Breast Surgery Clinical Trial
Official title:
A Randomized, Subject-Masked, Active-Controlled, Parallel-Arm Clinical Trial Comparing Erector Spinae and Paravertebral Nerve Blocks
Following painful surgical procedures of the breast, postoperative analgesia is often
provided with a paravertebral nerve block (PVB). For intense, but shorter-duration acute
pain, a single-injection of local anesthetic is used with a duration of approximately 12
hours. The PVB has several limitations: it can decrease blood pressure, and very rare—but
serious—complications have occurred, including neuraxial injection, neuraxial hematoma, and
pleural puncture. An alternative block has been described: the erector spinae plane block.
The theoretical benefits include ease of administration since it is a plane superficial to
the PVB and therefore easier to identify and target with ultrasound (therefore increasing
success rate); and an increased safety margin: there are few anatomic structures in the
immediate area which could be injured with the needle; and, the target plane is much further
from the intrathecal/epidural space relative to the PVB. Lastly, the plane may be easier to
catheterize for continuous peripheral nerve blocks relative to the relatively-small volume
PVB.
There are therefore multiple theoretical reasons to prefer the erector spinae plane block.
Unfortunately, it remains unknown if the analgesia provided by this new technique is
comparable to that provided with the PVB. The investigators therefore propose to compare
these two techniques with a randomized, subject-masked, active-controlled, parallel-arm,
human subjects clinical trial.
This investigation will be a randomized, subject-masked, active-controlled parallel-arm,
human subjects clinical trial. Of note, the investigators will be using standard-of-care
local anesthetic under an FDA-approved purpose and do not plan to research a possible change
of indication or use of these medications as part of this research project. The treatments in
both groups are currently used at the study institution and there is true clinical equipoise
at this time. The only difference in treatment between subjects who enroll versus those not
enrolled in this study will be those who enroll will have the decision between which anatomic
block location determined randomly, as opposed to the physician simply choosing him/herself.
Enrollment. Consenting adults undergoing breast surgery with a planned single-injection
regional analgesic will be offered enrollment. Patients undergoing breast surgery with a
planned perineural catheter regional analgesic will be excluded. Study inclusion will be
proposed to eligible patients prior to surgery. If a patient desires study participation,
written, informed consent will be obtained using a current University of California San Diego
(UCSD) Institutional Review Board (IRB)-approved Informed Consent Form (ICF). Selection for
inclusion will not be based on gender, race, or socioeconomic status. The study population of
interest includes men and women of all races and socioeconomic status. Inclusion and
exclusion criteria are listed in another section.
Preoperative Procedures. Following written, informed consent, the investigators will collect
baseline anthropomorphic information (e.g., age, sex, height, and weight). All subjects will
have a peripheral intravenous (IV) catheter inserted, standard noninvasive monitors applied,
supplemental oxygen administered via a nasal cannula or face mask, and placed in the sitting
position. Midazolam and fentanyl (IV) will be titrated for patient comfort, while ensuring
that patients remain responsive to verbal cues. Both possible block locations will be viewed
with ultrasound. If one or both of the locations is unacceptable for block placement in the
clinician's opinion, the subject will not be randomized and will not proceed further with the
study.
Subjects will then be randomized using a computer-generated list and opaque, sealed envelopes
to one of two treatment groups: (blocks of 4, stratified for unilateral vs. bilateral
surgery): (1) erector spinae plane or (2) paravertebral block. All blocks will be placed by a
regional anesthesia fellow or resident under the direct supervision and guidance of a
regional anesthesia attending (or by the attending him/herself).
The area of needle insertion will be cleaned with chlorhexidine gluconate and isopropyl
alcohol. All blocks will be placed using standard UCSD ultrasound-guided techniques.
Ropivacaine 0.5% (with epinephrine 1:200,000-400,000) will be administered via the needle
into the target plane. For erector spinae plane blocks, this will be at the T3 level for
surgery involving the axilla and the T4 level for surgery not involving the axilla (20 mL of
local anesthetic for unilateral surgery; 16 mL of local anesthetic each side for bilateral
surgery). For PVBs without axillary work, this will be at the T3 and T5 levels. For PVBs with
axillary work, this will be at the T2 and T4 levels. For unilateral PVBs, 10 mL of local
anesthetic will be injected per level. For bilateral PVBs, 8 mL of local anesthetic will be
injected per level.
