Background
Information biases, including publication bias, time-lag bias, selective outcome reporting bias, selective analysis bias, and fraud are major threats to the validity of systematic reviews. Systematic reviewers have pursued two methods approaches for dealing with information bias: 1) detecting (and correcting results for) information bias using only the identified studies (e.g., using funnel-plot based methods1-4 or various selection models5-7) and 2) examining trial registries, surveying researchers, and perusing the grey literature to identify unpublished study results or ongoing studies. Arguably the best way to obtain empirical data on the prevalence and impact of information bias (and perhaps to mitigate its impact) is through prospective clinical trial registries that include prospective registration of full study protocols, as well as summarized results (e.g., the National Library of Medicine ClinicalTrials.gov registry and registry networks such as International Clinical Trials Registry Platform [ICTRP]). Empirical analyses of prospective registry data can inform on the time between study completion and publication, the number of unpublished studies, the fidelity of studies to registered protocols, and the congruence of study results between result registries and publications.8-11
The existing empirical research on information bias pertains almost exclusively to industry-sponsored drug, device, and biologic trials,12-14 despite the fact that 41% (n=78,579) of all studies registered in ClinicalTrials.gov are indexed as "observational" or "behavioral/other intervention studies". Obtaining empirical data on studies of dietary supplements (e.g., fish oil) and interventions (e.g., increase of fish servings per week) in the context of a major clinical condition (e.g., cardiovascular disease [CVD]) adds to existing knowledge because the mechanisms through which information bias operates in this case may differ from studies of medications. Drug studies are twice as likely to have results posted in ClinicalTrials.gov as nondrug studies, and industry sponsored studies are more compliant in ClinicalTrials.gov reporting compared to academic sponsored studies.12 Studies conducted outside the United States may not be registered ClinicalTrials.gov but may be found in a local registry (e.g., accessible through ICTRP).
Objectives
The objective of this methodology report is to examine the feasibility and additional utility--in terms of impact on risk of bias and strength of evidence assessments--of comprehensive searches of the ClinicalTrials.gov and ICTRP registries to supplement the evidence identified in an ongoing systematic review update on omega-3 fatty acids (n-3 FA) and CVD outcomes conducted by the Brown Evidence-based Practice Center (EPC).16-18 Our findings will support the development of search methods, data collection, and evaluation techniques to optimize the use of trial registries in the context of systematic reviews.
Methods
Overview
We will use a completed systematic review conducted by our EPC on the relationship between n-3 FA intake and CVD outcomes. This systematic review (hereafter referred to as "original review") was conducted in accordance to IOM standards and AHRQ guidance but did not include ClinicalTrials.gov to identify ongoing studies.
While the original report was being finalized based on peer and public review comments, we will search two clinical trial registries, ClinicalTrials.gov and ICTRP, up to the last search date of the original report (6/8/2015) to identify additional eligible data, comprising 1) additional studies that were not identified in the original review and 2) additional information on the design or results of studies included in the original review. For newly found studies, we will record additional data and assess their risk of bias. For studies identified in the original review, we will also assess the congruence of any additional information on design or results with that in publications included in the original review, and whether the additional information would change study-level risk of bias assessments. At the level of the evidence-base, and for each pertinent exposure-outcome relationship, we will assess whether the additional information changes our overall risk of bias and strength of evidence assessments, or our conclusions.
Terminology
We use the term study to refer to the conducted research. Information about the design or results of studies may be reported in publications or in registry records. It is possible that studies identified through the registry search have no associated publications; and that studies identified in the original review have no records in ClinicalTrials.gov or ICTRP.
Registry searches
Because the registry databases are not indexed, queries can only include text words. Thus, it is necessary to translate the search of the original review, which includes text words, as well as controlled-vocabulary (MeSH) terms, to a semantically equivalent query using the ClinicalTrials.gov and ICTRP interfaces. The ClinicalTrials.gov search interface allows only for queries with a limited number of characters, and documentation on advanced searching options, such as truncation and adjacency searching, is sparse.19,20 Glanville et al. recommend searching for intervention terms only.19 We will therefore issue four queries whose union corresponds to the scope of the intended search. We will use a similar search process in ICTRP. Appendix A includes the literature searches from the original report and the specific search strategies to be used in ClinicalTrials.gov and ICTRP.
Screening Criteria and Evidence Map
The same eligibility criteria established for the original report will be employed to screen registry records for inclusion (Appendix B contains the original report's eligibility criteria). Initial screening will be performed by a single investigator who will peruse the title, intervention(s), and outcome(s) within each record. Records screened in during the initial phase will be included in an evidence map, which will parallel the evidence map created for the original report. This spreadsheet will capture basic intervention, outcome, study design, sample size, and whether results have been reported (but not the actual results data or risk of bias assessment). A researcher other than the one who initially screened the record in will reassess study eligibility and will extract the basic information for the evidence map.
When the evidence map is completed, the still-eligible records will be assessed to determine whether they meet additional operational eligibility criteria used in the original review (based on minimum sample size, minimum duration of followup, and reporting of subgroup analyses or interactions). For comparative studies (comparing different n-3 FA or different intake amounts of n-3 FA), we expect that the primary reason for exclusion will be based on small sample size for studies of lipoprotein, triglyceride, or blood pressure outcomes. For observational studies (that evaluated associations between baseline intake or measures of n-3 FA and followup outcome events), again the primary reason for rejection will likely be small sample size (for all outcomes).
