The effects of the oxygen flow rate on heart rate variability in the PACU after TIVA

BACKGROUND: Oxygen increases the cardiac vagal tone, blood pressure, systemic vascular resistance and vascular tone in healthy adults.This study assessed the autonomic tone according to different oxygen flow rates via different types of masks with using the heart rate variability (HRV) in the PACU after total intravenous anesthesia (TIVA). METHODS: We prospectively studied 27 patients after TIVA in the PACU.The 5 L group received oxygen via a simple mask with an oxygen rate of 5 L/min and the 10 L group received oxygen via a mask with a reservoir bag at a rate of 10 L/min in the PACU. We evaluated the HRV at the point of stabilization before anesthesia (BL), 5 min in the PACU (PACU 5), 30 min in the PACU (PACU 30) and 60 min in the PACU (PACU 60). RESULTS: In the 5 L group, the nuHF was increased to 42.4 +/- 24.2 at 60 min in the PACU as compared with 27.1 +/- 19.1 at 5 min in the PACU.In the 5 L group, the LFHFr was decreased to 2.3 +/- 2.1 at PACU 60 as compared with 6.6 +/- 9.7 at PACU 5 and the nuLF was decreased to 56.9 +/- 23.2 at PACU 60 as compared with 72.9 +/- 19.0 at PACU 5.There were no significant changes between the two groups at PACU 5, PACU 30 and PACU 60.The oxygen saturation was increased at PACU 60 compared with PACU 5 in the two groups. CONCLUSIONS: These finding indicates that 1 h of oxygen administration with 5 L/min during emergence from anesthesia increased the relative vagal tone, and the arterial blood pressure is stable irrespective of the oxygen flow rate.

The Effect of Oxygen Inflow Rate and Tidal Volume on Excretion of Nitrous Oxide by Pharmacokinetic Study / 대한마취과학회지

BACKGROUND: There are few literatures which show the role of tidal volume on the excretion of nitrous oxide(N2O). The purpose of this study is to pharmacokinetically evaluate the effect of varying oxygen inflow rates and tidal volumes on the excretion of N2O. METHODS: Ten patients undergoing general anesthesia on supine position were selected. Administering N2O 3 L/min and oxygen 2 L/min with enflurane, ventilatory pattern was tidal volume 10 mL/kg and respiratory rate 11/min. Administration of N2O was stopped after 30 minutes, when end-tidal N2O concentration(ETN2O) were near 60% at steady state. Oxygen was given at 4 L/min with tidal volume(VT) 8 mL/kg(treatment 1), 4 L/min with VT 16 mL/kg (treatment 2), 8 L/min with VT 8 mL/kg(treatment 3) and 8 L/min with VT 16 mL/kg(treatment 4). ETN2O was measured every 15 seconds for first 3 minutes and every 1 minute thereafter. The order of 4 treatments were determined with bloc randomization. The time interval between treatments was 30 minutes. Pharmacokinetic parameters were obtained using PKCALC data program. RESULTS: Area under curve and clearance in treatments 1 and 2 were significantly larger than those in treatments 3 and 4. Mean residence time and half-life in treatment 4 were significantly shorter than those in other treatments. CONCLUSIONS: The oxygen inflow rate enhances the excretion of N2O more than the tidal volume does, and the tidal volume does so when the oxygen inflow rate is 8 L/min.