Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

At a glance: The STEP trials

A round-up of the STEP phase 3 clinical trials evaluating semaglutide for weight loss in people with overweight or obesity.
ADVANCED SEARCH
Log in
Top
BMC Medicine
Published in: BMC Medicine 1/2017

Open Access 01-12-2017 | Research article

Are potentially clinically meaningful benefits misinterpreted in cardiovascular randomized trials? A systematic examination of statistical significance, clinical significance, and authors’ conclusions

Authors: G. Michael Allan, Caitlin R. Finley, James McCormack, Vivek Kumar, Simon Kwong, Emelie Braschi, Christina Korownyk, Michael R. Kolber, Adriennne J. Lindblad, Oksana Babenko, Scott Garrison

Published in: BMC Medicine | Issue 1/2017

Login to get access

Abstract

Background

While journals and reporting guidelines recommend the presentation of confidence intervals, many authors adhere strictly to statistically significant testing. Our objective was to determine what proportions of not statistically significant (NSS) cardiovascular trials include potentially clinically meaningful effects in primary outcomes and if these are associated with authors’ conclusions.

Methods

Cardiovascular studies published in six high-impact journals between 1 January 2010 and 31 December 2014 were identified via PubMed. Two independent reviewers selected trials with major adverse cardiovascular events (stroke, myocardial infarction, or cardiovascular death) as primary outcomes and extracted data on trial characteristics, quality, and primary outcome. Potentially clinically meaningful effects were defined broadly as a relative risk point estimate ≤0.94 (based on the effects of ezetimibe) and/or a lower confidence interval ≤0.75 (based on the effects of statins).

Results

We identified 127 randomized trial comparisons from 3200 articles. The primary outcomes were statistically significant (SS) favoring treatment in 21% (27/127), NSS in 72% (92/127), and SS favoring control in 6% (8/127). In 61% of NSS trials (56/92), the point estimate and/or lower confidence interval included potentially meaningful effects. Both point estimate and confidence interval included potentially meaningful effects in 67% of trials (12/18) in which authors’ concluded that treatment was superior, in 28% (16/58) with a neutral conclusion, and in 6% (1/16) in which authors’ concluded that control was superior. In a sensitivity analysis, 26% of NSS trials would include potential meaningful effects with relative risk thresholds of point estimate ≤0.85 and/or a lower confidence interval ≤0.65.