The evidence map will thus provide information on two sets of studies, those that were potentially eligible (based on population, intervention, outcomes, and study design) but would not have been included in the original report (primarily due to small sample size) and studies that would have met full criteria for inclusion in the original report.
Data Extraction and Management
Data extraction has been completed for the original report. As noted above, all potentially relevant study records identified in registry searches will be incorporated into the original report's evidence map to include data on study design, intervention type and duration, population, outcomes, and sample size.
For relevant ClinicalTrials.gov/ICTRP citations that include results and that meet full eligibility criteria for inclusion in the original report, limited data will be extracted into the same customized forms developed and utilized in the original report in the Systematic Review Data Repository (SRDR) online system (http://srdr.ahrq.gov). Specifically, we will capture basic information about the study design, study population, intervention details (i.e., n-3 FA type, dose, and duration), reported outcomes, and results (that were not captured by articles included in the original report). Results data for only the longest-reported followup time in the registry record will be extracted. We will also assess each new study for the same risk of bias questions addressed by the original report.
Analysis
We will provide descriptive statistics on the registry search yield and identify records/publications found exclusively in the original report, in a registry database, or in both. We will characterize registry records and associated publications that have been discontinued or are in progress/ongoing at the time of this study by detailing study initiation date and rationale for discontinuation or delay. We will, thus, categorize studies as 1) included in the original review but not found in the registry, 2) included in the original review and found in a registry but with no new results data, 3) included in the original review and found in a registry with new data, and 4) identified via the registry but not found in the original review. We will focus on the value of results data identified via registry searches, and thus highlight the congruence, or lack thereof, among data identified via the registry and found in the original report in light of additional study data identified via registry searches.
Analyses of studies included in the original review that also have a registry record
For these studies, the additional information in the registry records pertains to their design (if the registry record includes protocol information) or their findings (if the record includes results).
Information found in protocols can be examined against information obtained from publications to judge whether important changes in the analysis plan occurred. We will make such comparisons only with respect to 1) general design items used to inform risk of bias assessments and 2) the analysis plan of the eligible exposure-outcome relationships. The risk of bias of each study result in the original review was evaluated based on predefined questions (Appendix C). We will assess whether the additional information in the registry records changes the risk of bias assessments in the original review. In the assessment for changes in the analysis plan, we will look for changes in the estimand (determined by the population to which the analysis refers [e.g., all assigned to an interventions, all receiving the intervention], the effect measure [e.g., difference in means, odds ratios for specific categorizations of continuous outcomes], and follow-up [the maximum follow up recorded]); the estimation procedure (the prescribed statistical learning procedure [e.g., taking unadjusted differences of means, adjusting in regressions and for which factors, or via stratified analysis]); and the plan for handling missing values. Deviations from the protocol's analysis plan may be suggestive of selective analysis reporting.
When results are reported in registry records, we will describe whether registry records and publications describe the same outcome concepts, and if yes, whether the results agree qualitatively (are in the same direction). We will also describe which outcome-instantiations are reported in the registry record, the publication, or both. For outcome instantiations that are reported in both, we will record whether the quantitative results are the same (within rounding error) or not.
Analyses of studies that were not included in the original review
Registry records of newly identified studies will be summarized in narrative form and added to the original report's evidence map. We will apply the same risk of bias assessments as in the original review (Appendix C).
Risk of bias for the evidence base and Strength of Evidence
For outcomes with new data from the registries for specific n-3 FA comparisons, we will reassess the risk of bias of the evidence base and the strength of evidence using the same methodology used for the original report. We will evaluate if any additional data are likely to impact the findings of the study included in the original report. We quantify such impact as a potential increase in total study population sample size (>20%), a change in the magnitude of outcome measures (20% change in estimate or a change in direction; by meta-analysis), or a change in statistical significance (by meta-analysis). If meta-analyses are not conducted, we will assess whether the new studies fall within the range of the similar studies from the original report. If none of these conditions are met, the additional data are unlikely to directly impact the strength of evidence or the assessment of risk of bias for the evidence-base. We will describe and explain any changes to strength of evidence for any n-3 FA and outcome relationship.
References
- Duval S, Tweedie R. Trim and fill: A simple funnel-plot-based method of testing and adjusting for publication bias in meta-analysis. Biometrics. 2000 Jun;56(2):455-63. PMID: 10877304.
- Egger M, Davey Smith G, Schneider M, et al. Bias in meta-analysis detected by a simple, graphical test. BMJ. 1997 Sep 13;315(7109):629-34. PMID: 9310563.
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- Rucker G, Carpenter JR, Schwarzer G. Detecting and adjusting for small-study effects in meta-analysis. Biometrical journal Biometrische Zeitschrift. 2011 Mar;53(2):351-68. PMID: 21374698.
- Copas J, Shi JQ. Meta-analysis, funnel plots and sensitivity analysis. Biostatistics. 2000 Sep;1(3):247-62. PMID: 12933507.
- Copas JB, Shi JQ. A sensitivity analysis for publication bias in systematic reviews. Statistical methods in medical research. 2001 Aug;10(4):251-65. PMID: 11491412.
