“Evidence-based medicine”的意思、由来-开放百科全书

Evidence-based medicine (EBM) is an approach to medical practice intended to optimize decision-making by emphasizing the use of evidence from well-designed and well-conducted research. Although all medicine based on science has some degree of empirical support, EBM goes further, classifying evidence by its epistemologic strength and requiring that only the strongest types (coming from meta-analyses, systematic reviews, and randomized controlled trials) can yield strong recommendations; weaker types (such as from case-control studies) can yield only weak recommendations. The term was originally used to describe an approach to teaching the practice of medicine and improving decisions by individual physicians about individual patients.^[1] Use of the term rapidly expanded to include a previously described approach that emphasized the use of evidence in the design of guidelines and policies that apply to groups of patients and populations ("evidence-based practice policies").^[2] It has subsequently spread to describe an approach to decision-making that is used at virtually every level of health care as well as other fields (evidence-based practice).

Whether applied to medical education, decisions about individuals, guidelines and policies applied to populations, or administration of health services in general, evidence-based medicine advocates that to the greatest extent possible, decisions and policies should be based on evidence, not just the beliefs of practitioners, experts, or administrators. It thus tries to assure that a clinician's opinion, which may be limited by knowledge gaps or biases, is supplemented with all available knowledge from the scientific literature so that best practice can be determined and applied. It promotes the use of formal, explicit methods to analyze evidence and makes it available to decision makers. It promotes programs to teach the methods to medical students, practitioners, and policy makers.

Background, history and definition

In its broadest form, evidence-based medicine is the application of the scientific method into healthcare decision-making. Medicine has a long tradition of both basic and clinical research that dates back at least to Avicenna.^[3]^[4] An early critique of statistical methods in medicine was published in 1835.^[5]

However, until recently, the process by which research results were incorporated in medical decisions was highly subjective.{{citation needed|date=June 2017}} Called "clinical judgment" and "the art of medicine", the traditional approach to making decisions about individual patients depended on having each individual physician determine what research evidence, if any, to consider, and how to merge that evidence with personal beliefs and other factors.{{citation needed|date=June 2017}} In the case of decisions which applied to groups of patients or populations, the guidelines and policies would usually be developed by committees of experts, but there was no formal process for determining the extent to which research evidence should be considered or how it should be merged with the beliefs of the committee members.{{citation needed|date=June 2017}} There was an implicit assumption that decision makers and policy makers would incorporate evidence in their thinking appropriately, based on their education, experience, and ongoing study of the applicable literature.{{citation needed|date=June 2017}}

Clinical decision making

Beginning in the late 1960s, several flaws became apparent in the traditional approach to medical decision-making. Alvan Feinstein's publication of Clinical Judgment in 1967 focused attention on the role of clinical reasoning and identified biases that can affect it.^[6] In 1972, Archie Cochrane published Effectiveness and Efficiency, which described the lack of controlled trials supporting many practices that had previously been assumed to be effective.^[7] In 1973, John Wennberg began to document wide variations in how physicians practiced.^[8] Through the 1980s, David M. Eddy described errors in clinical reasoning and gaps in evidence.^[9]^[10]^[11]^[12] In the mid 1980s, Alvin Feinstein, David Sackett and others published textbooks on clinical epidemiology, which translated epidemiological methods to physician decision making.^[13]^[14] Toward the end of the 1980s, a group at RAND showed that large proportions of procedures performed by physicians were considered inappropriate even by the standards of their own experts.^[15] These areas of research increased awareness of the weaknesses in medical decision making at the level of both individual patients and populations, and paved the way for the introduction of evidence-based methods.

Evidence-based

The term "evidence-based medicine", as it is currently used, has two main tributaries. Chronologically, the first is the insistence on explicit evaluation of evidence of effectiveness when issuing clinical practice guidelines and other population-level policies. The second is the introduction of epidemiological methods into medical education and individual patient-level decision-making.{{citation needed|date=June 2017}}

Evidence-based guidelines and policies

The term "evidence-based" was first used by David M. Eddy in the course of his work on population-level policies such as clinical practice guidelines and insurance coverage of new technologies. He first began to use the term "evidence-based" in 1987 in workshops and a manual commissioned by the Council of Medical Specialty Societies to teach formal methods for designing clinical practice guidelines. The manual was widely available in unpublished form in the late 1980s and eventually published by the American College of Medicine.^[16]^[17] Eddy first published the term "evidence-based" in March, 1990 in an article in the Journal of the American Medical Association that laid out the principles of evidence-based guidelines and population-level policies, which Eddy described as "explicitly describing the available evidence that pertains to a policy and tying the policy to evidence. Consciously anchoring a policy, not to current practices or the beliefs of experts, but to experimental evidence. The policy must be consistent with and supported by evidence. The pertinent evidence must be identified, described, and analyzed. The policymakers must determine whether the policy is justified by the evidence. A rationale must be written."^[18] He discussed "evidence-based" policies in several other papers published in JAMA in the spring of 1990.^[18]^[19] Those papers were part of a series of 28 published in JAMA between 1990 and 1997 on formal methods for designing population-level guidelines and policies.^[20]

Medical education

The term "evidence-based medicine" was introduced slightly later, in the context of medical education. This branch of evidence-based medicine has its roots in clinical epidemiology. In the autumn of 1990, Gordon Guyatt used it in an unpublished description of a program at McMaster University for prospective or new medical students.^[21] Guyatt and others first published the term two years later (1992) to describe a new approach to teaching the practice of medicine.^[1]

In 1996, David Sackett and colleagues clarified the definition of this tributary of evidence-based medicine as "the conscientious, explicit and judicious use of current best evidence in making decisions about the care of individual patients. ... [It] means integrating individual clinical expertise with the best available external clinical evidence from systematic research."^[22] This branch of evidence-based medicine aims to make individual decision making more structured and objective by better reflecting the evidence from research.^[23]^[24] Population-based data are applied to the care of an individual patient,^[25] while respecting the fact that practitioners have clinical expertise reflected in effective and efficient diagnosis and thoughtful identification and compassionate use of individual patients' predicaments, rights, and preferences.^[22]

This tributary of evidence-based medicine had its foundations in clinical epidemiology, a discipline that teaches health care workers how to apply clinical and epidemiological research studies to their practices. Between 1993 and 2000, the Evidence-based Medicine Working Group at McMaster University published the methods to a broad physician audience in a series of 25 "Users’ Guides to the Medical Literature" in JAMA. In 1995 Rosenberg and Donald defined individual level evidence-based medicine as "the process of finding, appraising, and using contemporaneous research findings as the basis for medical decisions."^[26] In 2010, Greenhalgh used a definition that emphasized quantitative methods: "the use of mathematical estimates of the risk of benefit and harm, derived from high-quality research on population samples, to inform clinical decision-making in the diagnosis, investigation or management of individual patients."^[27] Many other definitions have been offered for individual level evidence-based medicine, but the one by Sackett and colleagues is the most commonly cited.^[22]

