Postoperative Complications Clinical Trial
Official title:
Effects of Checklists in Surgical Care - a Study on Morbidity, Mortality and Data Quality
This project aims to produce a systematic review on present knowledge on effects of using
safety checklists in medicine. Implementation of a checklist system throughout surgical care
may reduce patient morbidity and mortality. The reliability of patient data is crucial to
make firm conclusions as to such effects. This project aims to investigate if such morbidity
and mortality effects are obtainable in two Norwegian hospitals while at the same time
making a crucial evaluation of the patient data used in this study itself.
We hypothesise
1. An updated systematic review of the research literature provide evidence that safety
checklists use does enhance safety and reduces patient mortality and morbidity
2. Implementation of the patient safety checklist system will reduce patient mortality and
morbidity in the checklist cohort, and subsequent effects on length of stay
3. The sensitivity and specificity of ICD-10 coding vs. medical journal information is
poor, with study results to be adjusted accordingly.
1.0 Background Surgical procedures are high risk events and patients may suffer
complications or die post operatively. A report from an on-going patient safety campaign "In
Safe Hands" lead by the Norwegian Knowledge Centre for the Health Services reveals that
approximately 16 % of all Norwegian hospital admissions in 2010 involved an adverse event
(AE) (Deilkås, 2011). A review study on AEs in 2008 included a wide range of in-hospital
patients from Australia, Canada, New Zealand, the United Kingdom, and the United States of
America (US) (de Vries et al., 2008). 9 % of the patients experienced an AE, with 7. 4 % of
these ending fatally. The majority of the AEs occurred during surgical treatment or was
related to drug administration. The authors claimed that almost half of these could have
been prevented if checklists covering the entire surgical pathway had been used (de Vries et
al., 2008). Implementation of such a system, called the Surgical Patient Safety System
(SURPASS) did in fact result in a reduction of in-hospital morbidity (from 27.3% to 16.7%)
and mortality (from 1.5 % to 0.8 %) (de Vries, 2010).
Patient safety checklists have been introduced and recommended as a standard of surgical
care (Birkmeyer, 2010; de Vries et al., 2011). Studies based on data from electronic patient
administrative systems show that checklist use may reduce mortality and morbidity in surgery
(de Vries et al., 2010; van Klei et al., 2012; Haynes et al., 2009). Safe Surgery checklists
have been recommended by the World Health Organization (WHO) since 2008 as a strategy to
avoid adverse events (AE) during surgery. More than 6000 hospitals have implemented Safe
Surgery checklists in their operating theatres (OTs)
(http://www.who.int/patientsafety/safesurgery/en/), including Haukeland University Hospital
(HUH).
This multicentre research project will also introduce a system of patient safety checklists
at each point of care during the surgical patients' stay, not only in the operating theatres
(OTs). The system combines new checklists on patient care (parts of SURPASS) with the
already established Safe Surgery checklist (WHO) in the OTs. At the same time securing
reliability, validity and quality of the patient, morbidity and mortality data will be an
essential part of the study.
Today the discharging physician reviews the medical journal and makes a medical summary
including coding diseases and complications relevant for the current admission.
International Classification of Diseases (ICD-10) codes are used to set diagnoses for
clinical, epidemiological and quality purposes
(http://www.who.int/classifications/icd/ICD10Volume2_en_2010.pdf). The ICD-10 codes are also
used for registrations on national mortality and morbidity in the Norwegian National Patient
Register (NPR). Questions have been raised as to the accuracy and quality of the data in
such registers in Norway, e.g. in patients with sepsis (Flaatten, 2004), and intensive care
patients (Aardal et al., 2005). In a Danish study on relations between ICD-10 coding in the
National Registry of Patients and the hospitals' discharge summary and medical records, a
high reliability between ICD-10 scores and co-morbidity was found (Thygesen et al., 2011).
To our knowledge similar studies have not been done in Norway. As a crucial part of this
investigation we concurrently will evaluate the reliability and validity of our patient
administrative data by comparing the post discharge ICD-10 codes to actual data available
directly from medical journal systems as documented by health care personnel in the journal
texts.
2.0 Objective
The main objectives of this study are to:
- Perform a systematic review of published studies on effects of safety checklists in
medicine.
- Explore effects on morbidity and mortality after implementing a system of patient
safety checklists at each point of care during the surgical patients' stay (elements of
SURPASS and the WHO Safe Surgery list combined), in a cohort of surgical patients in
different surgical departments in one hospital, with patients from departments not
having the system introduced serving as controls from three hospitals.
- Investigate the validity of the post discharge ICD-10 codes for complications compared
to actual information found in medical journal systems texts.
3.0 Methods 3.1 The projects and design
1. Systematic review A systematic review on effects of safety checklists in medicine was
done on May 29th, 2012 in the databases MEDLINE, Cochrane library, EMBASE and Web of
Science, limited to only humans. The criteria were pre-set and included all time
published quantitative studies in any language in the in-hospital and pre-hospital
setting where safety checklists were the sole intervention, and effects of using
checklists, generated as measurable outcomes. 7408 singular articles were found. To
ensure the transparency of the reviewing process we used the PRISMA guidelines
(Liberati et al., 2009). 34 studies met our inclusion criteria. The majority of the
included studies measured effects pre-and post-intervention and was classified as
having an observational design. . This systematic review has identified that safety
checklists can be effective safety tools in various clinical settings. Their use has
reduced patient mortality and morbidity. In addition, safety checklist use has been
associated with better human performance, improved compliance with evidence-based
practices, promoted consistency of care, and reduction of technical omissions. None of
the included studies reported that safety checklists have negative effects on patient
safety issues.
