Optimally estimating the sample mean from the sample size, median, mid-range, and/or mid-quartile range

The era of big data is coming, and evidence-based medicine is attracting increasing attention to improve decision making in medical practice via integrating evidence from well designed and conducted clinical research. Meta-analysis is a statistical technique widely used in evidence-based medicine fo...

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Bibliographic Details
Published in:Statistical methods in medical research 2018-06, Vol.27 (6), p.1785-1805
Main Authors: Luo, Dehui, Wan, Xiang, Liu, Jiming, Tong, Tiejun
Format: Article
Language:English
Subjects:
Algorithms
Clinical research
Clinical trials
Data management
Decision making
Deviation
Empirical analysis
Estimators
Evidence based research
Evidence-Based Medicine
Health services
Heuristic
Median (statistics)
Medical research
Medicine
Meta-analysis
Meta-Analysis as Topic
Morality
Optimization
Quartiles
Sample Size
Sampling Studies
Simplicity
Standard deviation
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Summary:The era of big data is coming, and evidence-based medicine is attracting increasing attention to improve decision making in medical practice via integrating evidence from well designed and conducted clinical research. Meta-analysis is a statistical technique widely used in evidence-based medicine for analytically combining the findings from independent clinical trials to provide an overall estimation of a treatment effectiveness. The sample mean and standard deviation are two commonly used statistics in meta-analysis but some trials use the median, the minimum and maximum values, or sometimes the first and third quartiles to report the results. Thus, to pool results in a consistent format, researchers need to transform those information back to the sample mean and standard deviation. In this article, we investigate the optimal estimation of the sample mean for meta-analysis from both theoretical and empirical perspectives. A major drawback in the literature is that the sample size, needless to say its importance, is either ignored or used in a stepwise but somewhat arbitrary manner, e.g. the famous method proposed by Hozo et al. We solve this issue by incorporating the sample size in a smoothly changing weight in the estimators to reach the optimal estimation. Our proposed estimators not only improve the existing ones significantly but also share the same virtue of the simplicity. The real data application indicates that our proposed estimators are capable to serve as “rules of thumb” and will be widely applied in evidence-based medicine.
ISSN:0962-2802
1477-0334
1477-0334
DOI:10.1177/0962280216669183