The two original definitions{{which|date=June 2017}} highlight important differences in how evidence-based medicine is applied to populations versus individuals. When designing guidelines applied to large groups of people in settings where there is relatively little opportunity for modification by individual physicians, evidence-based policymaking stresses that there should be good evidence to document a test's or treatment's effectiveness.^[28] In the setting of individual decision-making, practitioners can be given greater latitude in how they interpret research and combine it with their clinical judgment.^[22]^[29] In 2005, Eddy offered an umbrella definition for the two branches of EBM: "Evidence-based medicine is a set of principles and methods intended to ensure that to the greatest extent possible, medical decisions, guidelines, and other types of policies are based on and consistent with good evidence of effectiveness and benefit."^[30]

Progress

Both branches of evidence-based medicine spread rapidly. On the evidence-based guidelines and policies side, explicit insistence on evidence of effectiveness was introduced by the American Cancer Society in 1980.^[31] The U.S. Preventive Services Task Force (USPSTF) began issuing guidelines for preventive interventions based on evidence-based principles in 1984.^[32] In 1985, the Blue Cross Blue Shield Association applied strict evidence-based criteria for covering new technologies.^[33] Beginning in 1987, specialty societies such as the American College of Physicians, and voluntary health organizations such as the American Heart Association, wrote many evidence-based guidelines. In 1991, Kaiser Permanente, a managed care organization in the US, began an evidence-based guidelines program.^[34] In 1991, Richard Smith wrote an editorial in the British Medical Journal and introduced the ideas of evidence-based policies in the UK.^[35] In 1993, the Cochrane Collaboration created a network of 13 countries to produce of systematic reviews and guidelines.^[36] In 1997, the US Agency for Healthcare Research and Quality (then known as the Agency for Health Care Policy and Research, or AHCPR) established Evidence-based Practice Centers (EPCs) to produce evidence reports and technology assessments to support the development of guidelines.^[37] In the same year, a National Guideline Clearinghouse that followed the principles of evidence-based policies was created by AHRQ, the AMA, and the American Association of Health Plans (now America's Health Insurance Plans).^[38] In 1999, the National Institute for Clinical Excellence (NICE) was created in the UK.^[39] A central idea of this branch of evidence-based medicine is that evidence should be classified according to the rigor of its experimental design, and the strength of a recommendation should depend on the strength of the evidence.

On the medical education side, programs to teach evidence-based medicine have been created in medical schools in Canada, the US, the UK, Australia, and other countries.^[40]^[41] A 2009 study of UK programs found the more than half of UK medical schools offered some training in evidence-based medicine, although there was considerable variation in the methods and content, and EBM teaching was restricted by lack of curriculum time, trained tutors and teaching materials.^[42] Many programs have been developed to help individual physicians gain better access to evidence. For example, UpToDate was created in the early 1990s.^[43] The Cochrane Collaboration began publishing evidence reviews in 1993.^[34] BMJ Publishing Group launched a 6-monthly periodical in 1995 called Clinical Evidence that provided brief summaries of the current state of evidence about important clinical questions for clinicians.^[44] Since then many other programs have been developed to make evidence more accessible to practitioners.

Current practice

In the early 21st century, the term evidence-based medicine was applied to both the programs that are designing evidence-based guidelines, and to programs that teach evidence-based medicine to practitioners. By 2000, "evidence-based medicine" had become an umbrella term for the emphasis on evidence in both population-level and individual-level decisions. In subsequent years, use of the term "evidence-based" had extended to other levels of the health care system. An example is "evidence-based health services", which seek to increase the competence of health service decision makers and the practice of evidence-based medicine at the organizational or institutional level.^[45] The concept had also spread outside of healthcare; for example, in his 1996 inaugural speech as President of the Royal Statistical Society, Adrian Smith proposed that "evidence-based policy" should be established for education, prisons and policing policy and all areas of government work.{{citation needed|date=January 2019}}

The multiple tributaries of evidence-based medicine share an emphasis on the importance of incorporating evidence from formal research in medical policies and decisions. However, they differ on the extent to which they require good evidence of effectiveness before promoting a guideline or payment policy; hence, the distinction sometimes made between evidence-based medicine and science-based medicine, which also takes into account factors, such as prior plausibility and compatibility with established science as when medical organizations promote controversial treatments such as acupuncture.^[46] They also differ on the extent to which it is feasible to incorporate individual-level information in decisions. Thus, evidence-based guidelines and policies may not readily 'hybridise' with experience-based practices orientated towards ethical clinical judgement, and can lead to contradictions, contest, and unintended crises.^[12] The most effective 'knowledge leaders' (managers and clinical leaders) use a broad range of management knowledge in their decision making, rather than just formal evidence.^[13] Evidence-based guidelines may provide the basis for governmentality in health care, and consequently play a central role in the governance of contemporary health care systems.^[14]

Methods

Steps

The steps for designing explicit, evidence-based guidelines were described in the late 1980s: Formulate the question (population, intervention, comparison intervention, outcomes, time horizon, setting); search the literature to identify studies that inform the question; interpret each study to determine precisely what it says about the question; if several studies address the question, synthesize their results (meta-analysis); summarize the evidence in "evidence tables"; compare the benefits, harms and costs in a "balance sheet"; draw a conclusion about the preferred practice; write the guideline; write the rationale for the guideline; have others review each of the previous steps; implement the guideline.^[11]

For the purposes of medical education and individual-level decision making, five steps of EBM in practice were described in 1992^[47] and the experience of delegates attending the 2003 Conference of Evidence-Based Health Care Teachers and Developers was summarized into five steps and published in 2005.^[48] This five step process can broadly be categorized as:

Evidence reviews

Systematic reviews of published research studies is a major part of the evaluation of particular treatments. The Cochrane Collaboration is one of the best-known organisations that conducts systematic reviews. Like other producers of systematic reviews, it requires authors to provide a detailed and repeatable plan of their literature search and evaluations of the evidence.^[54] Once all the best evidence is assessed, treatment is categorized as (1) likely to be beneficial, (2) likely to be harmful, or (3) evidence did not support either benefit or harm.

