Post-operative nausea and vomiting after gynecologic laparoscopic surgery: comparison between propofol and sevoflurane
Article information
Abstract
Background
We compared the incidence and degree of post-operative nausea and vomiting (PONV) in patients who received general anesthesia with propofol or sevoflurane using the Rhodes index of nausea, vomiting, and retching (RINVR) to assess the degree of PONV quantitatively and objectively during the post-anesthetic period.
Methods
We performed a prospective study involving 38 patients who underwent gynecologic laparoscopic surgery in our hospital between September 2008 and August 2009. Nineteen patients were anesthetized with propofol during the entire anesthetic period and the other 19 patients received 2.0 mg/kg of propofol intravenously, followed by sevoflurane inhalation. Three patients who were anesthetized with sevoflurane were excluded from the analysis because they were omitted during the survey. We studied the patients who had PONV and RINVR scores 1, 6, and 24 hours post-operatively.
Results
The propofol group had a statistically lower incidence of PONV and lower RINVR scores in the following subclasses within 1 hour of surgery: symptom occurrence; symptom distress; and symptom experience.
Conclusions
Propofol at induction and during maintenance of anesthesia can be used to prevent PONV within 1 hour post-operatively in patients undergoing gynecologic laparoscopic surgery.
Introduction
The incidence of post-operative nausea and vomiting (PONV) in patients who undergo operations in which general anesthesia is administered has been reported to range 20-30% [1]. PONV results in some of the most severe discomfort amongst patients, along with post-operative pain. The causes of PONV are many and varied based on patient, and surgery-, and anesthesiarelated factors, and PONV occurs frequently in patients undergoing gynecologic laparoscopic surgery [1]. With respect to anesthetic agents, nitrous oxide and volatile anesthetics increase the occurrence of PONV, but propofol is known to have an anti-emetic effect [1,2].
The Rhodes index of nausea, vomiting, and retching (RINVR) is a method of quantifying nausea and vomiting objectively in patients who receive anti-cancer therapy. Compared with the method of simply detecting PONV occurrence or with the method of measuring the degree of PONV subjectively using a visual analogue scale (VAS), RINVR is a more suitable method for quantitatively and objectively assessing the degree of PONV that patients may feel [3].
However, research which has compared the degree of PONV after general anesthesia with propofol or sevoflurane at each set time during the post-anesthetic period using RINVR is limited.
Thus, the purpose of this study was to compare the number of patients who have symptoms of PONV and the objective degree of PONV which occurs after general anesthesia with propofol or sevoflurane at each set time during the post-anesthetic period in patients with multiple risk factors for PONV, such as female gender, gynecologic laparoscopic surgery, and post-operative opioid therapy.
Materials and Methods
After obtaining approval of the Institutional Review Board of our hospital, female patients who were admitted to the Department of Obstetrics and Gynecology between September 2008 and August 2009 and underwent laparoscopic total hysterectomy and laparoscopy-assisted vaginal hysterectomy were included in this study. The subjects of our study were patients who were between 19 and 69 years of age and classified as American Society of Anesthesiologists physical status I or II. Patients who had a history of PONV or motion sickness were excluded. At the preoperative visit, anesthesiologists obtained written informed consent from each patient after explaining the methods and the purpose of this study, but did not administer pre-medication. We classified patients who were anesthetized with propofol as group P and the other patients who were anesthetized with sevoflurane as group S. The patients were alternately assigned to the groups according to the order in which they came to the hospital. Thirty-eight patients were included in this study; 19 patients were assigned to groups P and S. Three patients who were anesthetized with sevoflurane were excluded from the analysis because they were omitted during the survey.
The age, height, weight, BMI, pre-operative hemoglobin level, total amount of fluid administered during surgery, total anesthesia and operative times, and visual analogue scale (VAS) scores of the patients in both groups at each set time during the post-anesthetic period are shown in Table 1.