2. Implement the new patient safety checklist system and measure effects on morbidity,
mortality and length of hospital stay.
A prospective stepped wedge trial design (Brown & Lilford, 2006; Brown et al., 2008)
will be used when implementing the validated patient safety checklist system in the
Neurosurgical Department, the Orthopaedic Clinic and the Department of Gynaecology and
Obstetrics at HUH. Patients from departments not using the patient safety checklist
system serve as controls, this includes the Head and Neck Clinic (HUH), the Thoracic
Surgery Section of the Heart Department (HUH) and two hospitals outside our own
municipality (Health Trust Førde, and Health Trust Fonna - Haugesund Hospital). Primary
end-points to be measured prospectively include length of hospital stay and morbidity
and mortality utilizing the ICD-10 codes for complications collected electronically
from the hospital patient administrative systems.
3. Validation of morbidity and mortality data Today ICD-10 codes are produced by
discharging physicians to summarize diagnoses at discharge and any complications having
occurred during patient stay. In order to validate HUH's and Health Trust Førde's
ICD-10 coding on patient morbidity and mortality we will randomize inclusion for
quality check comparing the ICD-10 codes used at discharge to all actual information on
morbidity and mortality as documented in the electronic patient journal (EPJ) - DIPS.
This validation should include approximately 700 patients, all having undergone major
surgery. Such a comparison is essential to gain knowledge on the quality of generated
ICD-10 data and thus important to the quality of results in this study.
3.2 Intervention study sample Three surgical units at HUH (Department of Neurosurgery,
Orthopaedic Clinic, and Department of Gynaecology and Obstetrics) will have the checklist
system implemented. Approximately 3700 patients will be included before and 3700 patients
after checklist implementation. The Control Group includes 7400 patients.
3.4 Data collection For the study on mortality and morbidity we will extract ICD-10 codes
used at discharge from the hospitals NPR file, as all Norwegian hospitals report their
ICD-10 codes and procedure codes to NPR. In addition to registering all ICD-10 codes on each
patient, we will collect demographic data (age, gender, height and weight), American Society
of Anaesthesiologists Physical Health Classification (ASA), dates of admission and
discharge, and all surgical procedures and major treatments. Data will be processed through
Webport using a system previously developed locally for the WHO Surgical Safety Checklist
project.
The primary end points, morbidity and mortality, are registered during hospitalization and
postoperatively up to 30 days. Morbidity will be registered as major complications according
to the American College of Surgeons' National Surgical Quality Improvement Program
(http://www.facs.org/cqi/outcomes.html): organ/space surgical site infection, wound
dehiscence, deep vein thrombosis, pulmonary embolism, pneumonia, re-intubation, ventilator
use longer than 24 hours, cardiac arrest, myocardial infarction, sepsis, shock, coma longer
than 24 hours, prosthetic/graft failure, and bleeding. Additional complications to these, as
reported by de Vries (2010) will be included in order to make comparisons possible.
The study investigating reliability and validity of the ICD-10 codes will be done in detail:
A prospective random selection of 700 patients, 200 patients from Health Trust Førde and 500
patients from the HUH, all having undergone major surgery. Present knowledge should suggest
one or several major complications caused by procedures or iatrogenic causes in at least 17
% the surgical patients (de Vries, 2010). Then an inclusion of 700 patients is needed in
order to find such complications in 119 cases. We will identify all post discharge ICD-10
codes for each patient. These codes will be thoroughly reviewed for accuracy and
completeness by comparing to the actual information as documented by physicians and nurses
in the EPJs throughout the total hospital stay. Primary outcome is here to investigate that
registered ICD-10 codes have adequate sensitivity and specificity compared to the
information in the patients' medical journal.
3.5 Statistics Descriptive and inferential statistical methods will be used to analyse data.
Confidence intervals (95% CI) for sensitivity and specificity will be calculated using the
normal approximation for the standard error of proportions.
Mortality and morbidity will be analysed as to time of measurement, e.g. pre and post
intervention, and surgical unit, i.e. using or not using the checklist. Multiple regression
analysis and other appropriate statistical tools will be used to adjust for covariates to
mortality and morbidity. Calculation of sample size and power, with an expected mortality
rate decrease (0.015 vs. 0.008) requires a sample size of 3641 patients in both baseline and
post intervention groups with an alpha (0.05, 2-tailed), power is 80%. To calculate sample
size and power for morbidity mitigation from 27% to 17% (de Vries et al., 2010) requires a
much smaller sample size of 234 in baseline and post intervention groups to constitute an
80% power with alpha at 0.05, 2-tailed. Statistical analysis will be conducted with
appropriate statistical software e.g. Statistical Package for the Social Sciences, Stata or
R.
;
Allocation: Non-Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Prevention
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