- Hedges LV, Vevea JL. Estimating effect size under publication bias: small sample properties and robustness of a random effects selection model. Journal of Educational and Behavioral Statistics. 1996;21(4):299-332. PMID:
- Chan AW, Hrobjartsson A, Haahr MT, et al. Empirical evidence for selective reporting of outcomes in randomized trials: comparison of protocols to published articles. Jama. 2004 May 26;291(20):2457-65. PMID: 15161896.
- Roest AM, de Jonge P, Williams CD, et al. Reporting Bias in Clinical Trials Investigating the Efficacy of Second-Generation Antidepressants in the Treatment of Anxiety Disorders: A Report of 2 Meta-analyses. JAMA psychiatry. 2015 May 1;72(5):500-10. PMID: 25806940.
- Vedula SS, Bero L, Scherer RW, et al. Outcome reporting in industry-sponsored trials of gabapentin for off-label use. The New England journal of medicine. 2009 Nov 12;361(20):1963-71. PMID: 19907043.
- Vedula SS, Li T, Dickersin K. Differences in reporting of analyses in internal company documents versus published trial reports: comparisons in industry-sponsored trials in off-label uses of gabapentin. PLoS medicine. 2013;10(1):e1001378. PMID: 23382656.
- Anderson ML, Chiswell K, Peterson ED, et al. Compliance with results reporting at ClinicalTrials.gov. The New England journal of medicine. 2015 Mar 12;372(11):1031-9. PMID: 25760355.
- Viergever RF, Ghersi D. The quality of registration of clinical trials. PLoS One. 2011;6(2):e14701. PMID:
- Viergever RF, Karam G, Reis A, et al. The quality of registration of clinical trials: still a problem. PLoS One. 2014;9(1):e84727. PMID: 24427293.
- Trends, Charts, and Maps ClinicalTrials.gov U.S. National Institutes of Health; [updated June 5, 2015June 7, 2015]; Available from: https://www.clinicaltrials.gov/ct2/resources/trends.
- Balk EM CM, Adam GP, Halladay C, Langberg V, Robertson S, Yip A, Steele D, Smith B, Lau J, Lichtenstein AL, Trikalinos T. Omega-3 Fatty Acids and Cardiovascular Disease: An Updated Comparative Effectiveness Review Protocol. 2015. Available from: /sites/default/files/pdf/fatty-acids-cardiovascular-disease_research-protocol.pdf
- Wang C, Chung M, Lichtenstein A, et al. Effects of omega-3 fatty acids on cardiovascular disease. Evid Rep Technol Assess (Summ). 2004 Mar(94):1-8. PMID: 15133888.
- Balk E, Chung M, Lichtenstein A, et al. Effects of omega-3 fatty acids on cardiovascular risk factors and intermediate markers of cardiovascular disease. Evid Rep Technol Assess (Summ). 2004 Mar(93):1-6. PMID: 15133887.
- Glanville JM, Duffy S, McCool R, et al. Searching ClinicalTrials.gov and the International Clinical Trials Registry Platform to inform systematic reviews: what are the optimal search approaches? Journal of the Medical Library Association : JMLA. 2014 Jul;102(3):177-83. PMID: 25031558.
- How to Use Basic Search ClinicalTrials.gov U.S. National Institutes of Health; [updated April 2015June 9, 2015]; Available from: https://clinicaltrials.gov/ct2/help/how-find/basic.
Definition of Terms
Not applicable.
Summary of Protocol Amendments
No protocol amendments have been made.
EPC Team Disclosures
Our research team has no disclosures of potential conflicts of interest.
Role of the Funder
This project was funded under Contract No. HHSA 290-2015-00002I from the Agency for Healthcare Research and Quality, U.S. Department of Health and Human Services. The Task Order Officer reviewed contract deliverables for adherence to contract requirements and quality. The authors of this report are responsible for its content. Statements in the report should not be construed as endorsement by the Agency for Healthcare Research and Quality or the U.S. Department of Health and Human Services.
