Your search keyword '"NIIMI K"' showing total 4 results

1. Parallel replacement of the oxygenator that is not transferring oxygen: the PRONTO procedure

Author

Groom, R C, Forest, R J, Cormack, J E, Niimi, K S, and Morton, J

Published

2002

2. Intra-operative quality assessment of coronary artery bypass grafts.

Author

Groom, R., Tryzelaar, J., Forest, R., Niimi, K., Cecere, G., Donegan, D., Katz, S., Weldner, P., Quinn, R., Braxton, J., Blank, S., Kramer, R., and Morton, J.

Subjects

CORONARY artery bypass, GRAFT rejection

Abstract

Early coronary artery bypass graft (CABG) failure is a troubling complication that may result in a wide range of problems, including refractory angina, myocardial infarction, low cardiac output, arrhythmia, and fatal heart failure. Early graft failures are related to poor quality and size of the distal native vascular bed, coagulation abnormalities, or technical problems involving the graft conduits and anastomoses. Unfortunately, graft failure is difficult to detect during surgery by visual assessment, palpation, or conventional monitoring. We evaluated the accuracy and utility of a transit-time, ultrasonic flow measurement system for measurement of CABGs. There were no differences between transit-time measurements and volumetric-time collected samples in an in vitro circuit over a range of flows from 10 to 100 ml/min (Bland and Altman Plot, 1.96 SD). Two hundred and ninety-eight CABGs were examined in 125 patients. Graft flow rate was proportional to the target vessel diameter. Nine technical errors were detected and corrected. Flow waveform morphology provided valuable information related to the quality of the anastamosis, which led to the immediate correction of technical problems at the time of surgery. [ABSTRACT FROM AUTHOR]

Published

2001

3. An in vitro study of the effects of isoflurane on oxygen transfer.

Author

Muhle ML, Stammers AH, Tremain KD, Niimi KS, Glogowski KR, Trowbridge CC, and Yang T

Subjects

Animals, Blood Flow Velocity, Blood Gas Analysis, Cattle, Dose-Response Relationship, Drug, Isoflurane analysis, Anesthetics, Inhalation pharmacology, Isoflurane pharmacology, Oxygen metabolism, Oxygenators, Membrane

Abstract

A common anesthetic technique utilized during cardiopulmonary bypass (CPB) includes the use of various inhalation agents, such as isoflurane. The purpose of this study was to evaluate the effects of this agent on oxygen transfer during CPB. An in vitro model was designed using bovine blood. Blood flow was held constant at 2 l/min, while gas flow was manipulated at 1 and 3 l/min. The percentage of inspired oxygen (FiO2) was set at 50 and 100%, and isoflurane was manipulated to 1.0, 3.0 and 5.0%. Blood gas analysis, oxygen transfer, and inlet and outlet isoflurane concentrations were measured at each of the given conditions. A total of 12 trials with four oxygenators were conducted. In the four oxygenators used in our study, no significant differences in oxygenator performance were found. At conditions of 1 I/min gas flow, 50% FiO2 and 1% isoflurane, there were no significant changes in O2 transfer between baseline and measurements taken during isoflurane administration (100.18 +/- 12.49 vs 102.35 +/- 10.99 ml O2/min, p=0.8031). At 3 I/min gas flow, 100% FiO2 and 5% isoflurane, no significant differences were found (142.35 +/- 10.76 vs 154.04 +/- 8.95 ml O2/min, p=0.1459). The only significant differences found for oxygen transfer were between 50 and 100% FiO2, all other conditions being set equal (102.35 +/- 10.99 vs 137.68 +/- 8.62 ml O2/min, p=0.0023). In conclusion, increasing concentrations of isoflurane up to 5% does not affect the efficiency of oxygen transfer in an in vitro circuit. Further studies are necessary to evaluate the effects in an in vivo setting.

Published

2001

4. The effect of priming techniques of ultrafiltrators on blood rheology: an in vitro evaluation.

Author

Glogowski KR, Stammers AH, Niimi KS, Tremain KD, Muhle ML, and Trowbridge CC

Subjects

Blood Proteins analysis, Crystalloid Solutions, Hematocrit, Hemofiltration standards, Hemoglobins analysis, Humans, Interleukin-6 blood, Interleukin-8 blood, Isotonic Solutions, Plasma Substitutes pharmacology, Tumor Necrosis Factor-alpha analysis, Hemofiltration instrumentation, Hemofiltration methods, Hemorheology

Abstract

The increased interest of using ultrafiltration during cardiopulmonary bypass ICPB) has mandated a re-evaluation of the hematological effects of this blood conservation process. 'Rinse-free' ultrafiltrators can be primed using either crystalloid or blood prior to use. It is unknown whether one priming technique results in superior results in ultrafiltration quality. An in vitro circuit was designed to evaluate the Sorin/COBE HC1400 (n=6), the Lifestream HC70 (n=6), and the Terumo/Sarns HC11 (n=6). All test conditions were conducted at a blood flow rate of 250 ml/min and a transmembrane pressure of 250 mmHg. Samples were drawn and analyzed at four distinct time points for hematocrit, total protein, plasma free hemoglobin, interleukin-6 (IL-6), interleukin-8 (IL-8), and tumor necrosis factor-alpha (TNFalpha). The HC11 had significantly greater percent increases in hematocrit under the blood priming protocol (29.2+/-7.9) than either the HC1400 (11.0+/-7.8, p<0.03) or the HC70 (11.9+/-7.8, p<0.04). When crystalloid priming was compared to blood priming, the HC1400 and HC70 produced significant percent increases in hematocrit and total protein levels. The HC1400 devices produced significantly less plasma free hemoglobin when primed with crystalloid rather than blood (43.6+/-38.3 vs 21.3+/-5.6, p<0.01). There were no significant differences between devices or priming techniques for IL-6, IL-8 or TNFalpha levels. In conclusion, the efficiency of the ultrafiltrators was elevated when primed with crystalloid before use. Cytokine levels were relatively unchanged with priming techniques, while plasma free hemoglobin levels were reduced with those devices previously primed with crystalloid.

Published

2001