Hemodynamics and Myocardial Injury After Non-cardiac Surgery
NCT ID: NCT05188001
Last Updated: 2022-01-12
Study Results
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Basic Information
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UNKNOWN
750 participants
OBSERVATIONAL
2022-01-01
2022-12-31
Brief Summary
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Detailed Description
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Current risk stratification models have multiple limitations. Most importantly, they predict an elevated risk over the postoperative period but cannot pinpoint when MINS may happen in the postoperative course given the patients' changing condition. Moreover, prescription of troponin monitoring is not universal, infrequent and inconsistent troponin monitoring may lead to delayed detection and management, and the rise of troponin is delayed by 3-4 hours from the time of injury.
Retrospective cohort studies show association amongst intraoperative and postoperative derangements in vital signs and MINS. Vital signs are routinely available within the electronic medical record, and may serve as objective predictors (i.e. as opposed to free text and disease names that have higher risks of misclassification and errors).
Using both traditional longitudinal analysis techniques and novel methods in machine learning, investigators will explore whether intraoperative and postoperative vital signs can enhance MINS surveillance by providing temporal prediction of MINS events.
Objectives
1. To develop and internally validate a model that uses the duration and degree of intraoperative and postoperative hypotension to predict the daily maximum troponin level from postoperative days zero to two, in a high risk population where troponin monitoring was ordered.
2. To develop and internally validate a model that uses the duration and degree of intraoperative and postoperative hypotension to predict daily probability of MINS or death (binary outcome, according to the 2021 American Heart Association (AHA) definitions from postoperative days zero to two.
3. To evaluate how different definitions of hypotension affect the primary and secondary models above, and analyze the intraoperative and postoperative hypotension separately to determine whether intraoperative or postoperative hypotension alone are sufficient for prediction.
4. To explore whether other intraoperative and postoperative vital sign information (heart rate, oxygen saturation, and end-tidal carbon dioxide derangements at various definitions) add predictive value to the primary and secondary models above.
5. To use machine learning methods to perform exploratory analysis to determine 1) optimal methods for imputation for time series data; 2) visualization of time series data in the setting of prediction; 3) development and internal validation of machine learning models to use the time series data to predict troponin levels; and 4) to determine how many hours earlier than a binary MINS diagnosis were vital signs able to predict a MINS diagnosis (as determined by when in the time series prior to MINS diagnosis that the model achieved various thresholds of predicted probability).
Preoperative laboratory values are collected within 30 days before surgery. Preoperative vitals are collected within 24 hours before surgery. The total duration of subsequent data collection will be from the time of surgery up to postoperative day 3 (since the MINS protocol monitors for 3 days) or hospital discharge or death, whichever occurs first. Since 90% of MINS happen between postoperative days zero and two and the frequency of monitoring would likely decrease by postoperative day 3, investigators will model troponin from postoperative day 0 to postoperative day 2 for the primary analysis to balance utility of the temporal model and prediction data quality.
Conditions
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Study Design
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COHORT
RETROSPECTIVE
Study Groups
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Inpatient non-cardiac surgery patients
Patients aged 45 years and older undergoing inpatient non-cardiac surgery who had MINS protocol ordered for postoperative high sensitivity troponin monitoring based on the CCS guidelines from January 2020 to June 2021.
Not an Interventional Study
Not an interventional Study
Interventions
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Not an Interventional Study
Not an interventional Study
Eligibility Criteria
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Inclusion Criteria
* Patients who underwent inpatient non-cardiac surgery from January 2020 to June 2021.
Exclusion Criteria
* Patients who did not have any postoperative troponin measurements
* Patients who underwent repeat surgery
* Patients who were readmitted within the first 72 hours postoperatively
* Patients who had positive troponin on postoperative day 4
45 Years
ALL
Yes
Sponsors
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University of British Columbia
OTHER
Responsible Party
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Su-Yin MacDonell
Clinical Assistant Professor
Principal Investigators
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Diana Su-Yin MacDonell, MD
Role: PRINCIPAL_INVESTIGATOR
University of British Columbia
Locations
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St. Paul's Hospital
Vancouver, British Columbia, Canada
Countries
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Provided Documents
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Document Type: Study Protocol and Statistical Analysis Plan
Other Identifiers
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H20-03995
Identifier Type: -
Identifier Source: org_study_id
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