Appendixes
Appendix A. Search Strategies
Registry Searches
Databases: ClinicalTrials.gov 8/14/2015 (5084 unique citations)
Search 1: Omega 3 OR Omega3 OR Omega-3 OR Fish OR n-3 OR Docosahexaenoic OR DHA OR Eicosapentaenoic OR EPA OR ALA OR alpha linolenic OR alphalinolenic OR alpha-linolenic OR fatty acids OR fatty acid OR PUFA OR SDA OR stearidonic
Search 2: Ropufa OR MaxEPA OR Omacor OR Efamed OR ResQ OR Epagis OR Almarin OR Coromega OR Lovaza OR Vascepa OR icosapent ethyl OR mediterranean diet
Search 3: salmon OR mackerel OR herring OR tuna OR halibut OR seaweed OR anchovy OR anchovies OR sardine OR sardines OR cod liver oil OR codliver oil OR marine oil
Search 4: walnut OR walnuts OR butternut OR butternuts OR soybean OR soybeans OR pumpkin seed OR pumpkin seeds OR flax OR flaxseed OR flax seed OR linseed OR rape seed OR rapeseed OR canola OR soy OR soybean OR walnut OR mustard seed OR perilla OR shiso
Databases: ICTRP 8/14/2015 (3468 unique citations)
Omega 3 OR Omega3 OR Omega-3 OR Fish OR n-3 OR Docosahexaenoic OR DHA OR Eicosapentaenoic OR EPA OR ALA OR alpha linolenic OR alphalinolenic OR alpha-linolenic OR fatty acids OR fatty acid OR PUFA OR SDA OR stearidonic OR Ropufa OR MaxEPA OR Omacor OR Efamed OR ResQ OR Epagis OR Almarin OR Coromega OR Lovaza OR Vascepa OR icosapent ethyl OR mediterranean diet OR salmon OR mackerel OR herring OR tuna OR halibut OR seaweed OR anchovy OR anchovies OR sardine OR sardines OR cod liver oil OR codliver oil OR marine oil OR walnut OR walnuts OR butternut OR butternuts OR soybean OR soybeans OR pumpkin seed OR pumpkin seeds OR flax OR flaxseed OR flax seed OR linseed OR rape seed OR rapeseed OR canola OR soy OR soybean OR walnut OR mustard seed OR perilla OR shiso
Original Report
Item | Search # | Search |
---|---|---|
Omega 3 terms | 1. | exp fatty acids, omega-3/ |
2. | ((omega-3 or omega 3 or omega3) and fatty acid$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
3. | fatty acids, essential/ | |
4. | linolenic acids/ | |
5. | exp fish oils/ | |
6. | ((n 3 or n3 or n-3) and (oil$ or pufa or fatty acid$ or omega 3)).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
7. | Docosahexaenoic acids/ | |
8. | docosahexa?noic.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] or docosapenta?noic.mp. | |
9. | Eicosapentaenoic acid/ | |
10. | eicosapenta?noic.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
11. | icosapent?enoic.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
12. | (alpha linolenic or alphalinolenic or alpha-linolenic).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
13. | (linolenate or cervonic or timnodonic or stearidonic).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
14. | menhaden oil$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
15. | ((flax or flaxseed or flax seed or linseed or rape seed or rapeseed or canola or soy or soybean or walnut or mustard seed or perilla or shiso) adj2 oil$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
16. | (walnut$ or butternut$ or soybean$ or pumpkin seed$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
17. | (fish adj2 oil$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
18. | (cod liver oil$ or codliver oil$ or marine oil$ or marine fat$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
19. | (salmon or mackerel or herring or tuna or halibut or seaweed or anchov$ or sardine$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
20. | (Ropufa or MaxEPA or Omacor or Efamed or ResQ or Epagis or Almarin or Coromega or lovaza or Vascepa or icosapent ethyl).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
21. | (fish consumption or fish intake or (fish adj2 diet$)).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
22. | (mediterranean adj diet$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
n-3 Biomarkers | 23. | ((red blood cell or phospholipid or plasma fatty acid or plasma or phospholipid or triacylglycerol or cholesteryl or ester or adipos$ or fatty acid or erythrocyte or ghost or platelet or granulocyte or neutrophil or mononuclear or LDL or HDL) and (DHA or docosahexa?noic or docosapenta?noic or EPA or eicosapenta?noic or SDA or linolenic or stearidonic or omega)).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] |
n-3 | 24. | or/1-23 |
Cardiovascular diseases, risk factors, adverse events | 25. | exp cardiovascular diseases/ |
26. | atherosclero$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
27. | Arteriosclero$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
28. | cardioprotect$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
29. | Coronary.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
30. | heart disease$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
31. | Myocardial infarct$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
32. | exp Cerebrovascular Accident/ | |
33. | stroke.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
34. | (Transient Ischemic Attack or TIA).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
35. | exp lipids/ | |
36. | lipid$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
37. | exp cholesterol/ | |
38. | cholesterol.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
39. | exp lipoproteins, LDL/ | |
40. | exp lipoproteins, HDL/ | |
41. | exp triglycerides/ | |
42. | triglycerides.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
43. | exp Hyperlipidemias/ | |
44. | hypertriglyceridem$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
45. | hyperlipidemia$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
46. | exp dyslipidemias/ | |
47. | dyslipidemia$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
48. | exp blood pressure/ | |
49. | blood pressure.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
