1 / 25

Teaching Critical Evaluation of Biomedical Information in the Digital Age

Teaching Critical Evaluation of Biomedical Information in the Digital Age. Joseph Dasso, MD, PhD joseph.dasso@hccs.edu. Teaching Critical Evaluation of Biomedical Information in the Digital Age. What is critical thinking & why teach it explicitly Evaluating information on the web

harlan
Download Presentation

Teaching Critical Evaluation of Biomedical Information in the Digital Age

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. Teaching Critical Evaluation of Biomedical Information in the Digital Age Joseph Dasso, MD, PhD joseph.dasso@hccs.edu

  2. Teaching Critical Evaluation of Biomedical Information in the Digital Age • What is critical thinking & why teach it explicitly • Evaluating information on the web • Types of research studies & levels of evidence • Using biomedical information databases • Engaging assignments for critical thinking skills • Critiquing a research paper • Investigating contrasting sides of biomedical issues • Evaluating consumer products or services • Teaching and learning resources at HCCS for writing assignments

  3. What is Critical Thinking? • “reasonable, reflective thinking that is focused on deciding what to believe or do” Robert Ennis • “skillful, responsible thinking that is conducive to good judgment because it is sensitive to context, relies on criteria, and is self-correcting” Matthew Lipman • “thinking about your thinking, while you’re thinking, in order to make your thinking better” Richard Paul Nosich, Gerald. 2012. Learning to Think Things Through. Boston: Pearson. p. 2.

  4. Answering the critics of critical thinking education • “Students must master lower cognitive skills before they can apply higher thinking skills.” • “Student learn critical thinking in the conventional science course curriculum so there is no advantage in teaching it explicitly.” • “Teaching for critical thinking deprives students of the factual specifics students must learn to be competent in science.” • “I do not have time to teach and evaluate critical thinking skills in my course.” (See articles with counter evidence and arguments in slide notes)

  5. Web Sites on Evaluating Web Information • HCCS library http://library.hccs.edu/ (Internet tab/ evaluating web information) • Library of Congress http://www.loc.gov/rr/business/beonline/selectbib.html • John Hopkins U Sheridans Library http://guides.library.jhu.edu/content.php?pid=198142&sid=1665954 • U of British Columbia http://help.library.ubc.ca/evaluating-and-citing-sources/evaluating-information-sources • Justia Law Firm http://virtualchase.justia.com/how-evaluate-information-checklist • HCCS library http://library.hccs.edu/ (Internet tab/ evaluating web information) • Library of Congress http://www.loc.gov/rr/business/beonline/selectbib.html • John Hopkins U Sheridans Library http://guides.library.jhu.edu/content.php?pid=198142&sid=1665954 • U of British Columbia http://help.library.ubc.ca/evaluating-and-citing-sources/evaluating-information-sources • Justia Law Firm http://virtualchase.justia.com/how-evaluate-information-checklist

  6. Reading and decoding the web address • What to look for in a URL • Do you recognize the domain name? • e.g. hccs.edu • What is the extension in the domain name? • e.g. .edu, .com, .org, .gov, .net, .mil • Is it an web site from a foreign country? • URL country code extensions, e.g. au = Australia • Are you on a personal page? • Is there a name? • Is there a tilde (~) or percent sign (%)? • Are words, user, people, or members, present?

  7. November, Alan. 2008. Web Literacy for Educators. Thousand Oaks, CA: Corwin Press, p. 32

  8. Identify and evaluate the web site source (publisher) • www.betterwhois.com searches all domain registrars unlike whois.com • Beware of anonymous sources via private registrations e.g. via Domains by Proxy • www.archive.org an nonprofit Internet Archive (Wayback Machine) that accesses the history of web sites • www.altavista.com (or other search engine) search the name of the organization in quotation marks

  9. Identify and evaluate the author(s) • Determine if web authorship is indicated • Look for spelling and grammatical errors • Read the author biography if present • Examine the author’s credentials and professional associations • Search the author’s name with quotation marks • Search for author’s publications and/or patents (www.uspto.gov/patents/index.jsp) • Check the links to and form other web sites

  10. Determine the date of publication • Notice creation and revision dates • Find last updated date • Be aware of scripting creating current date • Do not rely on dates provided by search engines • Avoid undated information

