Ropivacaine, 0.1%, Plus Sufentanil, 0.5 μg/ml, versus  Bupivacaine, 0.1%, Plus Sufentanil, 0.5 μg/ml, Using Patient-controlled Epidural Analgesia for Labor: A Double-blind Comparison

The investigation, which was approved by the local ethics committee, CCPRB, St. Germain en Laye Hospital 7B, France, was explained fully to the patients, and written consent was obtained. Two hundred women in labor classified as American Society of Anesthesiologists physical status I or II who requested epidural analgesia were enrolled. All patients carried a single healthy fetus (36–41 weeks’ gestation) in a vertex presentation with a normal fetal heart rate pattern. None received any analgesic agent before participation in the study. Patients were allocated randomly to one of two groups: Group A received 0.1% ropivacaine and 0.5 μg/ml sufentanil, and group B received 0.1% bupivacaine and 0.5 μg/ml sufentanil. Trial medications were supplied in coded ampules of identical appearance prepared by the Poissy Hospital pharmacy, and investigators were blind to the contents.

An intravenous infusion was established, and at least 500 ml Ringer’s lactate solution was administered before epidural block was set. With the mother in the sitting position, an open-tip, single-orifice epidural catheter was inserted in the lumbar region using the loss-of-resistance technique; 3 cm of catheter was left in the epidural space. The catheter was connected to an Abbott Pain Manager pump (Abbott, San Diego, CA). A test dose of 5 ml study solution was administered, followed by a loading dose 5 min later: Incremental doses of 5 ml were injected via  the PCEA pump until the patient felt comfortable (visual analog pain score [VAS] < 30 mm). Each patient was given a demand button and was instructed to press the button whenever she began to feel discomfort. Afterward, patients were able to self-administer a demand dose of 5 ml every 10 min as needed without basal infusion. No 1- or 4-h dose restriction was set. If the patient requested additional analgesia, 5 ml of the study solution was given via  the PCEA pump by the nurse anesthesiologist in charge. No local anesthetic solutions other than the study solution were administered before delivery. Maternal and fetal monitoring followed hospital protocol (maternal blood pressure was recorded using a noninvasive monitor at 15-min intervals, and at 5-min intervals for 20 min after any staff-administered bolus). Obstetric treatment was undertaken according to the clinical protocols in use, and participants received oxytocin for induction or augmentation of labor accordingly.

Data recorded included demographics, 30-min and then hourly pain score on a VAS, maximum VAS score during the previous hour, and a measure of motor block (modified Bromage scale: 0 = bilateral sustained straightening of leg, 1 = unable to straighten leg, 2 = just able to flex knees, 3 = foot movement only). The upper and lower levels of sensory block were assessed hourly as loss of sensation to ice. Analgesic consumption was calculated for both the first and the second stages of labor. All subsequent physician-administered boluses were included in the cumulative totals for the first and second stages. PCEA ratio (i.e. , number of pump doses received ×:× number of patient-directed pump demands) was recorded hourly. The study ended 2 h after delivery, and patients were asked to rate satisfaction regarding epidural analgesia on a visual scale (0 = not satisfied at all, 100 = fully satisfied) for labor pain and for delivery separately. Any supplemental analgesia requested for repair of perineum laceration or revision of the uterine cavity was recorded. Postpartum hemorrhage greater than 500 ml also was recorded. Mode of delivery was recorded as normal (spontaneous vertex), forceps, vacuum extraction, or cesarean. The duration of the first and second stages of labor and the birth weight were recorded. In addition, Apgar scores of the newborn at 1–5 and 10 min and umbilical arterial blood gas measurements obtained at delivery from a clamped cord were recorded.

Data are presented as the mean ± SD (or range). Statistical analysis of demographic data, anesthetic solution used, duration of labor, and maternal satisfaction was performed using the Student t  test or Wilcoxon–Mann–Whitney test as appropriate. The incidence of motor block, side effects, and mode of delivery were analyzed using the chi-square test. VAS score during labor was analyzed using analysis of variance and the Newman–Keuls test. P < 0.05 was considered to be significant.

Two hundred patients were enrolled in the study; 11 were excluded from data analysis for the following reasons: inadequate analgesia with protocol deviation (4 in ropivacaine group, 4 in bupivacaine group), accidental epidural catheter removal (1 in ropivacaine group), or incomplete data collection (1 in each group). One-hundred eighty-nine patients completed the study: 95 received ropivacaine and 94 received bupivacaine. Demographic data and labor characteristics are presented in table 1and did not differ between the two groups.

There was no difference between the two groups for the total use of local anesthetic solution (table 2). The total study periods were similar in the two groups. The duration of the first stage of labor (defined as the time between epidural blockade and full cervical dilatation) was comparable for the two groups. The duration of the second stage (defined as the time between full cervical dilatation and the completion of vaginal delivery or the decision to proceed with cesarean delivery) was shorter in the ropivacaine group (table 3). There was no difference in the hourly dose of anesthetic solution used during the overall study period (ropivacaine: 14.4 ± 6 ml/h; bupivacaine: 13.7 ± 7 ml/h) or during the first stage of labor (ropivacaine: 9.5 ± 9.0 and bupivacaine: 8.9 ± 7.3 ml/h). This hourly dose of anesthetic solution does not include the initial bolus given at epidural insertion (the loading dose). During the second stage, drug consumption was significantly greater with ropivacaine than with bupivacaine (30.4 ml/h, range 0–187, vs.  22.2 ml/h, range 0–312;P < 0.0001). The mean total volumes of study drug administered were similar in the two groups (table 2).