50. | (diastol$ or systol$ or mean arterial).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
51. | exp hypertension/ | |
52. | hypertension.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
53. | exp Hemorrhage/ | |
54. | hemorrhag$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
55. | bleeding.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
56. | or/25-55 | |
n-3 & CVD | 57. | 24 and 56 |
Study designs | 58. | (random$ or rct$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] |
59. | exp randomized controlled trials/ | |
60. | exp randomized Controlled Trials as Topic/ | |
61. | exp random allocation/ | |
62. | exp double-blind method/ | |
63. | exp single-blind method/ | |
64. | randomized controlled trial.pt. | |
65. | clinical trial.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
66. | (clin$ adj trial$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
67. | ((singl$ or doubl$ or trebl$ or tripl$) adj (blind$ or mask$)).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
68. | exp placebos/ | |
69. | placebo$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
70. | randomly allocated.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
71. | (allocated adj2 random$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
72. | comparative study.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
73. | follow-up studies/ | |
74. | (follow up or followup).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
75. | exp case-control studies/ | |
76. | (case adj20 control).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
77. | exp longitudinal studies/ | |
78. | longitudinal.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
79. | exp cohort studies/ | |
80. | cohort.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
81. | exp prospective studies/ | |
82. | exp evaluation studies/ | |
83. | (observational adj (study or studies)).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
84. | Cross-Sectional studies/ | |
85. | (cross section$ or cross-section$).mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
86. | food frequency questionnaire$.mp. [mp=ti, ab, ot, nm, hw, kf, px, rx, ui, tx, kw, ct, sh, bt, id, cc] | |
87. | or/58-86 | |
n-3, CVD, Designs | 88. | 57 and 87 |
Not non-studies | 89. | limit 88 to (addresses or autobiography or bibliography or biography or case reports or comment or congresses or dictionary or directory or editorial or festschrift or government publications or historical article or interview or lectures or legal cases or legislation or letter or news or newspaper article or patient education handout or periodical index) |
90. | 88 not 89 | |
Limits | 91. | limit 90 to english language |
92. | limit 91 to humans | |
SRs, GLs | 93. | (guidelines or practice guideline or meta analysis or systematic review).pt. |
94. | (systematic$ adj3 review$).tw. | |
95. | 93 or 94 | |
96. | 57 and 95 | |
Non-SRs | 97. | limit 96 to yr="2002 - 2015" |
SRs | 98. | 92 not 96 |
99. | limit 98 to yr="2002 - 2015" |
Search # | Search |
---|---|
1. | exp fatty acids, omega-3/ |
2. | ((omega-3 or omega 3 or omega3) and fatty acid$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
3. | fatty acids, essential/ |
4. | linolenic acids/ |
5. | exp fish oils/ |
6. | ((n 3 or n3 or n-3) and (oil$ or pufa or fatty acid$ or omega 3)).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
7. | Docosahexaenoic acids/ |
8. | docosahexa?noic.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] or docosapenta?noic.mp. |
9. | Eicosapentaenoic acid/ |
10. | eicosapenta?noic.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
11. | icosapent?enoic.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
12. | (alpha linolenic or alphalinolenic or alpha-linolenic).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
13. | (linolenate or cervonic or timnodonic or stearidonic).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
14. | menhaden oil$.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
15. | ((flax or flaxseed or flax seed or linseed or Rape seed or Rapeseed or canola or soy or soybean or walnut or mustard seed or perilla or shiso) adj2 oil$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
16. | (walnut$ or butternut$ or soybean$ or pumpkin seed$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
17. | (fish adj2 oil$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
18. | (cod liver oil$ or codliver oil$ or marine oil$ or marine fat$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
19. | (salmon or mackerel or herring or tuna or halibut or seaweed or anchov$ or sardine$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
20. | (Ropufa or MaxEPA or omacor or efamed or ResQ or epagis or almarin or coromega or lovaza or Vascepa or icosapent ethyl).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
21. | (fish consumption or fish intake or (fish adj2 diet$)).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
22. | (mediterranean adj diet$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
23. | ((red blood cell or phospholipid or plasma fatty acid or plasma or phospholipid or triacylglycerol or cholesteryl or ester or adipos$ or fatty acid or erythrocyte or ghost or platelet or granulocyte or neutrophil or mononuclear or lDL or hDL) and (DHA or docosahexa?noic or docosapenta?noic or ePA or eicosapenta?noic or sDA or linolenic or stearidonic or omega)).mp. [mp=ti, ab, ot, nm, hw, kf, px, Rx, ui, tx, kw, ct, sh, bt, id, cc] |
24. | or/1-23 |
25. | (random$ or Rct$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
26. | exp Randomized controlled trials/ |
27. | exp Randomized controlled trials as topic/ |
28. | exp Random allocation/ |
29. | exp double-blind method/ |
30. | exp single-blind method/ |
31. | randomized controlled trial.pt. |
