1 / 28

Meta-Analysis: An Introduction

Meta-Analysis: An Introduction. George A. Kelley, DA, FACSM School of Medicine, Dept. of Community Medicine, West Virginia University, Morgantown, WV Bio Funding Publications. Interest and Excitement for Meta-Analysis. Proliferation of information on health-related disease

richardbthomas
Download Presentation

Meta-Analysis: An Introduction

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Meta-Analysis: An Introduction George A. Kelley, DA, FACSMSchool of Medicine, Dept. of Community Medicine, West Virginia University, Morgantown, WV BioFundingPublications

  2. Interest and Excitement for Meta-Analysis • Proliferation of information on health-related disease • Need to try and “make sense out of nonsense” • Enjoyment for combining and analyzing data

  3. Learning Objectives • Identify what meta-analysis is • Identify the advantages and different types of meta-analyses • Identify the steps for conducting a meta-analysis of summary data

  4. Performance Objectives • Define meta-analysis • List and describe the advantages and types of meta-analyses • List and describe the steps necessary for conducting a meta-analysis of summary data

  5. Major Topics Covered • Overview of Meta-Analysis • Steps for Conducting A Meta-Analysis

  6. I. Overview of Meta-Analysis Meta-Analysis Defined Advantages of Meta-Analysis Types of Meta-Analyses

  7. Meta-Analysis – Combining the results from many studies dealing with the same topic.

  8. B. Advantages of Meta-Analysis • Study question specific & narrow • Data collection comprehensive & specific • Study selection based on uniformly applied criteria • Data synthesis quantitative

  9. C. Types of Meta-Analyses 1. Summary Data 2. Individual Patient Data

  10. II. Steps for Conducting A Meta-Analysis • Data Sources • Study Selection • Data Abstraction • Statistical Analysis

  11. A. Data Sources • Computer searches • Cross-referencing • Hand-searching • Expert(s) to review list

  12. Data Sources-Example - Computer searches (Medline, Embase, Sport Discus, Current Contents, Dissertation Abstracts) - Cross-referencing from review and original articles - Experts to review list (Drs. James Hagberg & Doug Seals)

  13. B. Study Selection • Study designs • Subjects • Publication types • Languages • Interventions • Time Frame

  14. Study Selection-Example - RCTs or CTs with a nonexercise control group - Progressive resistance training as the only mode of training - Females > 18 years of age - Journal articles, dissertations, & masters theses published in English

  15. Study Selection (cont.) • Studies published & indexed between January 1966 and December 1998 • Bone mineral density assessed at femur, spine, and/or radius • Training studies > 16 weeks

  16. C. Data Abstraction • Number of items coded • Inter-coder bias • Items coded

  17. Data Abstraction – Example • 242 possible items coded • Data independently abstracted by first two authors • Every data point reviewed for accuracy and consistency • Major characteristics coded – study, physical, exercise, primary & secondary outcomes

  18. D. Statistical Analysis • Choice of metric • Choice of model/ heterogeneity • Publication bias • Study quality • Moderator analysis

  19. 1. Choice of Metric • Original • Standardized mean difference (Mean/Standard Deviation)

  20. 2. Choice of Model/ Heterogeneity • Fixed Effects • Random Effects

  21. Metric, Model, & Heterogeneity - Example

  22. 3. Publication Bias • Graphical methods • Quantitative methods

  23. Funnel Plot - Example r = 0.50, p = 0.007 Sample Size Systolic ES (mmHg)

  24. 4. Study Quality • Difficult to assess • Interpret with caution • Numerous scales and checklists available

  25. 5. Moderator Analysis • Categorical Analysis • Regression Analysis

  26. Categorical Analysis- Example

  27. Regression - Example

  28. THANKS FOR VIEWING

More Related