Mean VAS scores at baseline and throughout labor for ropivacaine showed no difference compared with bupivacaine (fig. 1). The median VAS score before institution of epidural analgesia was 57.4 ± 27.5 mm in the ropivacaine group and 57.9 ± 28.5 mm in the bupivacaine group. Median average VAS score during treatment (i.e. , from the time of the epidural loading dose until delivery) was 19.7 ± 17.1 mm in the ropivacaine group and 16.9 ± 13.4 mm in the bupivacaine group. As shown in figure 2, the VAS pain score increased as cervical dilation progressed throughout labor in the two groups, despite patient-controlled administration of drugs and supplemental boluses.

Satisfaction with the relief of contraction pain was greater in the bupivacaine group (90.5 ± 12.9 mm) than in the ropivacaine group (84.4 ± 21.5 mm, P < 0.0001), as was satisfaction with the relief of delivery pain (88.7 ± 19.1 and 80.4 ± 25.6 mm, respectively;P < 0.0001). In the ropivacaine group, 10.7% of patients had an asymmetric upper level of sensory block, versus  6.4% in the bupivacaine group (P = 0.08).

Patients in the ropivacaine group requested more supplemental boluses than did patients in the bupivacaine group in the second stage of labor and after delivery (table 4).

The incidence of motor block was lower in the ropivacaine group than in the bupivacaine group during the first stage of labor (table 5). There was no difference between the two groups in the incidence of instrumental or cesarean delivery (table 3).

Apgar scores of the newborns were similar in both groups. Eight infants in the ropivacaine group and seven in the bupivacaine group had Apgar scores less than 7 at 1 min; one infant in the ropivacaine group had an Apgar score of 6 at 5 min. No infants in the bupivacaine group had 5-min scores less than 7. There were no difference between groups in umbilical cord pH: 7.37 ± 0.09 in the ropivacaine group versus  7.35 ± 0.09 in the bupivacaine group. Three infants in each group had a neonatal umbilical cord pH less than 7.2.

No significant complications resulted from this study. No prolonged hypotension or respiratory depression was seen in either study group. Postpartum hemorrhage greater than 500 ml occurred in five patients in the ropivacaine group and in four in the bupivacaine group.

Our results show that 0.1% ropivacaine and 0.5 μg/ml sufentanil or 0.1% bupivacaine and 0.5 μg/ml sufentanil given via  a PCEA device produce effective pain relief in labor. No significant differences were seen between the two groups in VAS pain scores during labor, total amount of local anesthetic used, or level of sensory block. Patients in the ropivacaine group, however, requested more supplemental boluses to achieve analgesia during the second stage of labor and after delivery than those in the bupivacaine group, and maternal satisfaction was significantly greater in the bupivacaine group regarding analgesia during labor and delivery. The overall drug consumption was not significantly different between the two groups, although patients in the ropivacaine group used more drug than those in the bupivacaine group during the second stage.

The increase in mean VAS score throughout labor, as shown in figure 2, suggests that the PCEA regimen could be improved in permitting consumption to increase (through an increased bolus dose or reduced lockout period) during cervical dilation. In the same way, the fact that almost 30% of the drug had to be given as a supplemental bolus suggests that PCEA administration limitations could be liberalized.

Motor block was significantly less pronounced in the ropivacaine group during the first stage of labor. These results confirm the observation that the reduced motor impairment observed after administration of ropivacaine occurs only if low doses are used. 12In the current study, the difference is significant during the first stage of labor but disappears during the second stage; drug consumption is actually higher during the second stage, which may attenuate the difference in motor block, as reported by Russel and Reynolds, 13who demonstrated that motor blockade is dependent on the cumulative dose of local anesthetic agent.

Until recently, it was assumed that ropivacaine and bupivacaine were equipotent, but Polley et al.  10and Capogna et al.  11suggest that ropivacaine could be 40% less potent than bupivacaine. This reduction of motor impairment may be a result of a lower potency of ropivacaine compared with bupivacaine, rather than a specific drug-related effect, particularly if used at low concentrations. Owen et al.  7did not detect any significant difference in the degree of motor block using 0.125% ropivacaine or 0.125% bupivacaine via  a PCEA route, but drug consumption was higher than in the current study (18–19 vs.  13–14 ml/h) probably because no opioid was added. Conversely, if local anesthetic solution is used at a 0.125% concentration but with a lipid soluble opioid, a difference in the severity of motor block becomes apparent. 3 

Although there was no statistically significant difference in mode of delivery in the current study, there was a greater proportion of instrumental deliveries in the ropivacaine group; this finding is in contradiction with previous studies, 5,12possibly because of an unexpected (but not significant) difference in the proportion of nulliparous women in this group. The difference observed in duration of the second stage may be related to specific properties of ropivacaine, which also could explain the lower incidence of motor block during the first part of labor. Alternatively, and more probably, this difference may be related to the finding that the variables affecting delivery outcome were neither controlled nor monitored in this study.

In summary, a low concentration of ropivacaine with sufentanil produces less motor block than does bupivacaine with sufentanil. This benefit is not associated with a decrease in the incidence of instrumental deliveries. The reduction of motor impairment could be a result of a lower potency of ropivacaine, as shown by lower maternal satisfaction scores and a greater need for supplemental boluses; or it could be related to a fundamental difference between the drugs, which could explain the difference observed in the duration of the second stage of labor. This finding applies for further studies using a higher concentration of ropivacaine versus  the same 0.1% bupivacaine.

The authors thank Dan Benhamou, M.D., Hopital A. Beclere, Clamart; Luc-Olivier Sauvêtre, Hopital Poissy, Poissy; and Eric Stoll, Hopital Poissy, Poissy, France.