32. | clinical trial.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
33. | (clin$ adj trial$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
34. | ((singl$ or doubl$ or trebl$ or tripl$) adj (blind$ or mask$)).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
35. | exp placebos/ |
36. | placebo$.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
37. | randomly allocated.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
38. | (allocated adj2 Random$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
39. | comparative study.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
40. | follow-up studies/ |
41. | (follow up or followup).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
42. | exp case-control studies/ |
43. | (case adj20 control).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
44. | exp longitudinal studies/ |
45. | longitudinal.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
46. | exp cohort studies/ |
47. | cohort.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
48. | exp prospective studies/ |
49. | exp evaluation studies/ |
50. | (observational adj (study or studies)).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
51. | Cross-Sectional studies/ |
52. | (cross section$ or cross-section$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
53. | food frequency questionnaire$.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
54. | or/25-53 |
55. | 24 and 54 |
56. | exp heart failure/ |
57. | Heart failure$.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
58. | exp pulmonary edema/ |
59. | pulmonary edema.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
60. | pulmonary oedema.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
61. | (ejection adj2 fraction).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
62. | exp peripheral vascular diseases/ |
63. | (peripheral and vascular and disease$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
64. | claudication.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
65. | exp arrhythmias, cardiac/ |
66. | (arrhythmi$ or antiarrhythmi$).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
67. | Fibrillation.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
68. | Flutter.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
69. | exp tachycardia/ |
70. | tachycardia.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
71. | tachyarrhythmia.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
72. | exp bradycardia/ |
73. | bradycardia.mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
74. | exp death, sudden/ |
75. | (sudden adj death).mp. [mp=ti, ot, ab, nm, hw, kw, kf, px, Rx, ui, an, tx, sh, ct, bt, id, cc] |
76. | or/56-75 |
77. | 24 and 54 and 76 |
78. | limit 77 to (addresses or autobiography or bibliography or biography or case Reports or comment or congresses or dictionary or directory or editorial or festschrift or government publications or historical article or interview or lectures or legal cases or legislation or letter or news or newspaper article or patient education handout or periodical index) |
79. | 77 not 78 |
80. | limit 79 to english language |
81. | limit 80 to humans |
82. | (guidelines or practice guideline or meta analysis or systematic Review).pt. |
83. | (systematic$ adj3 Review$).tw. |
84. | 82 or 83 |
85. | 24 and 76 and 84 |
86. | 81 not 85 |
EMBASE searches run on 6/8/2015
Search 1
fatty AND acids, AND essential OR essential AND fatty AND ('acids'/exp OR acids) OR (n AND 3 OR n3 OR 'n 3' AND (oil* OR pufa OR fatty AND acid* OR omega AND 3 OR omega3 OR 'omega 3')) OR docosahexa*noic OR docosapenta*noic OR eicosapenta*noic OR icosapent*enoic OR (alpha AND linolenic OR alphalinolenic OR 'alpha linolenic' OR linolenic AND acids) OR (linoleic AND acid) OR cervonic OR timnodonic OR stearidonic OR (flaxseed OR flax AND seed OR linseed OR rape AND seed OR rapeseed OR canola OR soy OR soybean OR walnut OR mustard AND seed OR perilla OR shiso OR menhaden OR fish AND oil*) OR (walnut* OR butternut* OR soybean* OR pumpkin AND seed*) OR (cod AND liver AND oil* OR codliver AND oil* OR marine AND oil* OR marine AND fat*) OR salmon OR mackerel OR herring OR tuna OR halibut OR seaweed OR anchov* OR sardine* OR (ropufa OR maxepa OR omacor OR efamed OR resq OR epagis OR almarin OR coromega OR lovaza OR vascepa OR icosapent AND ethyl) OR (fish AND consumption OR fish AND intake) OR fish NEAR/2 diet* OR Mediterranean NEAR/2 diet* OR (red AND blood AND cell OR phospholipid OR plasma AND fatty AND acid OR plasma OR phospholipid OR triacylglycerol OR cholesteryl OR ester OR adipos* OR fatty AND acid OR erythrocyte OR ghost OR platelet OR granulocyte OR neutrophil OR mononuclear OR ldl OR hdl AND (dha OR docosahexa?noic OR docosapenta?noic OR epa OR eicosapenta?noic OR sda OR linolenic OR stearidonic OR omega))
AND ('cardiovascular disease' OR atherosclero* OR arteriosclero* OR cardioprotect* OR (coronary OR heart AND disease* OR myocardial AND infarct*) OR (cerebrovascular AND accident) OR stroke.mp OR (transient AND ischemic AND attack) OR tia OR lipid* OR cholesterol OR 'low density lipoprotein' OR 'high density lipoprotein' OR hyperlipidemia* OR hypertriglyceridem* OR dyslipidemia* OR (blood AND pressure) OR (diastol* OR systol* OR mean AND arterial) OR hypertension OR hemorrhag* OR 'bleeding')
AND (randomized AND controlled AND trial OR 'randomization' OR 'single blind procedure' OR 'double blind procedure' OR 'crossover procedure' OR 'placebo' OR rct OR (random* AND allocat*) OR (single AND blind*) OR (double AND blind*) OR (treble OR triple) NEAR/2 blind* OR (prospective AND study) OR 'clinical study' OR 'case control study' OR 'longitudinal study' OR 'retrospective study' OR 'prospective study' OR 'cohort analysis' OR cohort NEAR/2 (study OR studies) OR (case AND control NEAR/2 (study OR studies)) OR (follow AND up NEAR/2 (study OR studies)) OR observational NEAR/2 (study OR studies) OR (food AND frequency AND questionnaire*)) NOT ('abstract report' OR 'case study' OR 'case report') AND [humans]/lim AND [english]/lim AND [2000-2014]/py