A 2007 analysis of 1,016 systematic reviews from all 50 Cochrane Collaboration Review Groups found that 44% of the reviews concluded that the intervention was likely to be beneficial, 7% concluded that the intervention was likely to be harmful, and 49% concluded that evidence did not support either benefit or harm. 96% recommended further research.^[55] A 2001 review of 160 Cochrane systematic reviews (excluding complementary treatments) in the 1998 database revealed that, according to two readers, 41% concluded positive or possibly positive effect, 20% concluded evidence of no effect, 8% concluded net harmful effects, and 21% of the reviews concluded insufficient evidence.^[56] A review of 145 alternative medicine Cochrane reviews using the 2004 database revealed that 38.4% concluded positive effect or possibly positive (12.4%) effect, 4.8% concluded no effect, 0.7% concluded harmful effect, and 56.6% concluded insufficient evidence.^[57] In 2017, a study assessed the role of systematic reviews produced by Cochrane Collaboration to inform US private payers' policies making; it showed that though medical policy documents of major US private payers were informed by Cochrane systematic reviews; there was still scope to encourage the further usage.^[58]

Assessing the quality of evidence

Evidence quality can be assessed based on the source type (from meta-analyses and systematic reviews of triple-blind randomized clinical trials with concealment of allocation and no attrition at the top end, down to conventional wisdom at the bottom), as well as other factors including statistical validity, clinical relevance, currency, and peer-review acceptance. Evidence-based medicine categorizes different types of clinical evidence and rates or grades them^[59] according to the strength of their freedom from the various biases that beset medical research. For example, the strongest evidence for therapeutic interventions is provided by systematic review of randomized, triple-blind, placebo-controlled trials with allocation concealment and complete follow-up involving a homogeneous patient population and medical condition. In contrast, patient testimonials, case reports, and even expert opinion (however, some critics have argued that expert opinion "does not belong in the rankings of the quality of empirical evidence because it does not represent a form of empirical evidence" and continue that "expert opinion would seem to be a separate, complex type of knowledge that would not fit into hierarchies otherwise limited to empirical evidence alone").^[60] have little value as proof because of the placebo effect, the biases inherent in observation and reporting of cases, difficulties in ascertaining who is an expert and more.

Several organizations have developed grading systems for assessing the quality of evidence. For example, in 1989 the U.S. Preventive Services Task Force (USPSTF) put forth the following:^[61]

Another example is the Oxford (UK) CEBM Levels of Evidence. First released in September 2000, the Oxford CEBM Levels of Evidence provides 'levels' of evidence for claims about prognosis, diagnosis, treatment benefits, treatment harms, and screening, which most grading schemes do not address. The original CEBM Levels was Evidence-Based On Call to make the process of finding evidence feasible and its results explicit. In 2011, an international team redesigned the Oxford CEBM Levels to make it more understandable and to take into account recent developments in evidence ranking schemes. The Oxford CEBM Levels of Evidence have been used by patients, clinicians and also to develop clinical guidelines including recommendations for the optimal use of phototherapy and topical therapy in psoriasis^[62] and guidelines for the use of the BCLC staging system for diagnosing and monitoring hepatocellular carcinoma in Canada.^[63]

In 2000, a system was developed by the GRADE (short for Grading of Recommendations Assessment, Development and Evaluation) working group and takes into account more dimensions than just the quality of medical research.^[64] It requires users of GRADE who are performing an assessment of the quality of evidence, usually as part of a systematic review, to consider the impact of different factors on their confidence in the results. Authors of GRADE tables grade the quality of evidence into four levels, on the basis of their confidence in the observed effect (a numerical value) being close to what the true effect is. The confidence value is based on judgements assigned in five different domains in a structured manner.^[65] The GRADE working group defines 'quality of evidence' and 'strength of recommendations' based on the quality as two different concepts which are commonly confused with each other.^[65]

Systematic reviews may include randomized controlled trials that have low risk of bias, or, observational studies that have high risk of bias. In the case of randomized controlled trials, the quality of evidence is high, but can be downgraded in five different domains.^[66]

In the case of observational studies per GRADE, the quality of evidence starts of lower and may be upgraded in three domains in addition to being subject to downgrading.^[66]

Categories of recommendations

In guidelines and other publications, recommendation for a clinical service is classified by the balance of risk versus benefit and the level of evidence on which this information is based. The U.S. Preventive Services Task Force uses:^[67]

GRADE guideline panelists may make strong or weak recommendations on the basis of further criteria. Some of the important criteria are the balance between desirable and undesirable effects (not considering cost), the quality of the evidence, values and preferences and costs (resource utilization).^[66]

Despite the differences between systems, the purposes are the same: to guide users of clinical research information on which studies are likely to be most valid. However, the individual studies still require careful critical appraisal.

Statistical measures

Evidence-based medicine attempts to express clinical benefits of tests and treatments using mathematical methods. Tools used by practitioners of evidence-based medicine include:

Quality of clinical trials

Evidence-based medicine attempts to objectively evaluate the quality of clinical research by critically assessing techniques reported by researchers in their publications.

Limitations and criticism

Although evidence-based medicine is regarded as the gold standard of clinical practice, there are a number of limitations and criticisms of its use.^[69]^[70] Two widely cited categorization schemes for the various published critiques of EBM include the three-fold division of Straus and McAlister ("limitations universal to the practice of medicine, limitations unique to evidence-based medicine and misperceptions of evidence-based-medicine")^[71] and the five-point categorization of Cohen, Stavri and Hersh (EBM is a poor philosophic basis for medicine, defines evidence too narrowly, is not evidence-based, is limited in usefulness when applied to individual patients, or reduces the autonomy of the doctor/patient relationship).^[72]

A 2018 study "Why all randomised controlled trials produce biased results" assesses the 10 most cited RCTs and argues that trials face a wide range of biases and constraints, from trials only being feasible to study a small set of questions amendable to randomisation and generally only being able to assess the average treatment effect of a sample, to limitations in extrapolating results to another context, among many others outlined in the study.^[84]

Application of evidence in clinical settings

One of the ongoing challenges with evidence-based medicine is that some healthcare providers do not follow the evidence. This happens partly because the current balance of evidence for and against treatments shifts constantly, and it is impossible to learn about every change.^[85] Even when the evidence is unequivocally against a treatment, it usually takes ten years for other treatments to be adopted.^[85] In other cases, significant change can require a generation of physicians to retire or die, and be replaced by physicians who were trained with more recent evidence.^[85]

Another major cause of physicians and other healthcare providers treating patients in ways unsupported by the evidence is that these healthcare providers are subject to the same cognitive biases as all other humans. They may reject the evidence because they have a vivid memory of a rare but shocking outcome (the availability heuristic), such as a patient dying after refusing treatment.^[85] They may overtreat to "do something" or to address a patient's emotional needs.^[85] They may worry about malpractice charges based on a discrepancy between what the patient expects and what the evidence recommends.^[85] They may also overtreat or provide ineffective treatments because the treatment feels biologically plausible.^[85]

Education

The Berlin questionnaire and the Fresno Test^[86]^[87] are validated instruments for assessing the effectiveness of education in evidence-based medicine.^[88]^[89] These questionnaires have been used in diverse settings.^[90]^[91]

