BACKGROUND: Lowe and Ernst's square root of time model employs direct injection of liquid agent into breathing circuit for low flow anesthesia. Intermittent injections of the agent by Lowe's method change rapidly arterial partial pressure of the agent and fail to maintain hemodynamic stability to surgical stimuli. We designed to investigate the possibility and safety of low flow anesthesia with continuous infusion of liquid enflurane into breathing circuit. METHODS: Twenty patients, ASA physical status I or II, undergoing gastrectomy under inhalational general anesthesia were randomly divided into two groups. Anesthesia was maintained with a fresh gas flow of O2 500 ml/min and continuous infusion of liquid enflurane. An identical semiclosed Dr ger circle anesthesia system was used to all patients. Liquid enflurane calculated by the Lowe's method (group I) or simplified by patient's weight (group II) was continuously infused directly into inspiratory limb of breathing circuit using syringe pump. Inspiratory and expiratory concentrations of enflurane, enflurane consumptions, hemodynamic parameters, carboxyheomoglobin were checked intraoperatively. Hepatic and renal functions were evaluted postoperatively. RESULTS: Liquid enfurane was initially infused at a rate in ml/hr of 16.1 0.8 weight in kg in group I and 1.0 weight in kg in group II. After 5 minutes the infusion rate was reduced to 20% of this value and then well adjusted to maintain blood pressure within 20% of the reference preoperative value. Enflurane consumptions and recovery time were similar between the two groups. There were no clinical significant changes in arterial blood gas, carboxyheomoglobin, and hepatic and renal functions. CONCLUSIONS: These data show that low flow anesthesia with continuous infusion of liquid enflurane into breathing circuit is safe and effective, and that the infusion method simplified by patient's weight may easily be applied to clinical practice for low flow anesthesia.