Masui. The Japanese journal of anesthesiology
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Over 60% of preoperative surgical patients are reported to suffer from preoperative anxiety. Since 1986, an anesthesia video, explaining our routine anesthesia procedures has been shown to elective surgical patients preoperatively at our clinic. ⋯ The patients who were to undergo a major surgery, such as gynecological patients also belonged to the most anxious patient group. After demonstrating the video any patient group including gynecological patients of 30-59 years of age was less anxious about the upcoming anesthesia and surgery.
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Serum inorganic fluoride concentrations and their urinary excretion were examined during and after sevoflurane, isoflurane, or enflurane anesthesia in man. Duration of anesthesia was 3 hours in sevoflurane and enflurane groups (S3 group: n = 10, E3 group: n = 5), and 3 or 5 hours in isoflurane groups (I3 group: n = 5, I5 group: n = 5). Serum inorganic fluoride concentration of the S3 and E3 groups increased immediately following induction, and reached the maximum concentration of 21.8 +/- 9.3 (M +/- SD) mumol.l-1 (S3), 13.6 +/- 6.2 mumol.l-1 (E3) at 1 hour after anesthesia. ⋯ The change of serum inorganic fluoride sharply contrasted with urinary excretion. Our results suggest that fluoride excretion is largely carried out by the kidney. Therefore sevoflurane or enflurane anesthesia should be avoided in patients with renal dysfunction.
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We studied low flow closed anesthesia technique for oxygen, nitrous oxide and isoflurane using Engström Elsa Anesthesia System in 47 patients undergoing elective surgery. In the low flow group, anesthesia was maintained with oxygen 300 ml.min-1, nitrous oxide 300 ml.min-1 and optimal concentration of isoflurane after endotracheal intubation. The inspired oxygen concentration was kept higher than 35% through the operation. ⋯ In order to maintain the inspired oxygen concentration at 35%, the flow of nitrous oxide should have been reduced as low as to 150 ml.min-1 after 240 min. The volumes of consumption of nitrous oxide and isoflurane in the low flow and minimal flow groups were reduced to one fifth and one third respectively, compared with those of the high flow group. In conclusion, we can perform low flow closed anesthesia safely and easily with this equipment.
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A 41-year old, 50 kg female was scheduled for laparoscopic cholecystectomy. Anesthesia was induced with thiopental 250 mg IV and endotracheal intubation was performed using succinylcholine 60 mg IV. Anesthesia was maintained with N2O (67%)-oxygen-sevoflurane (1.5-2%) and pancuronium was used for muscle relaxation. ⋯ Generally in laparoscopic cholecystectomy, subcutaneous emphysema is more common than in gynecologic laparoscopy and especially with severe subcutaneous emphysema, there is a risk of hypercapnia. This is because carbon dioxide in subcutaneous tissue is more absorbable than that in peritoneal cavity. As carbon dioxide in subcutaneous tissue is absorbed continuously after the operation, the patient should be carefully observed postoperatively.
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Comparative Study
[Blood gas changes during laparoscopic cholecystectomy--comparative study of N2O pneumoperitoneum and CO2 pneumoperitoneum].
During laparoscopic cholecystectomy by alternative insufflation of nitrous oxide and carbon dioxide, the changes of blood gas tensions were measured and analyzed in 12 patients. During N2O insufflation, PaO2 decreased by about 25 mmHg and PaCO2 was unaltered compared with the values before pneumoperitoneum. ⋯ We considered that decrease in PaO2 during N2O insufflation was associated with not only uneven ventilation/blood flow ratios but also with the reduction in the alveolar O2 tension caused by the diffusion of N2O absorbed from the peritoneum. PaCO2 increases during CO2 insufflation because CO2 is absorbed from the peritoneum, and is not excreted entirely through the lungs.