Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03936387 |
| Other study ID # |
IRB-P00031524 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
Phase 3
|
| First received |
|
| Last updated |
|
| Start date |
July 1, 2019 |
| Est. completion date |
September 12, 2019 |
Study information
| Verified date |
March 2021 |
| Source |
Boston Children's Hospital |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Overall Aim: To evaluate the feasibility and potential benefits of investigating bilateral
continuous erector spinae blocks (BESB) for postoperative pain management in a small cohort
of children undergoing surgical sternotomy prior to planning an appropriately powered,
randomized, controlled trial of the same.
Hypothesis: The investigators' primary hypothesis is that utilizing bilateral erector spinae
blocks for post-sternotomy pain is a feasible intervention for consideration in a larger
trial by demonstrating a 75% or greater successful intervention completion rate without any
major adverse outcomes.
Description:
Regional anesthesia-and pediatric regional anesthesia in particular-is a rapidly evolving
subfield of anesthesia practice driven with considerable urgency by the growing recognition
that even appropriate perioperative narcotic administration can have significant derogatory
long-term effects.
Regional anesthetics can provide targeted, continuous analgesia to select dermatomes with
minimal additional patient risk and as such have become routine components of opioid-sparing
intraoperative and postoperative pain management plans for surgical patients at BCH. In
addition to the postulated benefit of reducing overall opioid exposure and potentially
reducing the risk for long term physiologic and behavioral dependence upon opioids, regional
anesthetics may allow for earlier extubation after selected surgeries, shorter ICU, PACU and
inpatient admissions, earlier mobilization, fewer gastrointestinal complications, and
improved patient satisfaction scores.
Despite a robust literature supporting the safety and efficacy of regional anesthesia for
postoperative pain control across a broad range or surgery types, patient demographics and
underlying comorbidities, there are certain classes of surgeries that have (to date) not
benefitted from the advantages that regional anesthetics may provide, most notably spine
surgery and cardiac surgery.
Concerns have been expressed with regard to regional anesthetics for cardiac surgeries in
particular (this being the primary surgical type associated with sternotomies in a pediatric
populations), given that most patients are pharmacologically anticoagulated to some extent
during their procedures and are thus at increased risk for bleeding. This is further
complicated in the pediatric cardiac surgical population as many of these children are
intubated for an extended period of time and therefore may not have particularly reliable
neurological exams in the setting of neuraxial regional anesthetics-potentially resulting in
unrecognized acquired neurological defecits. While there is emerging evidence of improved
outcomes with neuraxial regional anesthetics in adult cardiac surgery patients, this has not
trickled down to the pediatric population, likely for some of these reasons.
The investigators at BCH are fortunate to have one of the largest concentrated pediatric
cardiac surgical populations in the US along with an active, and well organized regional
anesthesia service. Because of this, the investigators are in a unique position to more
thoroughly evaluate the effectiveness and safety of regional anesthetics in children
following cardiac surgery. Furthermore it is thought to be critical that institutions such as
BCH take a leading role in documenting the effects of regional anesthesia on the most
important outcome measures when considering perioperative medicine. These include: overall
pain management, surgical healing, functional recovery, long term pain symptoms, and
emotional/behavioral outcomes after surgery.
Recently, the erector spinae block (ESB) has become popular for providing analgesia after a
number of anterior chest and abdominal procedures. This is a simple interfascial plane block
that can reliably provide unilateral chest and/or abdominal wall analgesia. It has been
described in numerous case reports and one case series as an effective block for management
of unilateral thoracotomies, unilateral rib fractures, unilateral abdominal incisions and
most notably, when used bilaterally, for management of post-sternotomy pain. New case reports
and series involving the ESB are being published almost weekly at this point with a growing
literature specific to cardiac surgical applications. Indeed a randomized controlled trial to
investigate the analgesic efficacy of bilateral erector spinae plane (BESP) blocks compared
with conventional treatment for pain after cardiac surgery in adult patients was published
recently (2018) with promising results.
As an interfascial plane block in a compressible anatomical space, the ESB is thought to be
safe in anticoagulated (or recently anticoagulated) patients. It is fast becoming a preferred
anesthetic option for these pharmacologically or otherwise coagulopathic patients as opposed
to neuraxial (e.g. epidural) and paraneuraxial blocks (i.e. paravertebral) nerve blocks,
which are largely contraindicated in this setting.
Given the ESB's potentially favorable risk profile versus the other blocks that would
subserve the same dermatomes (i.e. it is technically less challenging, more distant from
critical structures, and thought to be safe in anticoagulated patients) it could provide both
a safer and easier to perform regional anesthesia option for many patients. In particular, it
offers a new option for a subset of anticoagulated patients for whom other regional
techniques (epidural, paravertebral) are contraindicated. This is particularly true for the
populations of pediatric cardiac surgical patients at BCH if used bilaterally.
Indeed, given the current information available related to the ESB, the regional anesthesia
service at BCH has begun employing it when possible in circumstances when a neuraxial or
paravertebral block(s) would commonly be used but is/are relatively or absolutely
contraindicated. Patients undergoing thoracotomies while anticoagulated for cardiopulmonary
bypass, aortic clamping, etc. have been successfully managed with unilateral continuous ESBs.
In addition, thoracotomies in patients with acquired (e.g. dilutional) and other pathologic
coagulopathies have been managed with ESBs. As such, the ESB has been adopted for routine use
in specific patient populations at BCH and has even occasionally been utilized in lieu of the
more longstanding routine PVBs or epidural blocks for patients without contraindication for
such.
Retrospective review of BCH outcomes data for 67 ESBs done for a variety of surgeries and
populations has not revealed any significant differences between PVBs and ESBs in terms of
adverse events, postoperative opiate use, median pain scores, or other standard outcomes
measures. As this data is observational in nature, it is difficult to draw firm conclusions
as to the efficacy of the two blocks. However, since there are distinct known and described
advantages associated with regional anesthetics for postoperative pain management, it would
be prudent to evaluate these blocks in a controlled, randomized, trial. Prior to such a
trial, a pilot study to evaluate the feasibility of such a trial is warranted.
As such, the investigators propose to evaluate the feasibility of investigating bilateral
continuous erector spinae blocks (BESB) for patients undergoing surgical sternotomy by means
of a pilot study. For this study, 'feasibility' will be defined primarily as a successful
intervention completion rate of 75% or greater of all subjects with no major adverse
outcomes. Secondary measures of feasibility will include aggregate 'data integrity' as
defined by successful collection of 75% or greater of all possible data points for
successfully completed subjects as well as 'efficient intervention duration' as evaluated by
intervention completion time being less than 40 minutes.
