Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT05220774 |
| Other study ID # |
REB21-1887 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
October 1, 2018 |
| Est. completion date |
November 30, 2023 |
Study information
| Verified date |
December 2023 |
| Source |
University of Calgary |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
Studies directly comparing EDCS with AAS during ERCP are scarce, varying widely in their
designs and reaching conflicting conclusions regarding safety and effectiveness. The
investigators will assess, via a multi-center prospective study, the success, adverse event
rates, and patient tolerability of ERCP when performed under AAS versus EDCS.
Description:
1. Background and Rationale
Endoscopic retrograde cholangiopancreatography (ERCP) is critical in the diagnosis and
therapy of pancreatico-biliary conditions. In contrast to routine upper and lower
gastrointestinal (GI) endoscopic procedures, ERCP has several unique characteristics
that require consideration when formulating a sedation plan. Factors such as patient
comorbidities, positioning, airway issues, and longer procedure times collectively
contribute to a high risk of sedation-related adverse events (SRAEs) during ERCP.
In contrast to the United States (US), where anesthetist-administered sedation (AAS) for
ERCP is the norm, endoscopist-directed conscious sedation (EDCS) remains the primary
method of sedation for ERCP in the United Kingdom (UK), Canada, and other countries with
publicly funded national healthcare systems. This practice is largely driven by resource
availability and cost limitations. AAS typically involves either general endotracheal
anesthesia (GEA) or deep sedation without an endotracheal tube, often referred to as
monitored anesthesia care (MAC).
Studies directly comparing EDCS with AAS during ERCP are scarce, varying widely in their
designs and reaching conflicting conclusions regarding safety and effectiveness.
Furthermore, little is known regarding the sedation method as it relates to
procedure-related adverse events (AEs). Finally, patient-reported experience measures
(PREMs) in this field have been insufficiently studied to date. The heterogenous nature
and inconsistent findings of existing studies comparing AAS and EDCS necessitate further
study with data of higher quality and granularity.
2. Research Question and Objectives
The investigators will assess, via a multi-center prospective study, the success,
adverse event rates, and patient tolerability of ERCP when performed under AAS versus
EDCS.
3. Methods
A total of 9 sites will participate using data from the Calgary Registry for Advanced and
Therapeutic Endoscopy (CReATE). An anticipated 85% of procedures across included sites will
be performed under EDCS, with the remainder performed under AAS. Consecutive patients ≥ 18
years of age undergoing ERCP will be included if informed consent is obtained. The
investigators will collect information on 1) patient demographics and risk factors (including
but not limited to Sphincter of Oddi dysfunction, prior acute or recurrent pancreatitis, and
relevant medications) and 2) procedural details (including but not limited to cannulation
attempts, cannulation time, trainee involvement and post-ERCP pancreatitis [PEP]
prophylaxis). At the time of discharge from the endoscopy unit, outpatients will be assessed
using the Patient-reported Scale for Tolerability of Endoscopic Procedures (PRO-STEP), a
validated tool that measures intra- and post-procedural physical tolerability.
Thirty days after index ERCPs, research staff will contact patients using standardized
interview scripts in addition to performing electronic medical record reviews to assess for
any adverse events, defined using the American Society for Gastrointestinal Endoscopy (ASGE)
Lexicon.
The primary outcome will be the procedural success of ERCP, defined using a previously
published set of a priori criteria. Secondary outcomes will include immediate and delayed
adverse event rates (including SRAEs, PEP, clinically significant bleeding, and
cholangitis/sepsis), patient tolerability (as assessed by PRO-STEP), total cannulation
attempts, pancreatic duct (PD) cannulation, rates of pre-cut sphincterotomy or needle-knife
papillotomy (NKP), cannulation time, and overall procedure time (from esophageal intubation
to extubation). SRAEs will be defined as any of the following: oxygen saturation < 85% for a
sustained period of 60 seconds, requirement for mask ventilation or unplanned endotracheal
intubation, intraprocedural use of one or more vasopressors or reversal agent(s), hypotension
with systolic blood pressure < 90 mm Hg requiring treatment, cardiac and/or respiratory
arrest, or death. PRO-STEP scores of >6 (on a scale of 0-10) will be considered to represent
poor intraprocedural tolerability.