Search 2
fatty AND acids, AND essential OR essential AND fatty AND ('acids'/exp OR acids) OR (n AND 3 OR n3 OR 'n 3' AND (oil* OR pufa OR fatty AND acid* OR omega AND 3 OR omega3 OR 'omega 3')) OR docosahexa*noic OR docosapenta*noic OR eicosapenta*noic OR icosapent*enoic OR (alpha AND linolenic OR alphalinolenic OR 'alpha linolenic' OR linolenic AND acids) OR (linoleic AND acid) OR cervonic OR timnodonic OR stearidonic OR (flaxseed OR flax AND seed OR linseed OR rape AND seed OR rapeseed OR canola OR soy OR soybean OR walnut OR mustard AND seed OR perilla OR shiso OR menhaden OR fish AND oil*) OR (walnut* OR butternut* OR soybean* OR pumpkin AND seed*) OR (cod AND liver AND oil* OR codliver AND oil* OR marine AND oil* OR marine AND fat*) OR salmon OR mackerel OR herring OR tuna OR halibut OR seaweed OR anchov* OR sardine* OR (ropufa OR maxepa OR omacor OR efamed OR resq OR epagis OR almarin OR coromega OR lovaza OR vascepa OR icosapent AND ethyl) OR (fish AND consumption OR fish AND intake) OR fish NEAR/2 diet* OR mediterranean NEAR/2 diet* OR (red AND blood AND cell OR phospholipid OR plasma AND fatty AND acid OR plasma OR phospholipid OR triacylglycerol OR cholesteryl OR ester OR adipos* OR fatty AND acid OR erythrocyte OR ghost OR platelet OR granulocyte OR neutrophil OR mononuclear OR ldl OR hdl AND (dha OR docosahexa?noic OR docosapenta?noic OR epa OR eicosapenta?noic OR sda OR linolenic OR stearidonic OR omega))
AND ('cardiovascular disease' OR atherosclero* OR arteriosclero* OR cardioprotect* OR (coronary OR heart AND disease* OR myocardial AND infarct*) OR (cerebrovascular AND accident) OR stroke.mp OR (transient AND ischemic AND attack) OR tia OR lipid* OR cholesterol OR 'low density lipoprotein' OR 'high density lipoprotein' OR hyperlipidemia* OR hypertriglyceridem* OR dyslipidemia* OR (blood AND pressure) OR (diastol* OR systol* OR mean AND arterial) OR hypertension OR hemorrhag* OR 'bleeding')
AND (randomized AND controlled AND trial OR 'randomization' OR 'single blind procedure' OR 'double blind procedure' OR 'crossover procedure' OR 'placebo' OR rct OR (random* AND allocat*) OR (single AND blind*) OR (double AND blind*) OR (treble OR triple) NEAR/2 blind* OR (prospective AND study) OR 'clinical study' OR 'case control study' OR 'longitudinal study' OR 'retrospective study' OR 'prospective study' OR 'cohort analysis' OR cohort NEAR/2 (study OR studies) OR (case AND control NEAR/2 (study OR studies)) OR (follow AND up NEAR/2 (study OR studies)) OR observational NEAR/2 (study OR studies) OR (food AND frequency AND questionnaire*)) NOT ('abstract report' OR 'case study' OR 'case report') AND [humans]/lim AND [english]/lim
Appendix B. Inclusion criteria: Effects of omega-3 fatty acids on cardiovascular disease
PICOD | Inclusion Criteria |
---|---|
* Omega 3 intake:
|
|
P |
|
I/C |
|
O |
|
D |
|
Appendix C. Risk of Bias criteria from the Original Report
Dimension | Instructions |
---|---|
Was the allocation sequence (RANDOMIZATION METHOD) adequately generated? | There is a LOW RISK OF BIAS if the investigators describe a random component in the sequence generation process such as: referring to a random number table, using a computer random number generator, coin tossing, shuffling cards or envelopes, throwing dice, drawing of lots. There is a HIGH RISK OF BIAS if the investigators describe a non-random component in the sequence generation process, such as: sequence generated by odd or even date of birth, date (or day) of admission, hospital or clinic record number; or allocation by judgement of the clinician, preference of the participant, results of a laboratory test or a series of tests, or availability of the intervention. IF HIGH RISK OF BIAS, EXPLAIN IN NOTES. |
Was ALLOCATION adequately concealed (prior to assignment)? | There is a LOW RISK OF BIAS if the participants and investigators enrolling participants could not foresee assignment because one of the following, or an equivalent method, was used to conceal allocation: central allocation (including telephone, web-based and pharmacy-controlled randomization); sequentially numbered drug containers of identical appearance; or sequentially numbered, opaque, sealed envelopes. There is a HIGH RISK OF BIAS if participants or investigators enrolling participants could possibly foresee assignments and thus introduce selection bias, such as allocation based on: using an open random allocation schedule (e.g. a list of random numbers); assignment envelopes were used without appropriate safeguards (e.g. if envelopes were unsealed or non-opaque or not sequentially numbered); alternation or rotation; date of birth; case record number; or other explicitly unconcealed procedures. IF HIGH RISK OF BIAS, EXPLAIN IN NOTES. |
Were PARTICIPANTS adequately BLINDED? | There is a LOW RISK OF BIAS if blinding of participants was ensured and it was unlikely that the blinding could have been broken; or if there was no blinding or incomplete blinding, but the review authors judge that the outcome is not likely to be influenced by lack of blinding. |
Were OUTCOME ASSESSORS adequately BLINDED? | There is LOW RISK OF BIAS if the blinding of the outcome assessment was ensured and it was unlikely that the blinding could have been broken; or if there was no or incomplete blinding, but the outcome is unlikely to be influenced by lack of blinding (ie, lab tests--lipids--inherently low risk of bias, but not blood pressure). |
If outcome assessor blinding risk of bias is different for different outcomes (eg, lipids vs. MI), choose HIGH risk of bias and describe in Notes | |