A Campbell systematic review that included 24 trials examined the effectiveness of e-learning in improving evidence-based health care knowledge and practice. It was found that e-learning, compared to no learning, improves evidence-based health care knowledge and skills but not attitudes and behaviour. There is no difference in outcomes when comparing e-learning to face-to-face learning. Combining e-learning with face-to-face learning (blended learning) has a positive impact on evidence-based knowledge, skills, attitude and behaviour.^[92] Related to e-learning, medical school students have engaged with editing Wikipedia to increase their EBM skills.^[93]

See also

References

1. ^¹{{cite journal |title=Evidence-based medicine. A new approach to teaching the practice of medicine |journal=JAMA |volume=268 |issue=17 |pages=2420–25 |date=November 1992 |pmid=1404801 |doi= 10.1001/jama.268.17.2420 |author1= Evidence-Based Medicine Working Group|url=http://jama.jamanetwork.com/data/Journals/JAMA/9675/jama_268_17_032.pdf |citeseerx=10.1.1.684.3783 }}
2. ^{{cite journal |author=Eddy DM |title = Practice Policies – Where Do They Come from?|journal=Journal of the American Medical Association |year=1990 |volume=263 |issue=9 |pages = 1265, 1269, 1272, 1275 |doi = 10.1001/jama.263.9.1265 |pmid=2304243 |url = http://jama.jamanetwork.com/article.aspx?volume=263&page=1265 }}
3. ^{{cite journal |vauthors=Brater DC, Daly WJ |title=Clinical pharmacology in the Middle Ages: principles that presage the 21st century |journal=Clin. Pharmacol. Ther. |volume=67 |issue=5 |pages=447–50 See p. 449|date=May 2000 |pmid=10824622 |doi=10.1067/mcp.2000.106465 }}
4. ^{{cite journal |vauthors=Daly WJ, Brater DC |title=Medieval contributions to the search for truth in clinical medicine |journal=Perspect. Biol. Med. |volume=43 |issue=4 |pages=530–40 See p. 536 |year=2000 |pmid=11058989 |doi=10.1353/pbm.2000.0037 }}
5. ^{{cite journal |author1=Poisson, Dulong |author2=Larrey, Double |title=Statistical research on conditions caused by calculi by Doctor Civiale. |journal=Int J Epidemiol |volume=30 |issue=6 |pages=1246–49 |year=2001 |doi=10.1093/ije/30.6.1246 |url = http://ije.oupjournals.org/cgi/content/full/30/6/1246 |origyear=1835 |pmid=11821317 |deadurl=yes |archiveurl = https://web.archive.org/web/20050429042527/http://ije.oupjournals.org/cgi/content/full/30/6/1246 |archivedate=2005-04-29 }}
6. ^{{cite book |author = Alvan R. Feinstein |title = Clinical Judgement |year = 1967 |publisher=Williams & Wilkins }}
7. ^{{cite book |author=Cochrane A.L. |author-link= Archie Cochrane |title = Effectiveness and Efficiency: Random Reflections on Health Services |year = 1972 |publisher=Nuffield Provincial Hospitals Trust }}
8. ^{{Cite journal |author1=Wennberg J.E. |author2=Gittelsohn A. |title = Small Area Variations in Health Care Delivery |journal=Science |volume=182 |issue=4117 |pages=1102–08 |doi = 10.1126/science.182.4117.1102 |year=1973 |pmid=4750608 |bibcode=1973Sci...182.1102W }}
9. ^{{cite book |last=Eddy |first = David M. |chapter=18 Probabilistic Reasoning in Clinical Medicine: Problems and Opportunities |editor-first=D. |editor-last=Kahneman |editor2-first=P. |editor2-last=Slovic |editor3-first=A. |editor3-last=Tversky |title=Judgment Under Uncertainty: Heuristics and Biases |chapterurl = https://books.google.com/books?id=_0H8gwj4a1MC&pg=PA249 |date=1982 |publisher=Cambridge University Press |isbn=978-0-521-28414-1 |pages=249–67 }}
10. ^{{cite journal |author=Eddy DMb|title=Clinical Policies and the Quality of Clinical Practice |journal=New England Journal of Medicine |year = 1982 |volume=307 |issue=6 |pages=343–47 |pmid=7088099 |doi=10.1056/nejm198208053070604 }}
11. ^¹{{cite journal |author= Eddy DM |title=Variations in Physician Practice The Role of Uncertainty |journal = Health Affairs |volume=3 |issue=2 |year = 1984 |pages=74–89 |doi = 10.1377/hlthaff.3.2.74 |pmid=6469198 |url = http://content.healthaffairs.org/cgi/pmidlookup?view=long&pmid=6469198 }}
12. ^¹{{cite journal |author=Eddy DM |title=The Quality of Medical Evidence: Implications for Quality of Care |journal=Health Affairs |volume=7 |issue=1 |date=1988 |pages=19–32 |pmid=3360391 |doi=10.1377/hlthaff.7.1.19 |url=http://content.healthaffairs.org/cgi/pmidlookup?view=long&pmid=3360391}}
13. ^¹{{cite book|author=Feinstein AR|title=Clinical Epidemiology: The Architecture of Clinical Research|date=1985|isbn=9780721613086}}
14. ^¹{{cite book |last=Sackett |first=Dave |editor-first=R. Brian |editor-last=Haynes |title=Clinical Epidemiology: How to Do Clinical Practice Research |url=https://books.google.com/books?id=cuvY6TItIwgC&pg=PA59 |year=2006 |publisher=Lippincott Williams & Wilkins |isbn=978-0-7817-4524-6 |edition=}}
15. ^{{cite journal |vauthors=Chassin MR, Kosecoff J, Solomon DH, Brook RH |title = How Coronary Angiography Is Used: Clinical Determinants of Appropriateness |journal=JAMA |volume=258 |issue=18 |year=1987 |pages=2543–47 |doi = 10.1001/jama.258.18.2543 |pmid=3312657 |url = http://jama.jamanetwork.com/article.aspx?volume=258&page=2543 }}
16. ^{{cite book |author=Eddy DM |title = A Manual for Assessing Health Practices and Designing Practice Policies |publisher=American College of Physicians|date=1992 |isbn=978-0943126180 }}
17. ^{{cite book |author=Committee to Advise the Public Health Service on Clinical Practice Guidelines, Institute of Medicine |editor-last=Field |editor-first=M.J. |editor2-last=Lohr |editor2-first=K.N. |title=Clinical Practice Guidelines: Directions for a New Program |publisher=National Academy of Sciences Press |year=1990 |isbn=978-0-309-07666-1 |page=32 |url = http://www.nap.edu/openbook.php?record_id=1626&page=32 |doi=10.17226/1626 |pmid=25144032 |pmc=5310095 }}