Conclusions

Point estimates and/or confidence intervals included potentially clinically meaningful effects in up to 61% of NSS cardiovascular trials. Authors’ conclusions often reflect potentially meaningful results of NSS cardiovascular trials. Given the frequency of potentially clinical meaningful effects in NSS trials, authors should be encouraged to continue to look beyond significance testing to a broader interpretation of trial results.
Appendix
Available only for authorised users
Literature
1.
Moher D, Hopewell S, Schulz KF, Montori V, Gøtzsche PC, Devereaux PJ, Elbourne D, Egger M, Altman DG. CONSORT 2010 explanation and elaboration: updated guidelines for reporting parallel group randomised trials. BMJ. 2010;340:c869. doi:10.​1136/​bmj.​c869.CrossRefPubMedPubMedCentral
2.
3.
Gardner MJ, Altman DG. Confidence intervals rather than P values: estimation rather than hypothesis testing. Br Med J (Clin Res Ed). 1986;292:746–50.CrossRef
4.
Cummings P, Koepsell TD. P values vs estimates of association with confidence intervals. Arch Pediatr Adolesc Med. 2010;164:193–6.PubMed
5.
Chavalarias D, Wallach JD, Li AHT, Ioannidis JPA. Evolution of reporting P values in the biomedical literature, 1990-2015. JAMA. 2016;315:1141–8.CrossRefPubMed
6.
7.
Boutron I, Dutton S, Ravaud P, Altman DG. Reporting and interpretation of randomized controlled trials with statistically nonsignificant results for primary outcomes. JAMA. 2010;303(20):2058–64.CrossRefPubMed
8.
Lockyer S, Hodgson R, Dumville JC, Cullum N. “Spin” in wound care research: the reporting and interpretation of randomized controlled trials with statistically non-significant primary outcome results or unspecified primary outcomes. Trials. 2013;14:371.CrossRefPubMedPubMedCentral
9.
Patel SV, Van Koughnett JA, Howe B, Wexner SD. spin is common in studies assessing robotic colorectal surgery: an assessment of reporting and interpretation of study results. Dis Colon Rectum. 2015;58(9):878–84.CrossRefPubMed
10.
Patel SV, Chadi SA, Choi J, Colquhoun PH. The use of “spin” in laparoscopic lower GI surgical trials with nonsignificant results: an assessment of reporting and interpretation of the primary outcomes. Dis Colon Rectum. 2013;56(12):1388–94.CrossRefPubMed
11.
12.
Als-Nielsen B, Chen W, Gluud C, Kjaergard LL. Association of funding and conclusions in randomized drug trials: a reflection of treatment effect or adverse events? JAMA. 2003;290(7):921–8.CrossRefPubMed
13.
Moher D, Dulberg CS, Wells GA. Statistical power, sample size, and their reporting in randomized controlled trials. JAMA. 1994;272(2):122–4.CrossRefPubMed
14.
Cannon CP, Blazing MA, Giugliano RP, McCagg A, White JA, Theroux P, Darius H, Lewis BS, Ophuis TO, Jukema JW, De Ferrari GM, Ruzyllo W, De Lucca P, Im K, Bohula EA, Reist C, Wiviott SD, Tershakovec AM, Musliner TA, Braunwald E, Califf RM, IMPROVE-IT Investigators. ezetimibe added to statin therapy after acute coronary syndromes. N Engl J Med. 2015;372(25):2387–97.CrossRefPubMed
15.
Zinman B, Wanner C, Lachin JM, Fitchett D, Bluhmki E, Hantel S, Mattheus M, Devins T, Johansen OE, Woerle HJ, Broedl UC, Inzucchi SE, EMPA-REG OUTCOME Investigators. Empagliflozin, cardiovascular outcomes, and mortality in type 2 diabetes. N Engl J Med. 2015;373(22):2117–28.CrossRefPubMed
16.
Jarcho JA, Keaney Jr JF. Proof that lower is better--LDL cholesterol and IMPROVE-IT. N Engl J Med. 2015;372:2448–50.CrossRefPubMed
17.
Grant PJ. Empagliflozin in diabetes: a therapeutic light at the end of the cardiovascular tunnel? Diab Vasc Dis Res. 2015;12(6):394–5.CrossRefPubMed
18.
Taylor F, Huffman MD, Macedo AF, Moore TH, Burke M, Davey Smith G, Ward K, Ebrahim S. Statins for the primary prevention of cardiovascular disease. Cochrane Database Syst Rev. 2013;1, CD004816.
19.
Metadata
Title
Are potentially clinically meaningful benefits misinterpreted in cardiovascular randomized trials? A systematic examination of statistical significance, clinical significance, and authors’ conclusions
Authors
G. Michael Allan
Caitlin R. Finley
James McCormack
Vivek Kumar
Simon Kwong
Emelie Braschi
Christina Korownyk
Michael R. Kolber
Adriennne J. Lindblad
Oksana Babenko
Scott Garrison
Publication date
01-12-2017
Publisher
BioMed Central
Published in
BMC Medicine / Issue 1/2017
Electronic ISSN: 1741-7015
DOI
https://doi.org/10.1186/s12916-017-0821-9

Other articles of this Issue 1/2017

BMC Medicine 1/2017 Go to the issue

Research article

A realist review of mobile phone-based health interventions for non-communicable disease management in sub-Saharan Africa

Commentary

Rapidly increasing end-of-life care needs: a timely warning

Research article

Telomere tracking from birth to adulthood and residential traffic exposure

Commentary

News from the melanoma sessions of the European Cancer Congress 2017

Research article

An exploration of mortality risk factors in non-severe pneumonia in children using clinical data from Kenya

Review

The role of tumour heterogeneity and clonal cooperativity in metastasis, immune evasion and clinical outcome