  11. Determine level of objectivity • Is the author trying to persuade? • Does advertizing influence the content? • Is there inflammatory or provocative language? • Is there over generalization? • Are alternative viewpoints presented fairly

  12. Verify & evaluate what the information claims • Use primary sources when possible • Secondary sources should provide references • Look for cited sources, especially peer-reviewed • Evaluate the quality of information • Relevance • Timeliness • Scope and depth of coverage • Accuracy • Balance

  13. Public Databases and Search Engines Appropriate for Biomedical Information • General Databases and Meta-Search Engines • Wikipedia (www.wikipedia.com) • Web Crawler (www.webcrawler.com) • Dogpile (www.dogpile.com) • Scholarly Databases & Search Engines • PubMed (www.pubmed.gov) and PubMed Central (www.pubmedcentral.gov) • Cochrane Library (www.thecochranelibrary.com) • CINAHL (Cumulative Index to Nursing and Allied Health) (www.ebscohost.com/biomedical-libraries/the-cinahl-database) and CINAHL Plus (www.cinahl.com) • Google Scholar (www.scholar.google.com)

  14. HCCS Library Databases • Health and Medicine • Medline • Health Reference Center Academic • Natural and Alternative Treatments • Multi-Subject Recommended for Health & Medicine • General Reference Gold • Academic One File Note: TexShare Cards facilitate use of other local academic libraries

  15. Pub Med • Developed by the National Library of Medicine • Biomedical journal articles date back to 1946 • Has 22 million records • Know how to search by topic, author or journal • Use filters, MeSH terms and combinations of terms to refine search further

  16. Cochrane Library • Important resources for evidence-based medicine • Generated by independent nonprofit organization • Named after Archibald Cochrane (1909–1988) a Scottish epidemiologist pioneer of EBM • Contains quality meta-analyses, systematic reviews and clinical trial publications • Abstracts and plain English summaries of systematic reviews are free • Full article access requires subscription in US except in state of Wyoming

  17. Types of Study in Medical Research: Part 3 of a Series on Evaluation of Scientific Publications Bernd Röhrig, Jean-Baptist du Prel, Daniel Wachtlin, Maria Blettner Dtsch Arztebl Int. 2009 April; 106(15): 262–268. Published online 2009 April 10. doi: 10.3238/arztebl.2009.0262

  18. Prospective Study Retrospective Study Bernd Röhrig et al. Dtsch Arztebl Int. 2009 April; 106(15): 262–268

  19. Levels of evidence • Level 1. Interventional randomized controlled trials • Level 2. Interventional non-randomized controlled trials • Level 3. Observational studies with controls • Level 4. Observational studies without controls Determined by US Dept. of Health & Human Services

  20. Critiquing an original research article • Is the study relevant to topic? • Is it from a peer-reviewed or scholarly source? • Is it a primary or secondary research article? • Where was the study conducted? • Who funded the study? • Was there a conflict of interest? • Were statistical analyses performed? • What is the study design? • What did the study conclude? • Do the study’s results support the conclusions? (See slide notes for reference with more suggestions on critiquing a research article)

  21. Controversial issues in the biomedical sciences • Evolution • Embryonic stem cell research and cloning • Global warming • Genetically-modified foods • Animal rights and suffering • Genetic basis of homosexual orientation • Population growth and control • Environmental preservation and management • Weight loss diets

  22. Investigating contrasting sides of biomedical issues • Critique two articles on the same topic with contrasting views • Discuss controversial issues as a class or in small groups • Debate both sides of a controversial issue or make a podcast or narrated PowerPoint presentation evaluating opposing views • Write a research paper evaluating the arguments of opposing views

  23. Evaluating consumer products or services • Have students choose products or services relevant to the subject matter • Choose products or services that are not well established empirically • Choose products or services that are advertised on the web • Verify the claims • Scholarly sources • Consumer reviews • Report findings and conclusions

  24. Teaching & Learning Resources at HCCS for Writing Assignments • Tutor Centers • Free online tutoring for all HCC students www.hccs.askonline.net • Service to check for plagiarism for HCCS instructors www.turnitin.com originality check

  25. Teaching Critical Evaluation of Biomedical Information in the Digital Age Joseph Dasso, MD, PhD joseph.dasso@hccs.edu

More Related