18. ^¹{{cite journal |author=Eddy DMb|title=Practice Policies: Guidelines for Methods |journal=JAMA |volume=263 |issue=13 |year=1990|pages=1839–41|doi=10.1001/jama.263.13.1839 |pmid=2313855 |url = http://jama.jamanetwork.com/article.aspx?volume=263&page=1839 }}
19. ^{{cite journal |author=Eddy DM |title=Guidelines for Policy Statements|journal=Journal of the American Medical Association|volume=263 |issue=16 |date=1990 |pages=2239–43 |doi=10.1001/jama.1990.03440160101046 |pmid=2319689 }}
20. ^{{cite book |author=Eddy DM |title=Clinical Decision Making: From Theory to Practice. A Collection of Essays |publisher=American Medical Association |year = 1996 |isbn=978-0763701437 }}
21. ^{{cite book |first=Jeremy H. |last=Howick |title=The Philosophy of Evidence-based Medicine |publisher=Wiley |page=15 |isbn = 978-1-4443-4266-6 |date=2011-02-23 }}
22. ^¹²³{{cite journal |vauthors=Sackett DL, Rosenberg WM, Gray JA, Haynes RB, Richardson WS |year=1996 |title=Evidence based medicine: what it is and what it isn't |journal=BMJ |volume=312 |issue=7023 |pages=71–72 |doi=10.1136/bmj.312.7023.71 |pmid=8555924 |pmc=2349778 }}
23. ^{{cite book| last = Katz| first = David L.| title = Clinical Epidemiology & Evidence-Based Medicine: Fundamental Principles of Clinical Reasoning & Research| year = 2001| publisher = SAGE| isbn = 978-0-7619-1939-1}}
24. ^{{cite book| last1 = Grobbee| first1 = D.E.| last2 = Hoes| first2 = Arno W.| title = Clinical Epidemiology: Principles, Methods, and Applications for Clinical Research| year = 2009| publisher = Jones & Bartlett Learning| isbn = 978-0-7637-5315-3}}
25. ^{{cite book| last = Doi| first = S.A.R.| title = Understanding evidence in health care: Using clinical epidemiology| year = 2012| publisher = Palgrave Macmillan| location = South Yarra, VIC, Australia| isbn = 978-1-4202-5669-7}}
26. ^{{cite journal |vauthors=Rosenberg W, Donald A |title=Evidence-based Medicine: An approach to Clinical Problem Solving |journal=BMJ |volume=310 |issue=6987 |pages=1122–26 |doi=10.1136/bmj.310.6987.1122 |year=1995 |pmid=7742682 |pmc=2549505 |url = http://www.bmj.com/cgi/pmidlookup?view=long&pmid=7742682 }}
27. ^{{cite book|last=Greenhalgh |first=Trisha |authorlink=Trisha Greenhalgh|date=2010|title=How to Read a Paper: The Basics of Evidence-Based Medicine (4th ed.)|publisher= John Wiley & Sons|page= 1|isbn=978-1-4443-9036-0}}
28. ^{{cite journal|author=Eddy DM|title=Practice Policies – Where Do They Come from?|journal=Journal of the American Medical Association|date=1990|volume=263|issue=9|pages=1265, 1269, 1272, 1275|doi=10.1001/jama.263.9.1265|pmid=2304243}}
29. ^{{cite journal|last=Greenhalgh |first=Trisha |authorlink=Trisha Greenhalgh|title=The limits of evidence-based medicine|journal= Respiratory Care|volume=46|issue=12|pages=1435–40|pmid=11728302|date=December 2001}}
30. ^{{cite journal|author= Eddy, DM|title=Evidence-based Medicine: a Unified Approach|journal=Health Affairs |date=2005|issue=1 |volume=24 |pages=9–17 |pmid=15647211 |url=http://content.healthaffairs.org/cgi/pmidlookup?view=long&pmid=15647211 |doi=10.1377/hlthaff.24.1.9}}
31. ^{{cite journal |author=Eddy D |title=ACS report on the cancer-related health checkup |journal=CA Cancer J Clin |volume=30 |issue=4 |pages=193–240 |year=1980 |pmid=6774802|doi=10.3322/canjclin.30.4.194 }}
32. ^{{cite web|url=http://www.uspreventiveservicestaskforce.org/about.htm|title=About the USPSTF|accessdate=August 21, 2014}}
33. ^{{cite book |first=R.A. |last=Rettig |first2=P.D. |last2=Jacobson |first3=C.M. |last3=Farquhar |first4=W.M. |last4=Aubry |title=False Hope : Bone Marrow Transplantation for Breast Cancer: Bone Marrow Transplantation for Breast Cancer |url=https://books.google.com/books?id=bbcTZLRRVmoC&pg=PA183 |date=2007 |publisher=Oxford University Press |isbn=978-0-19-974824-2 |pages=183}}
34. ^¹{{cite journal |vauthors=Davino-Ramaya C, Krause LK, Robbins CW, Harris JS, Koster M, Chan W, Tom GI |title=Transparency matters: Kaiser Permanente's National Guideline Program methodological processes |journal=Perm J |volume=16 |issue=1 |pages=55–62 |year=2012 |pmid=22529761 |pmc=3327114 |doi=10.7812/tpp/11-134 }}
35. ^{{cite journal|author=Smith RJ|title=Where's the Wisdom: The Poverty of Medical Evidence|journal=BMJ|volume=303 |issue=6806 |pages=798–99 |year=1991 |pmid=1932964 |pmc=1671173 |doi=10.1136/bmj.303.6806.798 }}
36. ^{{cite web|url=http://www.cochrane.org|title=The Cochrane Collaboration|accessdate=August 21, 2014}}
37. ^{{cite web|url=http://www.ahrq.gov/research/findings/evidence-based-reports/overview/index.html|title=Agency for Health Care Policy and Research|accessdate=August 21, 2014}}
38. ^{{cite web|url=http://www.guideline.gov|title=National Guideline Clearinghouse|accessdate=August 21, 2014|archive-url=https://web.archive.org/web/20140819030216/http://www.guideline.gov/|archive-date=August 19, 2014|dead-url=yes|df=mdy-all}}
39. ^{{cite web|url=http://www.nice.org.uk|title=National Institute for Health and Care Excellence|accessdate=August 21, 2014}}
40. ^{{cite journal|last1=Ilic|first1=D|last2=Maloney|first2=S|title=Methods of teaching medical trainees evidence-based medicine: a systematic review.|journal=Medical Education|date=February 2014|volume=48|issue=2|pages=124–35|doi=10.1111/medu.12288|pmid=24528395}}
