We thank Du and Liu1  for their comments regarding our study assessing the quality of labor analgesia with the dural puncture epidural versus the standard epidural technique in obese parturients.2  They raise concerns that 6 ml·h˗1 of 0.1% ropivacaine with 2 μg·ml˗1 fentanyl administered as a programed intermittent bolus every 45 min may not generate sufficient pressure for drug translocation through the dural puncture, thereby explaining the absence of a significant difference in the quality of labor analgesia with the dural puncture epidural compared with the standard epidural technique in our study. To support their hypothesis, Du and Liu referenced their randomized controlled study comparing dural puncture epidural + continuous infusion, dural puncture epidural + programed intermittent boluses, and standard epidural + continuous infusion techniques.3  Using 8 ml·h˗1 of 0.1% ropivacaine with 0.3 μg·ml˗1 sufentanil given as a continuous infusion or as programed intermittent boluses every 60 min, they showed that both dural puncture epidural groups achieved adequate analgesia (pain score less than or equal to 30 mm during two consecutive contractions) significantly quicker than the standard epidural group, with dural puncture epidural + programed intermittent boluses technique associated with the lowest medication consumption and patient-controlled epidural boluses.3 

However, the study of Song et al.3  was limited by the fact that it did not include a group that received standard epidural + programed intermittent epidural boluses; therefore, it is not possible to draw any conclusions from that study regarding the comparison between standard epidural and dural puncture epidural techniques when using programed intermittent epidural boluses, which we investigated in our study. In fact, it is impossible to know from their study whether the lower epidural medication consumption and patient-controlled epidural boluses in the dural puncture epidural + programed intermittent boluses group compared to the standard epidural + continuous infusion group was due to the dural puncture epidural technique or the use of programed intermittent epidural boluses. Additionally, the body mass index of parturients enrolled in their study (mean, 26 kg·m˗2) was significantly lower than ours (median, 41 to 42 kg·m˗2), which is particularly relevant given that obesity is associated with lower epidural local anesthetic requirements, likely due to higher intra-abdominal and epidural pressures.4  We note, however, that the volume delivered over time is identical in both studies; for instance, over 3 h, parturients in both studies would have received 24 ml of 0.1% ropivacaine through the programed intermittent boluses. Furthermore, the patient-controlled epidural analgesia regimen in our study was different from that in the study by Song et al.,3  with larger volumes and more frequent boluses allowed in our study compared to Song’s study. Finally, the definition of onset of analgesia was different in the two studies, again making it impossible to make a comparison between the findings of both studies.

The epidural pumps used in our practice administer intermittent boluses at 250 ml·h˗1.5  Based on previous data, this rate generates higher peak pressures compared to lower rates, which would likely be even higher in the presence of obesity. Of note, however, although higher infusion rates generally achieve greater injectate pressures,6  improved analgesic outcomes have not been demonstrated with higher (300 ml·h˗1) compared to lower (100 ml·h˗1) infusion rates in the setting of programed intermittent boluses.7  Finally, a multitude of variables can be manipulated with programed intermittent bolus regimens, therefore limiting comparisons between the regimens used in different studies. For instance, in another study by the same authors,8  they reported an optimal interval between boluses of 8 ml of 0.1% ropivacaine with 0.3 μg·ml˗1 sufentanil of 41 min, which is comparable to the interval of 45 min used in our study.

To summarize, the heterogeneity in parturient characteristics, study methodology, outcomes, and programed intermittent bolus/patient-controlled epidural analgesia regimens warrant caution when attempting to make comparisons between the findings of different studies.

Dr. Habib received research support from Haisco USA (Bridgewater, New Jersey), Heron Therapeutics (San Diego, California), and Pacira Pharmaceuticals (Parsippany, New Jersey). He has also served on the Advisory Board for Heron Therapeutics and MDoloris (Loos, France). Dr. Tan declares no competing interests.

1.
Du
W
,
Liu
Z
:
Dural puncture epidural in obese parturients: Comment
.
Anesthesiology
2022
;
137
:
653
4
2.
Tan
HS
,
Reed
SE
,
Mehdiratta
JE
,
Diomede
OI
,
Landreth
R
,
Gatta
LA
,
Weikel
D
,
Habib
AS
:
Quality of labor analgesia with dural puncture epidural versus standard epidural technique in obese parturients: A double-blind randomized controlled study
.
Anesthesiology
2022
;
136
:
678
87
3.
Song
Y
,
Du
W
,
Zhou
S
,
Zhou
Y
,
Yu
Y
,
Xu
Z
,
Liu
Z
:
Effect of dural puncture epidural technique combined with programmed intermittent epidural bolus on labor analgesia onset and maintenance: A randomized controlled trial
.
Anesth Analg
2021
;
132
:
971
8
4.
Panni
MK
,
Columb
MO
:
Obese parturients have lower epidural local anaesthetic requirements for analgesia in labour
.
Br J Anaesth
2006
;
96
:
106
10
5.
Ojo
OA
,
Mehdiratta
JE
,
Gamez
BH
,
Hunting
J
,
Habib
AS
:
Comparison of programmed intermittent epidural boluses with continuous epidural infusion for the maintenance of labor analgesia: A randomized, controlled, double-blind study
.
Anesth Analg
2020
;
130
:
426
35
6.
Klumpner
TT
,
Lange
EM
,
Ahmed
HS
,
Fitzgerald
PC
,
Wong
CA
,
Toledo
P
:
An in vitro evaluation of the pressure generated during programmed intermittent epidural bolus injection at varying infusion delivery speeds
.
J Clin Anesth
2016
;
34
:
632
7
7.
Lange
EMS
,
Wong
CA
,
Fitzgerald
PC
,
Davila
WF
,
Rao
S
,
McCarthy
RJ
,
Toledo
P
:
Effect of epidural infusion bolus delivery rate on the duration of labor analgesia: A randomized clinical trial
.
Anesthesiology
2018
;
128
:
745
53
8.
Song
Y
,
Du
W
,
Tao
Y
,
Li
Q
,
Shen
F
,
Xu
Z
,
Liu
Z
:
Optimum programmed intermittent epidural bolus interval time between 8 mL boluses of ropivacaine 0.1% with sufentanil 0.3 μg/mL with dural puncture epidural technique for labor analgesia: A biased-coin up-and-down sequential allocation trial
.
J Clin Anesth
2022
;
79
:
110698