In the group P patients, 4.0-5.0 µg/ml of propofol and 1.5 ng/ml of remifentanil were injected intravenously using a target-controlled infusion (TCI) to induce general anesthesia. After confirming loss of consciousness, we injected 0.6 mg/kg of rocuronium intravenously and intubated the patient 3 minutes after injection. The anesthesia was maintained with propofol and remifentanil and the concentration of TCI was controlled to keep the blood pressure within a 20% range of the baseline blood pressure. In group S patients, 2.0 mg/kg of propofol was injected intravenously and 1.5 ng/ml of remifentanil was infused continuously using TCI to induce general anesthesia. After confirming loss of consciousness, sevoflurane (3 vol%) was administered via facial mask. Then, we injected 0.6 mg/kg of rocuronium intravenously and intubated the patient 3 minutes thereafter. The anesthesia was maintained with continuous infusion of remifentanil by TCI and sevoflurane inhalation, and the concentration of anesthetic agents was controlled to maintain the blood pressure within a 20% range of the baseline blood pressure. All patients were intubated without difficulty and maintained at a FiO2 of 0.5 using air-oxygen. The patients in both groups were injected with 1 µg/kg of fentanyl and 30 mg of ketorolac intravenously for post-operative pain control 30 minutes before the surgical procedure was completed. Then, intravenous, patient-controlled analgesia (24 µg/kg of fentanyl and 8 mg of ondansetron) was initiated.
PONV assessment was made by an anesthesiologist using the questionnaire at 1, 6, and 24 hours post-operatively using the RINVR (Table 2). The RINVR consisted of 8 questions; each question had 5 examples, and the patients were asked to mark the example that applied to them personally. We scored each example of every question on a scale of 0 (the symptom was none or mild) to 4 (the symptom was a lot or severe). After the questionnaire was completed, the scores of examples that each patient marked were summed and categorized as follows: subclass of symptom occurrence (SOSO; question numbers 1, 4, 6, 7, and 8), which focused on the occurrence of symptoms; subclass of symptom distress (SOSD; question numbers 2, 3, and 5), which focused on the distress of symptoms; and subclass of symptom experience (SOSE; all 8 questions). The calculated scores of the two groups were compared according to each subclass at each set time during the post-anesthetic period. Also, when the RINVR score was ≥1, we presumed that PONV occurred. The number of patients who had PONV during the 24 hours after the surgical procedure and at each set time during the post-anesthetic period was calculated and the number of the patients in the two groups was compared to each other. Even if 1 person experienced PONV several times during the 24-hour post-operative period, we considered it as one person.
Assuming the incidence of PONV within 24 hours following gynecologic surgery using volatile anesthetics to be 45% and the 40% difference in the incidence of PONV between the 2 groups as clinically significant, we calculated the number of patients in the current study based on an existing study [4]. As we defined the incidence of PONV within 24 hours after surgery to be the primary outcome of this study, we calculated that 16 patients would be required in each group to achieve an 80% statistical power at a 5% significance level to detect a true difference between the 2 groups. Assuming the possibility of being dropped out during the study, we decided to choose 19 patients per group.
The statistical analysis was done using SPSS (version 12.0; SPSS, Inc., Chicago, IL, USA). Age, height, weight, BMI, preoperative hemoglobin level, total amount of fluids administered during surgery, total anesthesia time, and VAS score of each set time during the post-anesthetic period in both groups were analyzed using an unpaired t-test. The RINVR scores of each set time during the post-anesthetic period were analyzed by the Mann-Whitney U test. The number of patients who had symptoms of PONV at each set time during the post-anesthetic period and the total number of patients during 24 hours after surgery were analyzed by Fisher's exact test. A statistically significant difference was assumed for a P < 0.05.
Results
The RINVR scores for SOSO, SOSD, and SOSE 1 hour post-operatively were significantly lower in group P than group S, but there was no difference at 6 and 24 hours postoperatively (Table 3).
The incidence of PONV during the 24 hours post-operatively was 15.8% (3 patients) in group P and 75.0% (12 patients) in group S; thus, the incidence of PONV in group P during the first 24 hours post-operatively was significantly lower than group S. In each set time during the post-anesthetic period, the number of patients with symptoms of PONV within 1 hour post-operatively in group P was 5.3% (1 patient) and 62.5% (10 patients) in group S; thus, the number of patients with symptoms of PONV within 1 hour post-operatively in group P was significantly lower than group S, but there was no difference between 1 and 6 hours, and 6 and 24 hours after post-operatively (Table 4).
