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Reliable gastric tonometry after coronary artery surgery: need for acid secretion suppression despite transient failure of acid secretion (1998)

Bams, J. L. ; Kolkman, J. J. ; Roukens, M. P. ; [et al.]

Springer

Intensive care medicine 24 (1998), S. 1139-1143

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ISSN: 1432-1238

Keywords: Key words Tonometry ; H2-blocking agents ; Acid secretion suppression ; Gastric pHi ; Back-diffusion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective: To study the need for suppression of gastric acid secretion for reliable intragastric partial pressure of carbon dioxide (PCO2) tonometry by evaluating the effect of an oral dose of sodium bicarbonate before and after administration of the H2-blocker ranitidine to mimic CO2 generation following the buffering of acid by bicarbonate in patients after cardiac surgery. Design: Prospective, open, non-randomized clinical study. Setting: Cardiothoracic intensive care unit at a university hospital. Patients: 10 patients after elective coronary artery bypass surgery. Interventions: An oral dose of 500 mg sodium bicarbonate before and after acid secretion suppression by 100 mg ranitidine as an intravenous bolus given at ≈ 3 h after surgery (day 0) and on the first postoperative day (day 1). Measurements and results: Intragastric PCO2 (iPCO2; tonometry), gastric juice pH (aspirate) and arterial blood gas values were measured. On day 0, the iPCO2 was 25 ± 5 mmHg before and 31 ± 5 mmHg after the bicarbonate dose, 29 ± 5 mmHg after ranitidine infusion, and 31 ± 5 mmHg after the bicarbonate dose following the ranitidine infusion (NS). On day 1, the basal iPCO2 was 32 ± 4 mmHg and it increased to 56 ± 25 mmHg following bicarbonate (p 〈 0.01). After ranitidine, the iPCO2 was 33 ± 4 mmHg before and 40 ± 14 mmHg after bicarbonate (NS). Basal gastric juice pH was 〉 4 in nine of ten patients on day 0 and 〉 4 in seven of ten patients on day 1. Conclusions: Pharmacological suppression of gastric acid secretion is mandatory for reliable iPCO2 tonometry after cardiopulmonary bypass surgery, even when gastric acid secretion is transiently inhibited. In fact, gastric acid secretion was inhibited immediately after surgery, but returned on the first postoperative day in most patients, as judged from the bicarbonate back titration of gastric acid, even when gastric juice pH was relatively high.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001340050736

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Type of solution and PCO2 measurement errors during tonometry (1997)

Kolkman, J. J. ; Zwarekant, L. J. ; Boshuizen, K. ; [et al.]

Springer

Intensive care medicine 23 (1997), S. 658-663

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ISSN: 1432-1238

Keywords: Key words PCO2 tonometry ; Measurement errors ; Intramucosal pH ; Blood gas analyzers ; Carbon dioxide

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective: The choice of solution for gastrointestinal tonometry influences the PCO2 measurement bias, precision and the time required for equilibration. We compared saline with buffered solutions during in vitro tonometry, with respect to systematic and accidental measurement errors and equilibration time. Design: A prospective laboratory study. Measurements: Saline, phosphate, phosphate bicarbonate and succinylated gelatin solutions were equilibrated in a specialized blood gas tonometer at PCO2s of 2.7, 3.6, 4.5, 6.2 and 9.0 kPa, using calibration gases. Accidental errors were determined: the within-syringe decline of PCO2 and the effects of handling errors (five up and down movements of the plunger). The PCO2 build up in gastrointestinal tonometers was determined in 5000 ml saline baths with fixed PCO2 levels of 2.7 and 9.0 kPa. Results: The build up of PCO2 in phosphate bicarbonate and gelatin was about 4 and 2 times slower than in saline and phosphate, respectively, both for gas and gastrointestinal tonometers. The bias of the measured PCO2 at equilibrium was −15 % for saline, and between −1 and 3 % for phosphate, phosphate bicarbonate and gelatin. The precision was comparable among the solutions: 2 ± 1 % for saline, 2 ± 1 % for phosphate, 1 ± 0 % for phosphate bicarbonate and 1 ± 1 % for gelatin. The accidental errors were virtually absent with phosphate bicarbonate, intermediate with gelatin and largest with saline and phosphate. Conclusion: Phosphate bicarbonate buffer and succinylated gelatin allow accurate PCO2 measurements, but their equilibration is too slow for clinical application. The advantage of phosphate over saline solution is a smaller bias only. Thus, both saline and phosphate are currently the tonometer solutions of choice, provided that strictly anaerobic conditions are applied and the bias by the blood gas analyzer is known.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001340050390

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