41. ^{{cite journal|last1=Maggio|first1=LA|last2=Tannery|first2=NH|last3=Chen|first3=HC|last4=ten Cate|first4=O|last5=O'Brien|first5=B|title=Evidence-based medicine training in undergraduate medical education: a review and critique of the literature published 2006-2011.|journal=Academic Medicine|date=July 2013|volume=88|issue=7|pages=1022–8|doi=10.1097/ACM.0b013e3182951959|pmid=23702528}}
42. ^{{cite journal|author=Meats E1, Heneghan C, Crilly M, Glasziou P|title=Evidence-based medicine teaching in UK medical schools|journal=Med Teach|date=April 2009|volume=31|issue=4|pages=332–37|doi=10.1080/01421590802572791 |pmid=19404893 }}
43. ^{{cite web|url=http://www.uptodate.com/home|title=UpToDate|accessdate=August 21, 2014}}
44. ^{{cite web|url=http://www.clinicalevidence.bmj.com|title=Clinical Evidence|accessdate=August 21, 2014}}
45. ^{{cite book|author=Gray, J. A. Muir|date=2009|title=Evidence-based Health Care & Public Health|publisher=Churchill Livingstone|isbn=9780443101236}}
46. ^{{cite web | title=AAFP promotes acupuncture | publisher=Science-Based Medicine | date=9 October 2018 | url=https://sciencebasedmedicine.org/aafp-promotes-acupuncture/ | access-date=12 January 2019}}
47. ^{{cite journal |vauthors=Cook DJ, Jaeschke R, Guyatt GH |title=Critical appraisal of therapeutic interventions in the intensive care unit: human monoclonal antibody treatment in sepsis. Journal Club of the Hamilton Regional Critical Care Group |journal=J Intensive Care Med |volume=7 |issue=6 |pages=275–82 |year=1992 |pmid=10147956 |doi=10.1177/088506669200700601 }}
48. ^{{cite journal |vauthors=Dawes M, Summerskill W, Glasziou P, etal |title=Sicily statement on evidence-based practice |journal=BMC Med Educ |volume=5 |issue=1 |page=1 |date=January 2005 |pmid=15634359 |pmc=544887 |doi=10.1186/1472-6920-5-1 }} {{open access}}
49. ^{{cite journal |vauthors=Richardson WS, Wilson MC, Nishikawa J, Hayward RS |title=The well-built clinical question: a key to evidence-based decisions |journal=ACP J. Club |volume=123 |issue=3 |pages=A12–13 |year=1995 |pmid=7582737 }}
50. ^{{cite journal |vauthors=Rosenberg WM, Deeks J, Lusher A, Snowball R, Dooley G, Sackett D |title=Improving searching skills and evidence retrieval |journal=J R Coll Physicians Lond |volume=32 |issue=6 |pages=557–63 |year=1998 |pmid=9881313 }}
51. ^{{cite book| last = Doi| first = S.A.R.| title = Understanding evidence in health care: Using clinical epidemiology| year = 2012| publisher = Palgrave Macmillan| location = South Yarra, VIC, Australia| isbn = 978-1-4202-5669-7| ref = harv }}
52. ^{{cite journal |vauthors=Epling J, Smucny J, Patil A, Tudiver F |title=Teaching evidence-based medicine skills through a residency-developed guideline |journal=Fam Med |volume=34 |issue=9 |pages=646–48 |date=October 2002 |pmid=12455246 }}
53. ^{{cite journal|last1=Ivers|first1=N|last2=Jamtvedt|first2=G|last3=Flottorp|first3=S|last4=Young|first4=JM|last5=Odgaard-Jensen|first5=J|last6=French|first6=SD|last7=O'Brien|first7=MA|last8=Johansen|first8=M|last9=Grimshaw|first9=J|last10=Oxman|first10=AD|title=Audit and feedback: effects on professional practice and healthcare outcomes|journal=The Cochrane Database of Systematic Reviews|date=13 June 2012|volume=6|issue=6|page=CD000259|pmid=22696318|doi=10.1002/14651858.CD000259.pub3}}
54. ^{{cite journal|last=Tanjong-Ghogomu|first=E|author2=Tugwell, P|author3=Welch, V|title=Evidence-based medicine and the Cochrane Collaboration|journal=Bulletin of the NYU Hospital for Joint Diseases|year=2009|volume=67|issue=2|pages=198–205|pmid=19583554|url=http://www.nyuhjdbulletin.org/Permalink.aspx?permalinkId=07a150ec-2275-4bbf-9003-6ea200b62a4f|deadurl=yes|archiveurl=https://web.archive.org/web/20130601140339/http://www.nyuhjdbulletin.org/Permalink.aspx?permalinkId=07a150ec-2275-4bbf-9003-6ea200b62a4f|archivedate=2013-06-01|df=}}
55. ^{{cite journal |vauthors=El Dib RP, Atallah AN, Andriolo RB |title=Mapping the Cochrane evidence for decision making in health care |journal=J Eval Clin Pract |volume=13 |issue=4 |pages=689–92 |date=August 2007 |pmid=17683315 |doi=10.1111/j.1365-2753.2007.00886.x }}
56. ^{{cite journal |vauthors=Ezzo J, Bausell B, Moerman DE, Berman B, Hadhazy V | title= Reviewing the reviews. How strong is the evidence? How clear are the conclusions? | year = 2001 | journal = Int J Technol Assess Health Care | volume = 17 | issue = 4 | pages = 457–66| pmid=11758290}}
57. ^{{cite book| author = Committee on the Use of Complementary and Alternative Medicine by the American Public| title = Complementary and Alternative Medicine in the United States| url = http://www.nap.edu/openbook.php?record_id=11182| year = 2005| publisher = The National Academies Press| location = Washington DC| isbn = 978-0-309-09270-8| pages = 135–36| chapter = 5 State of Emerging Evidence on CAM: Cochrane Review Evidence for CAM| chapterurl = http://www.nap.edu/openbook.php?record_id=11182&page=134 | doi = 10.17226/11182| pmid = 22379647}}
58. ^{{cite journal |vauthors=Singh A, Hussain S, Najmi AK |title=Role of Cochrane Reviews in informing US private payers' policies |journal=J Evid Based Med |volume=10 |issue=4 |pages=293–331 |year=2017 |pmid=29193899 |doi=10.1111/jebm.12278 }}
59. ^{{cite web|url=http://www.essentialevidenceplus.com/product/ebm_loe.cfm?show=grade |title=EBM: Levels of Evidence |publisher=Essential Evidence Plus |accessdate=2012-02-23}}
60. ^¹{{cite journal |author=Tonelli MR |title=In defense of expert opinion |journal=Acad Med |volume=74 |issue=11 |pages=1187–92 |date=November 1999 |pmid=10587679 |doi=10.1097/00001888-199911000-00010}}
61. ^{{cite book|author=U.S. Preventive Services Task Force|title=Guide to clinical preventive services: report of the U.S. Preventive Services Task Force|url=https://books.google.com/books?id=eQGJHgI_dR8C&pg=PR24 |date=August 1989|publisher=DIANE Publishing|isbn=978-1-56806-297-6|pages=24–}}