Discussion
In addition to post-operative pain, PONV is among the most severe discomfort experienced by patients post-operatively. Apfel et al. [5] considered female gender, non-smokers, a history of PONV and motion sickness, and post-operative opioid therapy as important independent causal factors for PONV. Laparoscopic surgery is also known to increase the incidence of PONV [1]. The patients included in the current study had at least 3 risk factors for PONV, including female gender, laparoscopic surgery, and post-operative opioid therapy.
In the current study, we used RINVR scores to assess PONV. The RINVR score has been suggested to assess the degree of nausea and vomiting objectively in patients under treatment for cancer [6,7]. Kim et al. [3] reported that assessing PONV with RINVR objectively and quantitatively is a reliable index.
The incidence of PONV during the first 24 hours post-operatively in the case of propofol was significantly lower than sevoflurane (Table 4), and corresponds to the existing results that have been established for the anti-emetic effect of propofol [8].
While the number of patients with PONV within 1 hour post-operatively in the case of propofol was significantly less than sevoflurane, there were no differences in the number of patients with symptoms of PONV from 1-6 hours and 6-24 hours post-operatively. The results of assessing PONV with RINVR scores in the case of propofol were significantly lower than sevoflurane at 1 hour post-operatively only and there were no differences in RINVR scores at 6 and 24 hours post-operatively between the 2 groups. Apfel et al. [9] reported that volatile anesthetics were the main cause of nausea and vomiting within 2 hours post-operatively. Because of the short duration of action, it is known that propofol does not show enough anti-emetic effect for PONV, which occurs after the patient is transferred to the general ward [10]. Because the patients in group P were anesthetized with propofol, which has an anti-emetic effect, and in group S with volatile anesthetics, which causes early PONV, it seems that the RINVR score 1 hour post-operatively in patients administered propofol was significantly lower than that in patients administered sevoflurane; however, there was no difference in the RINVR scores between the 2 groups after 1 hour because the effect of volatile anesthetics in patients with sevoflurane decreased after 1 hour.
In the current study, the number of patients who had newly developed PONV 1 hour post-operatively was 2 each for propofol and sevoflurane. Because the context-sensitive half-time of propofol and remifentanil is 30 and 3 minutes, respectively [11], when the average anesthesia time is 3 hours, we reasoned that the new onset PONV in 2 patients who received propofol 1-6 hours post-operatively was due to factors other than anesthesia, such as gynecologic surgery, laparoscopic surgery, or pain [1,12]. Similarly, we suggest that the majority of patients who had received with sevoflurane had PONV within 1 hour post-operatively because of residual volatile anesthetics. Because the time required to reduce the partial pressure of sevoflurane in the alveola to 90% is <30 minutes [13] when the average anesthesia time is 3 hours, we reasoned that the 2 patients with new onset PONV 1-6 hours post-operatively in the case of sevoflurane also had PONV not because of the effect of the residual volatile anesthetics, but because of factors other than anesthesia. There were no patients with new onset PONV 6 hours post-operatively in the 2 groups because factors other than anesthesia lost effect as time went by.
Thirty minutes before the end of the surgical procedure, all of the patients were injected with 1 µg/kg of fentanyl intravenously for post-operative pain control, and intravenous patient-controlled analgesia, which was mixed with 24 µg/kg of fentanyl and 8 mg of ondansetron. According to Ding and White's study [14], the analgesic dose of fentanyl used during the surgical procedure does not increase PONV and an ondansetron infusion using intravenous patient-controlled analgesia is known to be effective in preventing PONV.
At 1 hour post-operatively, most of the patients are in the post-anesthetic care unit or on general ward immediately after being transferred. During this period, the incidence of PONV owing to the effect of residual volatile anesthetics is high. Therefore, a lower RINVR score in the case of using propofol than sevoflurane within 1 hour following surgery is clinically important.
In conclusion, total intravenous anesthesia with propofol in gynecologic laparoscopic surgery is more effective than inhalation anesthesia using sevoflurane for decreasing PONV within 1 hour post-operatively.
Notes
This work was supported by Inha University.