Objectives
Primary objective
To synthesise the existing evidence on the impact of pre-injury anticoagulation on outcomes (as defined by morbidity and mortality) in head-injured patients ≥ 65 years old.
Sub-objectives
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To measure and compare the impact of anticoagulant use on outcomes stratified by the severity of the head injury experienced, and class of anti-coagulants
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To add to the existing body of knowledge on the utilisation of anticoagulants in head-injured patients
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To contribute to defining public policy and guidelines on the use of anticoagulants in the older population
Study design
The study will be a systematic review of all eligible studies that have described the outcomes in older head-injury patients on anticoagulants. These studies will be obtained from the sources listed in Table 1. A flow chart outlining the study methodology is shown in Fig. 1.
This paper contains the systematic review protocol, which was developed as per PRISMA-P guidelines for systematic review protocols (16). In addition, a completed checklist for the PRISMA-P guidelines has been completed and provided as a supplementary file. The systematic review has been registered on PROSPERO[3], and the complete study will be reported in line with the PRISMA statement (17).
Table 1
Category
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Name of index
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Databases
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MEDLINE, EMBASE, COCHRANE reviews (including CENTRAL databases), MedOne Neurosurgery.
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Other selected indexes
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PubMed, ResearchGate, Google Books, Google Scholar
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Research registers
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National Institute of Health Research, UK; guidelines relevant to head injuries, e.g. NICE, ACS TQIP, and The Brain Trauma Foundation
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Unpublished research
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British National Bibliography for Report Literature, Dissertation Abstracts, Index to Scientific and Technical Proceedings, System for Information on Grey Literature, key individuals in the research field.
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The search strategy will include keywords that have been derived from scoping research[4] in the subject field. These keywords are listed in Appendix 1.
Study selection
Two reviewers will select studies based on the eligibility criteria outlined in Box 1. These criteria are based on the standard PICOS format recommended in the PRISMA and AMSTAR checklists (17–19). Full-text studies will be reviewed and considered potentially relevant when it is not possible to completely exclude them simply based on title/abstract (20). The planned process of study selection is shown in the flowchart in Fig. 2
Box 1
Eligibility Criteria
Following study selection, both reviewers will compare findings from the study search. In cases of disagreements, we will moderate these with a third reviewer (21). We will also search the references of the identified studies for other relevant sources. Experts who have conducted applicable or similar research will also be contacted to identify unpublished sources. Additionally, I will hand-search specific public health, trauma, and neurosurgery journals for other relevant studies.
Study selection and data management
Study records will be managed using Mendeley – a referencing/bibliography software, and Covidence, an online systematic review tool used for study selection and data collection. Covidence will also be used for study screening, full-text review, as the second risk-of-bias assessment, and study characteristics and outcomes extraction. Data collected will be exported to Excel and RevMan for further analysis. During the search process, I may revise my inclusion and exclusion criteria to help ensure that essential studies are not excluded and eliminate irrelevant studies. Any changes to the protocol will be tracked on PROSPERO and a personal reflective journal.
Risk of bias/quality control
Sensitivity analysis will be used to examine each of the studies selected for the possible risk of bias using RevMan 5. In addition, the Cochrane risk of bias tool (RoB2) and the ROBINS-1/robvis tools will be used to evaluate the risk of bias for randomised controlled trials and non-randomised studies, respectively (22, 23). In the presence of bias, the studies will be excluded from the systematic review as per the AMSTAR protocol (19).
Data collection
Data will be collected from the selected studies and grouped based on sample characteristics (such as age, sex, ethnicity, socio-economic status, type of anticoagulant, mechanism, and severity of injury), sample size, and outcomes using piloting forms. The corresponding author (Ogbu, I.) will collect this data collection once studies have been selected. The data items to be collected have been listed in Appendix 2 and will be kept in a Microsoft Excel spreadsheet.
Data analysis and study reporting
The data will be presented in a spreadsheet to allow easy semi-qualitative comparison of the various population demographics, intervention types, and outcomes. The data will subsequently be grouped by intervention type and outcome to evaluate across studies.
The discussion will be based on the analysis of the outcome measures. Additionally, a meta-analysis will be conducted based on the data collected during the review process. The systematic review (& meta-analysis) will be reported in line with PRISMA recommendations. At the end of the study, the strength of the overall body of evidence will be assessed using GRADE criteria (24).
Outcomes will be compared using ORs. In addition to a narrative synthesis, the outcomes will be synthesised using pooled effect estimates (using weighted effects estimates). These estimates will be considered in the context of the level of heterogeneity between the effect estimates of the studies identified. The heterogeneity of studies will be evaluated using the I² statistic. Some heterogeneity is expected considering that we will be examining various quantitative study types.
Following the study, a meta-analysis is planned, which will compare outcomes with low to moderate heterogeneity using a fixed-effects model. Outcomes with high heterogeneity will be analysed using a random-effects model. All of this will be done using RevMan 5.
Additionally, subgroup analysis will be conducted for the various anticoagulant groups to compare outcomes between these. Our ability to run a meta-analysis here will depend on the results of the study, especially regarding the heterogeneity of the identified studies.
Sub-group analysis will be conducted to compare outcomes across various anticoagulant groups - NOACs versus non-NOACs to observe differences in outcome between the two groups. Similarly, further sub-group analysis will be conducted to determine the association between the use of LMWH, NOACs, and Warfarin/Coumarin and the various outcomes to be tested to observe any differences between the three groups. If possible, I will also evaluate the difference in outcomes between studies in different geographical locations.
Comparing outcomes in the NOAC and non-NOAC groups will be through the use of ORs and mean differences for the continuous outcomes. In comparing the various anticoagulant sub-groups, multivariate inferential statistical tests, including ANOVA, will be used to determine the difference between outcomes in the three groups of anticoagulated patients.
Sub-group analysis will also be further driven by the heterogeneity found among the various studies sampled during the systematic review (which will also be explored using sensitivity analysis).
[3] the International prospective register of systematic reviews. Registration number CRD42021220974
[4] done prior to commencing the systematic review