62. ^{{cite web |last=OCEBM Levels of Evidence Working Group |title=The Oxford Levels of Evidence 2' |url = http://www.cebm.net/index.aspx?o=5653|date=May 2016}}
63. ^{{cite journal |last1=Paul |first1=C. |author2=Gallini, A. |author3=Archier, E. |title = Evidence-Based Recommendations on Topical Treatment and Phototherapy of Psoriasis: Systematic Review and Expert Opinion of a Panel of Dermatologists|journal=Journal of the European Academy of Dermatology and Venerology|year=2012|volume=26 |issue=Suppl 3|pages=1–10|pmid=22512675 |doi=10.1111/j.1468-3083.2012.04518.x|display-authors=etal}}
64. ^{{cite web |url=http://www.gradeworkinggroup.org/ |title=GRADE working group |accessdate=2007-09-24 |archiveurl=https://www.webcitation.org/5EyFnGxmY?url=http://www.gradeworkinggroup.org/ |archivedate=2006-04-07 |deadurl=no |df= }}
65. ^¹²{{cite journal |vauthors=Balshem H, Helfand M, Schünemann HJ, etal |title=GRADE guidelines: 3. Rating the quality of evidence |journal=J Clin Epidemiol |volume=64 |issue=4 |pages=401–6 |date=April 2011 |pmid=21208779 |doi=10.1016/j.jclinepi.2010.07.015 |url = http://linkinghub.elsevier.com/retrieve/pii/S0895-4356(10)00332-X }}
66. ^¹²{{cite book|title=GRADE handbook for grading quality of evidence and strength of recommendation|year=2009|url=http://tech.cochrane.org/gradepro|edition=Version 3.2|veditors=Schünemann H, Brożek J, Oxman A|access-date=2016-03-01|archive-url=https://web.archive.org/web/20160305115426/http://tech.cochrane.org/gradepro|archive-date=2016-03-05|dead-url=yes|df=}}
67. ^{{cite journal|last=Sherman|first=M|author2=Burak K|author3=Maroun J|title=Multidisciplinary Canadian Consensus Recommendations for the Management and Treatment of Hepatocellular Carcinoma'|journal=Current Oncology|year=2012|volume=18|issue=5|pages=228–40|pmc=3185900|doi=10.3747/co.v18i5.952|pmid=21980250|display-authors=etal}}
68. ^"Patient Compliance with statins" Bandolier Review 2004 {{webarchive|url=https://archive.is/20150512021122/http://www.medicine.ox.ac.uk/bandolier/booth/cardiac/patcomp.html |date=2015-05-12 }}
69. ^{{cite web|url=https://doi.org/10.1080/07853890.2018.1453233|title=Why all randomised controlled trials produce biased results|author=Krauss, Alexander.|publisher=Annals of Medicine, Vol. 50, 4, pp. 312-322|date=2018}}
70. ^{{cite journal |vauthors=Timmermans S, Mauck A |title=The promises and pitfalls of evidence-based medicine |journal=Health Aff (Millwood) |volume=24 |issue=1 |pages=18–28 |year=2005 |url=http://content.healthaffairs.org/content/24/1/18.long |pmid=15647212 |doi=10.1377/hlthaff.24.1.18 }}
71. ^{{cite journal|last1=Straus|first1=SE|last2=McAlister|first2=FA|title=Evidence-based medicine: a commentary on common criticisms|journal=Canadian Medical Association Journal|date=3 October 2000|volume=163|issue=7|pages=837–41|pmid=11033714|url=http://www.cmaj.ca/content/163/7/837.full.pdf|pmc=80509}}
72. ^{{cite journal|last1=Cohen|first1=AM|last2=Stavri|first2=PZ|last3=Hersh|first3=WR|title=A categorization and analysis of the criticisms of Evidence-Based Medicine|journal=International Journal of Medical Informatics|date=February 2004|volume=73|issue=1|pages=35–43|doi=10.1016/j.ijmedinf.2003.11.002|pmid=15036077|url=http://skynet.ohsu.edu/~hersh/ijmi-04-ebm.pdf|df=|citeseerx=10.1.1.586.3699}}{{dead link|date=January 2018|bot=medic}}{{cbignore|bot=medic}}
73. ^{{cite journal |vauthors=Upshur RE, VanDenKerkhof EG, Goel V |title=Meaning and measurement: an inclusive model of evidence in health care |journal=J Eval Clin Pract |volume=7 |issue=2 |pages=91–96 |date=May 2001 |pmid=11489034 |issn=1356-1294 |doi=10.1046/j.1365-2753.2001.00279.x}}
74. ^{{cite journal |author=Rogers WA |title=Evidence based medicine and justice: a framework for looking at the impact of EBM upon vulnerable or disadvantaged groups |journal=J Med Ethics |volume=30 |issue=2 |pages=141–45 |date=April 2004 |pmid=15082806 |pmc=1733835 |doi=10.1136/jme.2003.007062 |url=http://jme.bmj.com/content/30/2/141.full}}
75. ^{{cite journal |last1=Sackett |first1=DL | last2=Rosenberg |first2=WM |last3=Gray |first3=JA |last4=Haynes |first4=RB |last5=Richardson |first5=WS |title=Evidence based medicine: what it is and what it isn't |journal=BMJ |volume=312 |issue=7023 |pages=71–72 |date=January 1996 |pmid=8555924 |pmc=2349778 |doi=10.1136/bmj.312.7023.71}}
76. ^{{cite journal|vauthors=Every-Palmer S, Howick J |title= How evidence‐based medicine is failing due to biased trials and selective publication |journal=Journal of Evaluation in Clinical Practice |volume=20 |issue=6 |pages=908–14 |date=May 2014 |doi=10.1111/jep.12147|pmid= 24819404 }}
77. ^{{cite journal |doi=10.1111/j.1525-1497.2004.30617.x |vauthors=Friedman LS, Richter ED |title=Relationship Between Conflicts of Interest and Research Results |journal=J Gen Intern Med |volume=19 |issue=1 |pages=51–56 |date=January 2004 |pmid=14748860 |pmc=1494677 }}
78. ^{{cite journal |vauthors=Yitschaky O, Yitschaky M, Zadik Y |title=Case report on trial: Do you, Doctor, swear to tell the truth, the whole truth and nothing but the truth? |journal=J Med Case Reports |volume=5 |issue=1 |page=179 |date=May 2011 |pmid=21569508 |url=http://www.jmedicalcasereports.com/content/pdf/1752-1947-5-179.pdf|doi=10.1186/1752-1947-5-179 |pmc=3113995}}