Incomplete outcome data (ATTRITION BIAS) due to amount, nature or handling of incomplete outcome data | There is a LOW RISK OF BIAS if there were no missing outcome data; reasons for missing outcome data were unlikely to be related to the true outcome; missing outcome data were balanced in numbers, with similar reasons for missing data across groups (****The percentage of withdrawals and drop-outs should not exceed 20% for short-term follow-up [<=1 year] and 30% for long-term follow-up [>1 year]****). IF HIGH RISK OF BIAS, EXPLAIN IN NOTES. |
If attrition risk of bias is different for different outcomes (eg, lipids vs. MI) or different time points (eg, 1 year vs. 5 years), choose HIGH risk of bias and describe in Notes | |
Is there evidence of SELECTIVE OUTCOME REPORTING bias (Yes/No)? | For LIPIDS, are only selected lipids/lipoproteins reported, were lipids measured at baseline and was a blood sample taken at follow-up but follow-up lipids were not reported, were subgroup lipid outcomes omitted? For BLOOD PRESSURE, was BP measured at baseline and was there a follow-up clinical encounter (where follow-up BP would have been measured), but BP is not reported, were subgroup BP outcomes omitted? For CLINICAL OUTCOMES, are all outcomes in the Methods section (all pre-specified outcomes) reported, were all components of composite outcomes reported? dESCRIBE ISSUES IN NOTES. |
INTENTION-TO-TREAT analysis? (Yes/No) | YES if they state ITT and methods used were actually ITT, or **all** participants were analyzed in the group to which they were allocated by randomization (no cross-over). IF NO ITT, EXPLAIN IN NOTES. |
Group SIMILARITY AT BASELINE (**GENERAL**) | There is LOW RISK OF BIAS if groups are similar at baseline for demographic and other factors ("Table 1"). Also LOW risk of bias if any baseline differences were adjusted for in all relevant analyses. IF HIGH RISK OF BIAS, EXPLAIN IN NOTES. |
Group SIMILARITY AT BASELINE (**OMEGA-3**) | There is LOW RISK OF BIAS if groups were similar (or statistical adjustments were made to account for differences) in omega-3 intake or status (biomarkers) at baseline. There is HIGH RISK OF BIAS if groups had different omega-3 intake/status at baseline that was not accounted for. there is UNCLEAR RISK OF BIAS if baseline omega-3 status was not reported. |
Was there incomplete COMPLIANCE with interventions across groups? | There is LOW RISK OF BIAS if compliance with the interventions was acceptable (>=80% across intervention duration), based on the reported actual compliance compared to protocol or increased biomarker levels were reported during or at the end of the intervention. There is HIGH RISK OF BIAS if compliance was low (<80%) or no change in biomarker levels were found during or at the end of the intervention. There is UNCLEAR RISK OF BIAS if these data were not reported. |
Additional Bias: Bias due to problems not covered elsewhere in the table. | IF YES, EXPLAIN IN NOTES. |
Dimension | Instructions |
---|---|
Selection bias (NOT NESTED CASE CONTROL): Is there clear demonstration that the outcome of interest was not present at the start of the study (baseline)? | If the answer is no, the study will need to be reassessed for eligibility. |
Comparability/Adjustment (ALL OBSERVATIONAL STUDIES): Were the analyses adjusted for confounders (or other factors)? | If YES, add to the Notes one of the following: ** Including diet and CVD risk factors (eg, lipids, BP, DM) ** Including diet but not CVD risk factors ** Including CVD risk factors, but not diet ** Neither diet nor CVD risk factors ** If UNCLEAR, answer No. |
Outcome assessment (ALL STUDIES): Were OUTCOME ASSESSORS adequately BLINDED? | There is LOW RISK OF BIAS if the blinding of the outcome assessment was ensured and it was unlikely that the blinding could have been broken (independent blind assessment or record linkage). UNCLEAR RISK OF BIAS if not or poorly reported. HIGH RISK OF BIAS if self-report or other unblinded assessment. IF HIGH RISK OF BIAS, EXPLAIN IN NOTES. |
Incomplete outcome data (attrition bias) due to amount, nature or handling of incomplete outcome data (ALL STUDIES) | There is a LOW RISK OF BIAS if there were no missing outcome data; reasons for missing outcome data were unlikely to be related to the true outcome; missing outcome data were balanced in numbers, with similar reasons for missing data across groups (****The percentage of withdrawals and drop-outs should not exceed 20% for short-term follow-up (1 year) and 30% for long-term follow-up (>1 year)****). IF HIGH RISK OF BIAS, EXPLAIN IN NOTES. |
Nutrition, FFQ Baseline intake: Was the dietary assessment instrument (eg, FFQ) described to have measured n-3 FA (ALL STUDIES WITH FFQ)? | If YES, answer Yes and add to the Notes one of the following: ** Measured n-3 FA from BOTH diet and supplements ** Measured n-3 FA from ONLY diet or ONLY supplements ** If NO (or UNCLEAR), answer No and add to the Notes one of the following: ** Instrument reported but no adequate description regarding n-3 FA intake measurement ** No data on instrument or method used to measure n-3 FA intake |
Nutrition, Baseline data: Were the ranges or distributions of the nutrient exposures adequately reported (ie, quantile means/medians SD and/or ranges) (ALL OBSERVATIONAL STUDIES)? | If analyzed in quantiles, we need the quantile thresholds AND the mean or median within each quantile. If analyzed as a continuous variable, we need overall mean or median and SD (or equivalent) or range. |
Additional Bias: Bias due to problems not covered elsewhere in the table. | IF YES, EXPLAIN IN NOTES. |
Do any specific outcomes have a high risk of bias (different than others)? If so, describe in Notes. |