Single-injection blocks will be considered successful if, within 30 minutes, the subject
experiences decreased sensation to cold temperature with an alcohol pad over the approximate
level of the ipsilateral 4th thoracic dermatome. Misplaced blocks will be replaced
successfully, or the patient excluded from further study participation. For subjects
undergoing bilateral surgical procedures, a block using the same protocol will be
administered on the contralateral side.
Intraoperatively, all subjects will receive a general anesthetic using inhaled and
intravenous anesthetic and oxygen. Intravenous fentanyl will be administered for
cardiovascular responsiveness to noxious stimuli at the discretion of the anesthesia
provider.
Postop: Subjects will be discharged with a prescription for oxycodone 5 mg tablets for
supplementary analgesia and instructed to record the time at which subjects take their first
opioid tablet as well as the time at which subjects believe the block starts to wear off.
Outcome measurements (end points). Pain scores will be recorded using the Numeric Rating
Scale (NRS). Within the recovery room, pain scores, opioid requirements, and antiemetic
administration will be recorded by nursing staff masked to treatment group. The morning
following surgery, all subjects will be contacted by phone or in person [if hospitalized] to
record lowest, average, highest, and current pain scores; sleep disturbances, and nausea
using a 0-10 Likert scale (0 = no nausea; 10 = vomiting). For outpatients, opioid
requirements will be recorded while inpatients will have opioid requirements extracted from
the electronic medical record. In addition, the investigators will extract antiemetic use
from the electronic record. The investigators will collect the times at which subjects felt
their block resolve and subjects consumed their first opioid analgesic pills following
recovery room discharge.
Hypothesis 1: Following breast surgery, analgesia will be non-inferior in the recovery room
with an erector spinae plane block compared with a paravertebral block as measured with the
Numeric Rating Scale.
Hypothesis 2: For breast surgery, opioid consumption will be non-inferior in the operating
and recovery rooms with an erector spinae plane block compared with a paravertebral block
(primary: cumulative intravenous morphine equivalents).
Primary end point: In order to claim that erector spinae plane blocks are non-inferior to
paravertebral blocks, both Hypotheses 1 and 2 must be at least non-inferior.
Statistical methods. Descriptive statistics will be provided by arm and in aggregate.
Baseline characteristics of arms will be compared using the Wilcoxon-Mann-Whitney and
Fisher's Exact tests. Key characteristics that are significantly different (p<0.05) will be
included as covariates in the analysis models.
Primary aim. The investigators will test the noninferiority of the erector spinae nerve block
compared to the paravertebral nerve block. The 95% confidence interval (CI) associated with
the Wilcoxon-Mann-Whitney test will be derived for the group difference (paravertebral minus
erector spinae) in median pain scores within the recovery room. If the lower limit of the 95%
CI is greater than -1.25, the investigators will conclude noninferiority. If there are
significant differences between the groups in any key characteristics, these characteristics
will be included as covariates in a linear model. The same noninferiority margin (-1.25) will
be applied to the 95% CI for the covariate adjusted group difference in mean pain derived
from the linear model.
The noninferiority of the erector spinae nerve block with regard to total opioid consumption
within the operating and recovery rooms will be tested in the same manner as pain, i.e.
comparing the limits of a 95% CI associated with the Wilcoxon-Mann-Whitney test to a
predefined noninferiority margin (in this case 2 mg). Covariate adjusted linear models will
again be applied in the event that key characteristics are significantly different between
the groups.
Sample size justification. Power for the Wilcoxon-Mann-Whitney derived noninferiority testing
is based on 10,000 simulated trials. The investigators simulated pain scores from a discrete
distribution with median (interquartile range) 3 (2-5) [Kairaluoma, 2004]. Between the
quartiles, the probability of each score was assumed constant. The distribution for each
group was assumed to be the same. The sample size of n=50 per group provides 82% power to
detect noninferiority in pain with a margin of 1.25. Similarly, opioid consumption was
assumed to follow a truncated normal distribution with mean 2.5 mg and standard deviation 2
mg, and minimum value 0 mg. The sample size of n = 50 per group provides at least 95% power
to detect noninferiority with margin 2 mg. Therefore, the investigators will enroll 50
subjects for each of two treatments with a total enrollment of 100 subjects. To allow for
dropouts, the investigators will request a maximum enrollment of 120 subjects. Noninferiority
in pain is tested first, and if significant, noninferiority in opioid consumption is tested.
Under this hierarchical testing framework, no adjustment in alpha is necessary to control
Type 1 error [Mascha, et al 2012].
;
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