79. ^{{cite web|title=Knowledge Transfer in the ED: How to Get Evidence Used|url=http://blog.bestevidencesystems.com/2013/09/30/knowledge-transfer-in-the-ed-how-to-get-evidence-used/|archive-url=https://archive.is/20131008150056/http://blog.bestevidencesystems.com/2013/09/30/knowledge-transfer-in-the-ed-how-to-get-evidence-used/|dead-url=yes|archive-date=8 October 2013|work=Best Evidence Healthcare Blog|accessdate=8 October 2013}}
80. ^{{Cite journal | last1 = Mariotto | first1 = A. | title = Hypocognition and evidence-based medicine | doi = 10.1111/j.1445-5994.2009.02086.x | journal = Internal Medicine Journal | volume = 40 | issue = 1 | pages = 80–82 | year = 2010 | pmid = 20561370 }}
81. ^{{Cite journal|last=Yamada|first=Seiji|last2=Slingsby|first2=Brian Taylor|last3=Inada|first3=Megan K.|last4=Derauf|first4=David|date=2008-06-01|title=Evidence-based public health: a critical perspective|journal=Journal of Public Health|language=en|volume=16|issue=3|pages=169–172|doi=10.1007/s10389-007-0156-7|issn=0943-1853}}
82. ^{{Cite journal | last1 = Kelly | first1 = M |last2 = Heath | first2 = I |last3 = Howick | first3 = J |last4 = Greenhalgh | first4 = T | title = The importance of values in evidence-based medicine | doi = 10.1186/s12910-015-0063-3 | pmid = 26459219 | pmc = 4603687 | journal = BMC Medical Ethics | volume = 16 | issue = 69 | pages = 69 |year = 2015}} {{open access}}
83. ^{{Cite book | last1 = Fulford | first1 = KWM |last2 = Peile | first2 = H |last3 = Carroll | first3 = H | title = Essential Values-Based Practice | isbn = 9780521530255 | url = http://www.cambridge.org/gb/academic/subjects/medicine/medicine-general-interest/essential-values-based-practice-clinical-stories-linking-science-people | date = March 2012 }}
84. ^{{cite web|url=https://doi.org/10.1080/07853890.2018.1453233|title=Why all randomised controlled trials produce biased results|author=Krauss, Alexander.|publisher=Annals of Medicine, Vol. 50, 4, pp. 312-322|date=2018}}
85. ^¹²³⁴⁵⁶{{Cite news|url=https://www.propublica.org/article/when-evidence-says-no-but-doctors-say-yes|title=When Evidence Says No, But Doctors Say Yes|last=Epstein|first=David|date=2017-02-22|newspaper=ProPublica|access-date=2017-02-24 }}
86. ^{{cite journal |last1=Fritsche |first1=L. |last2=Greenhalgh |first2=T. |authorlink2=Trisha Greenhalgh |last3=Falck-Ytter |first3=Y. |last4=Neumayer |first4=H.H. |last5=Kunz |first5=R. |title = Do short courses in evidence based medicine improve knowledge and skills? Validation of Berlin questionnaire and before and after study of courses in evidence based medicine |journal=BMJ (Clinical Research Ed.) |year= 2002 |volume = 325 |issue = 7376 |pages= 1338–41 |pmid=12468485 |pmc=137813 |doi=10.1136/bmj.325.7376.1338 }}
87. ^{{cite journal |last1=Ramos |first1=K.D. |last2=Schafer |first2=S. |last3=Tracz |first3=S.M. |title=Validation of the Fresno test of competence in evidence based medicine. |journal=BMJ |year = 2003 |volume= 326 |issue = 7384 |pages = 319–21 |pmid=12574047 |pmc=143529 |doi = 10.1136/bmj.326.7384.319 }}
Fresno test
88. ^{{cite journal |last1=Shaneyfelt |first1=T. |last2=Baum |first2=K.D. |last3=Bell |first3=D. |last4=Feldstein |first4=D. |last5=Houston |first5=TK |last6=Kaatz |first6=S |last7=Whelan |first7=C. |last8=Green |first8=M |title=Instruments for evaluating education in evidence-based practice: a systematic review. |journal=JAMA |year= 2006 |volume= 296 |issue= 9 |pages= 1116–27 |pmid=16954491 |doi=10.1001/jama.296.9.1116 }}
89. ^{{cite journal |vauthors = Straus SE, Green ML, Bell DS, Badgett R, Davis D, Gerrity M, etal |title = Evaluating the teaching of evidence based medicine: conceptual framework. |journal=BMJ |year = 2004 |volume = 329 |issue = 7473 |pages = 1029–32 |pmid=15514352 |doi = 10.1136/bmj.329.7473.1029 |pmc=524561 |url = http://www.bmj.com/content/329/7473/1029.full }}
90. ^{{cite journal |last1=Kunz |first1=R. |last2=Wegscheider |first2=K. |last3=Fritsche |first3=L. |last4=Schünemann |first4=H.J. |last5=Moyer |first5=V. |last6=Miller |first6=D. |last7=Boluyt |first7=L. |last8=Falck-Ytter |first8=Y. |last9=Griffiths |first9=P. |last10=Bucher |first10=H.C. |last11=Timmer |first11=A. |last12=Meyerrose |first12=J |last13=Witt |first13=K. |last14=Dawes |last15=Greenhalgh |first15=T. |authorlink15=Trisha Greenhalgh |last16=Guyatt |first16=G.H. |title = Determinants of knowledge gain in evidence-based medicine short courses: an international assessment |journal = Open Med |year = 2010 |volume = 4 |issue= 1 |pages = e3–e10 |pmid=21686291 |pmc=3116678 }}
91. ^{{cite journal |vauthors=West CP, Jaeger TM, McDonald FS |title=Extended evaluation of a longitudinal medical school evidence-based medicine curriculum. |journal=J Gen Intern Med |year= 2011 |volume = 26 |issue= 6 |pages= 611–15 |pmid=21286836 |doi=10.1007/s11606-011-1642-8 |pmc=3101983 }}
92. ^{{cite journal |authors = Rohwer, Anke; Motaze, Nkengafac Villyen; Rehfuess, Eva; Young, Taryn |title = E-learning of evidence-based health care (EBHC) to increase EBHC competencies in healthcare professionals: a systematic review |journal=Campbell Systematic Reviews |year=2017 |volume=4 |doi=10.4073/csr.2017.4 }}
93. ^{{cite journal |last1=Azzam|first1=A. |last2=Bresler|first2=D. |last3=Leon|first3=A. |last4=Maggio|first4=L. |last5=Whitaker|first5=E. |last6=Heilman|first6=J. |last7=Orlowitz|first7=J. |last8=Swisher|first8=V. |last9=Rasberry|first9=L. |last10=Otoide|first10=K. |last11=Trotter|first11=F. |last12=Ross|first12=W.|last13=McCue|first13=J.D. |title = Why Medical Schools Should Embrace Wikipedia: Final-Year Medical Student Contributions to Wikipedia Articles for Academic Credit at One School |journal=Academic Medicine |date=February 2017 |volume=92 |issue=2 |pages=194–200 |doi=10.1097/ACM.0000000000001381 |pmid=27627633 |pmc=5265689 }}