Early and Late Postoperative Pain and Side Effects after Mastectomy: A Comparison of Ketamine and Thiamylal Administered for Anesthetic Induction ()
1. Introduction
The recent studies suggested that the incidence of chronic pain following breast cancer surgery was close to 50%, and that the intensity of acute postoperative pain was predictive factor of the chronic pain after mastectomy [1].
Perioperative noxious input causes central sensitization, which is brought about mainly by activation of Nmethyl-D-aspartate (NMDA) receptors in dorsal horn of spinal cord [2]. NMDA antagonists have been shown to prevent the induction of central sensitization, and abolish the hypersensitivity once it is established [3]. Ketamine, a non-competitive NMDA antagonist, has analgesic properties at subanesthetic doses [4].
In the recent systematic review, McCartney et al. [5] demonstrated the strongest evidence that the perioperative administration of ketamine reduces the early postoperative pain beyond its pharmacological duration of action, indicating preventive analgesia. However, there are few studies that evaluated the effect of perioperative administration of ketamine on the late postoperative pain.
Ketamine is not only analgesic drug but also anesthetic agent by itself and the intravenous administration of 0.5 - 1.5 mg/kg is recommended for induction of general anesthesia [6]. Ngan Kee et al. [7] demonstrated that patients who received ketamine, 1 mg/kg, for anesthetic induction required less postoperative morphine than patients who received thiopental in cesarean section without increasing the psychotomimetic side effects.
The present study was carried out to compare the early and late postoperative pain and side effects in patients who underwent mastectomy for breast cancer under general anesthesia induced with ketamine or thiamylal.
2. Materials and Methods
After institutional approval of Sasebo Kyosai Hospital was obtained along with written informed consent, 24 ASA physical status I-III women undergoing elective mastectomy with axillar lymph node resection (Auchin closs method) for breast cancer were recruited into this prospective, randomized and controlled study. Patients were excluded if they had allergic history of study drugs or used analgesic. They were randomly allocated to one of two groups, i.e. groups K and T according to a computer-generated table of random numbers. Before anesthetic induction, an anesthesiologist not involved in the evaluation of the patients’ symptom prepared the syringes sealed with opaque adhesive tapes of either ketamine, 1 mg/kg, or thiamylal, 4 mg/kg, diluted to 20 ml with saline. General anesthesia was induced with ketamine, 1 mg/kg, (group K) or thiamylal, 4 mg/kg, (group T) combined with fentanyl, 2 μg/kg. Vecuronium was used to facilitate tracheal intubation and maintain muscle relaxation. Anesthesia was maintained with sevoflurane, 1% - 2.5% end-tidal, 60% N2O in oxygen and a fixed dose of fentanyl, 4 μg/kg. At skin closure, patients received rectal dicrofenac sodium, 1 mg/kg.
The intensity of postoperative pain at rest was assessed using visual analog scale (VAS) at 3 and 16 hrs and 2, 3 and 4 weeks after surgery. The VAS was graded on a scale from 0 to 100, in which 0 = no pain, 100 = worse pain imaginable. Only when patients request, pain and adverse effects were treated. Pain and nausea at operative and first postoperative day were treated with pentazocine, 15 mg i.m. and metoclopramide, 10 mg i.v., respectively. After the second postoperative day, oral loxoprofen sodium (180 mg/day) was administered. We recorded the time from the end of skin closure to extubation. Postoperative side effects, including nausea, vomiting and hallucination were also recorded. These assessments and treatments were carried out by an anesthesiologist and nurses who were not aware of the assignment of patients to the treatment groups.
Data were analyzed using Mann-Whitney U-test and Fisher’s exact test as applicable. Data were presented as mean ± SD. P < 0.05 was considered statistically significant.
3. Results
All patients completed the study. Duration of surgery was longer in group K than in group T, but all of demographic and postoperative data did not differ significantly between two groups (Table 1).
VAS at 16 hr after surgery was significantly less in group K (5.5 ± 6.6) than in group T (17.7 ± 16.0). In contrast, VAS at 3 hr and 2, 3 and 4 weeks after surgery were not significantly different between two groups (group T: 22.7 ± 19.5, 12.0 ± 12.7, 12.6 ± 14.1and 9.8 ± 10.5; group K: 17.0 ± 16.2, 10.1 ± 13.7, 5.6 ± 9.3 and 5.4 ± 8.0, respectively) (Figure 1).
There were no significant differences in the number of patients who had requested the postoperative analgesic or antiemetic between two groups. There were no significant differences in the incidence of nausea, vomiting and hallucination between the groups (Table 2).
4. Discussion
The present study investigated the postoperative pain after mastectomy, and the results show that the patients who received ketamine for anesthetic induction had lower
Table 1. Demographic and perioperative data.
Figure 1. Visual analog scale (VAS) pain scores (0 - 100 mm) in the two groups 3, 16 hrs and 2, 3 weeks after surgery. VAS at 16 hr after surgery was significantly less in group K than in group T. In contrast, VAS at 3 hr and 2, 3 and 4 weeks after surgery were not significant difference. *P < 0.05 versus group T.
