patients. Methods One hundred patients undergoing coronary artery bypass graft or cardiac valve surgery were enrolled in a prospective cohort study. After anesthetic induction and insertion of a TRIP NGS Catheter (Datex Ohmeda), measurements of gastric luminal partial pressure of carbon dioxide were obtained using the Tonocap, and gastric mucosal p H (p Hi) was calculated. The main outcome measure was postoperative complication, defined as either in-hospital death or prolonged postoperative hospitalization (> 14 days). Results Four patients (4%) died, all of multiple-system organ failure, one each on postoperative days 9, 26, 46, and 121. Postoperative complication occurred in 18 patients (18%), all of whom exhibited persistent dysfunction of at least one organ system. Perioperatively, an abnormal p Hi (< 7.32) and gastric luminal minus arterial partial pressure of carbon dioxide gap (> 8 mmHg) occurred in 66% and 70% of patients, respectively. Predictors of postoperative complication included postoperative pHi (P = 0.001), gastric luminal partial pressure of carbon dioxide (P = 0.022), and gastric luminal minus arterial partial pressure of carbon dioxide gap (P = 0.013). In contrast, arterial base excess (P > 0.4) and routinely measured hemodynamic variables (e.g., heart rate, blood pressure) were either less predictive compared with Tonocap-derived variables or not predictive. Conclusions Despite a low mortality rate, patients undergoing cardiac surgery exhibited high incidences of prolonged hospitalization and postoperative morbidity. The Tonocap was easy to use, particularly compared with saline tonometry. Several Tonocap-derived variables were predictive of postoperative complications consistent with previously published data using saline tonometry.

[1]  A. Webb,et al.  Gastrointestinal tonometry comes of age? , 1998, British journal of anaesthesia.

[2]  U. Janssens,et al.  Gastric tonometry: in vivo comparison of saline and air tonometry in patients with cardiogenic shock. , 1998, British journal of anaesthesia.

[3]  W. White,et al.  Effect of temperature during cardiopulmonary bypass on gastric mucosal perfusion. , 1998, British journal of anaesthesia.

[4]  B. Venkatesh,et al.  Validation of Air as an Equilibration Medium in Gastric Tonometry: An in Vitro Evaluation of Two Techniques for Measuring Air Pco2 , 1998, Anaesthesia and intensive care.

[5]  A. Webb,et al.  Relationship between preoperative endotoxin immune status, gut perfusion, and outcome from cardiac valve replacement surgery. , 1997, Chest.

[6]  J. Vincent,et al.  Monitoring Gastric Mucosal Carbon Dioxide Pressure Using Gas Tonometry: In Vitro and in Vivo Validation Studies , 1997, Anesthesiology.

[7]  I. Jousela,et al.  Validation of air tonometric measurement of gastric regional concentrations of CO2 in critically ill septic patients , 1997, Intensive Care Medicine.

[8]  A. Webb,et al.  Comparison of commonly used clinical indicators of hypovolaemia with gastrointestinal tonometry , 1997, Intensive Care Medicine.

[9]  W. White,et al.  Relationship of preoperative antiendotoxin core antibodies and adverse outcomes following cardiac surgery. , 1997, JAMA.

[10]  R. Ivatury,et al.  A prospective randomized study of end points of resuscitation after major trauma: global oxygen transport indices versus organ-specific gastric mucosal pH. , 1996, Journal of the American College of Surgeons.

[11]  T. Heeren,et al.  Determinants of length of stay after coronary artery bypass graft surgery. , 1995, Circulation.

[12]  A. Webb,et al.  Perioperative plasma volume expansion reduces the incidence of gut mucosal hypoperfusion during cardiac surgery. , 1995, Archives of surgery.

[13]  Fink Mp Effect of critical illness on microbial translocation and gastrointestinal mucosa permeability. , 1994 .

[14]  L. Nelson,et al.  Gastric tonometry supplements information provided by systemic indicators of oxygen transport. , 1994, The Journal of trauma.

[15]  R. Beale,et al.  Assessment of splanchnic oxygenation by gastric tonometry in patients with acute circulatory failure. , 1993, JAMA.

[16]  P. Marik,et al.  Gastric intramucosal pH. A better predictor of multiorgan dysfunction syndrome and death than oxygen-derived variables in patients with sepsis. , 1993, Chest.

[17]  C. Bolton,et al.  Definitions for sepsis and organ failure. , 1993, Critical care medicine.

[18]  A. Baue The role of the gut in the development of multiple organ dysfunction in cardiothoracic patients. , 1993, The Annals of thoracic surgery.

[19]  M. H. Lee Gastric mucosal pH as a prognostic index of mortality in critically ill patients. , 1992, Critical care medicine.

[20]  W. Knaus,et al.  Definitions for sepsis and organ failure and guidelines for the use of innovative therapies in sepsis. The ACCP/SCCM Consensus Conference Committee. American College of Chest Physicians/Society of Critical Care Medicine. , 1992, Chest.

[21]  G. Gutierrez,et al.  Comparison of gastric intramucosal pH with measures of oxygen transport and consumption in critically ill patients , 1992, Critical care medicine.

[22]  A. Dubin,et al.  Gastric intramucosal pH as a therapeutic index of tissue oxygenation in critically ill patients , 1992, The Lancet.

[23]  M. Fink,et al.  Gastric tonometry and venous oximetry in cardiac surgery patients , 1991, Critical care medicine.

[24]  D. Mangano Perioperative cardiac morbidity , 1990, Anesthesiology.

[25]  A. Bernstein,et al.  A method of uniform stratification of risk for evaluating the results of surgery in acquired adult heart disease. , 1989, Circulation.

[26]  R. Demling,et al.  Posttraumatic multisystem organ failure. , 1988, JAMA.

[27]  S. Baker,et al.  Predictive value of the stomach wall pH for complications after cardiac operations: comparison with other monitoring. , 1987, Critical care medicine.

[28]  R. Goris,et al.  Multiple-organ failure. Generalized autodestructive inflammation? , 1985, Archives of surgery.

[29]  S. Muravchick,et al.  Temperature correction of arterial blood-gas parameters: A comparative review of methodology. , 1981, Anesthesiology.

[30]  M. Fink Effect of critical illness on microbial translocation and gastrointestinal mucosa permeability. , 1994, Seminars in respiratory infections.

[31]  R. Danner,et al.  Endotoxemia in human septic shock. , 1991, Chest.