Table 2. Postoperative side effects and request of analgesics.
pain score 16 hr after surgery than the patients who received thiamylal. However, there were no significant differences in the pain score at 3 hr or 2, 3 or 4 weeks after surgery. These findings suggest that preoperative administration of ketamine can improve partially early postoperative pain, but not late postoperative pain after mastectomy.
Many studies demonstrated that intravenous subanesthetic ketamine, when added as adjunct to general anesthesia, reduced early postoperative pain and/or opioids requirement in a variety of surgery, such as cesarean section [7], laparoscopic gynecological surgery [8], life kidney donation [9], radical prostatectomy [10], knee arthroscopy [11], gastrectomy [12], tonsillectomy [13], rectal surgery [14] and thoracotomy [15]. In our study, patients who received ketamine, 1 mg/kg, at induction of general anesthesia had lower pain score 16 hr after surgery compared with patients who received thiamylal, 4 mg/kg. Our result is consistent with these studies demonstrating that perioperative administration of ketamine reduced early postoperative pain. In contrast, there was no significant difference in pain score 3 hr after surgery between two groups in our study. It might be related to the diclofenac sodium administered at the end of the surgery in all of our patients.
“Preventive analgesia” is confirmed if postoperative pain or analgesic consumption were significantly reduced five half-lives beyond the pharmacological duration of action of the target preventive drug compared with an untreated or placebo drug [5]. In our study, pain score 16 hr after surgery was significantly lower in patients receiving ketamine than those in patients receiving thiamylal. The half-life of ketamine is 3 hr [16]. Therefore, we assumed that preventive analgesia would be involved as a mechanism of the effect of ketamine.
Adam et al. [17] compared postoperative analgesic effect of preoperative administration of ketamine, 0.15 mg/ kg i.v., with postoperative administration of ketamine in patients undergoing mastectomy. They concluded that there was no preemptive analgesic action of ketamine. However, their study did not have a control group that did not receive ketamine preoperatively. The present study used thiamylal as a control group to evaluate the effect of preventive analgesia by ketamine on the postoperative pain. Kwok et al. [8] compared the postoperative analgesic effect of preoperative administration of ketamine, 0.15 mg/kg i.v., with placebo in the patients undergoing gynecologic laparoscopic surgery. They demonstrated that the patients receiving preoperative ketamine had lower postoperative pain scores compared with the patients receiving placebo.
Although administration of opioids typically would usually result in analgesia, a recent review suggests that opioids may cause hyperalgesia rather than analgesia (opioid-induced hyperalgesia) under a certain condition [18]. Chia et al. [19] reported that perioperative intravenous administration of fentanyl resulted in increased postoperative pain. In experimental study in rat model, single pretreatment of ketamine before fentanyl prevented fentanyl-induced hyperalgesia [20]. We used a fixed dose of fentanyl, 6 μg/kg, during anesthesia in the present study. Thus, the preoperative administration of ketamine might have prevented fentanyl-induced hyperalgesia in the present study.
Some clinical studies reported a beneficial effect of perioperative administration of ketamine on late postoperative pain. De Kock et al. [14] demonstrated that significantly less patients who received intravenous ketamine (bolus dose of 0.5 mg/kg followed by 0.25 mg/ kg/hr in intraoperative period) suffered from residual pain until 6 month after rectal surgery compared with the patients who received no ketamine. Suzuki et al. [15] demonstrated that continuous intravenous administration of ketamine at a dose of 0.05 mg/kg/hr for 3 days reduced postoperative pain 3 month after thoracotomy. In contrast, our study showed that ketamine could not reduce late postoperative pain. This difference may be explained by the following reason. We administered ketamine only at the induction of general anesthesia, and ketamine, 1 mg/kg, at induction of general anesthesia may be insufficient to reduce late postoperative pain.
The high dose (>2 mg/kg i.v.) of ketamine sometimes causes psychomimetic symptoms such as hallucination, which limits the clinical usefulness of ketamine [21]. In contrast, a small dose of ketamine was reported to be not associated with psychomimetic side effects [8,9,11]. A recent review demonstrated that the risk of ketamineinduced hallucination was minimal in anesthetized patients [22]. In the present study, we used ketamine, 1 mg/kg, at induction of general anesthesia, and no patient reported the hallucination after surgery.
As the limitation in the present study, the sample population was very small. Small samples sometimes affect the statistical accuracy. If the sample had been larger, the differences between the two groups in the VAS at late postoperative time points might have become statistically significant. Therefore, future studies are needed to address this limitation.
In conclusion, intravenous administration of ketamine, 1 mg/kg, at induction of general anesthesia reduced early postoperative pain compared with thiamylal, 4 mg/kg, in the patient undergoing mastectomy. However, late postoperative pain did not differ between these two groups. Induction with ketamine, 1 mg/kg, did not cause the side effects such as hallucination, and did not delay the emergence from anesthesia.