  Evidence-based Medicine: An overview *Kamlesh Bhargava1, Roman Jaeschke2 ABSTRAC T. Evidence-based Medicine (EBM) has been proposed as the most significant intellectual advance in the process of clinical decision-making in the past decade. With more than , medical journals publishing  million articles a year, doctors are unable to cope with the information overload. The principles and practice of EBM show the way to bridge the gap between research and practice. Reac- tions evoked in the medical profession towards this new discipline have been in extremes, from outright rejection to enthusiastic accept- ance. The goal of this paper is to familiarise the readers with the ideas and concepts associated with the phrase Evidence-based Medicine. Key Words: Evidence-based Medicine, Review, Oman 1Department of Family and Community Health, College of Medicine, Sultan Qaboos University, P.O.Box: , Postal Code: , Al-Khod, Sultanate of Oman. 2Department of Medicine, McMaster University, Hamilton, Ontario, Canada. *To whom correspondence should be addressed. E-mail: bhargava@squ.edu.om T  -  ()  appeared in an information document for prospec-tive residents in internal medicine at McMaster University, Canada, in . e relevant passage declared: Residents are taught to develop an attitude of “enlightened scepticism” towards the application of diagnostic, therapeutic, and prognostic technologies in their day-to-day management of patients. is approach, which has been called “Evidence-Based Medicine,” is based on principles outlined in the text Clinical Epidemiology.1 e goal is to be aware of the evidence on which one’s practice is based, the soundness of the evidence, and the strength of inference the evidence permits. e strategy employed requires a clear delineation of the relevant question(s); a thorough search for the relevant information (information in the form of primary evidence and/or in the form of synopsis or summary of such evidence, see further); a critical appraisal of the evidence, and its applicability to the clinical situation; a balanced application of the conclusions to the clinical problem. e fact that the term EBM was coined in  does not mean that its ideas were absent prior to that time. Some of EBM’s proponents trace its origins to post-revolutionary Paris. e first step in modern clinical trials was the advent of the randomised trial as a methodology for resolving therapeutic dilemmas. Subsequent events included the development of the methodology of systematic over- views culminating in the Cochrane Collaboration, the introduction of informative abstracts specifying the key components of study design and results, and the advent of secondary journals that selectively present results of methodologically sound and clinically relevant articles previously published in primary journals. As practition- ers realized that the principles of EBM are as applicable to nursing, podiatry, physiotherapy, occupational therapy and all other fields of healthcare as they are to medicine, the term Evidence-based Health Care (EBHC) has emerged. In the remainder of this article we will address the need for EBM, the principles of evidence-based practice, and the electronic resources to practice EBM. Our comments will draw extensively from previous publications.     :   , : , : , – ©                        -          /          Historically, physiological rationale is the basis for treat- ment recommendations, but it has repeatedly failed to predict the results of randomized trials as the following examples illustrate. In patients with heart failure, angi- otensin-converting enzyme inhibitors have been proved to reduce mortality, whereas other promising vasodila- tors have had marginal or no effect2 and some agents with vasodilator and ionotropic properties actually increase mortality.3,4 While equally promising cerebrovascular surgical procedures have had no effect or have increased stroke morbidity,5 others have proved dramatically effec- tive in reducing stroke.6 Antiarrhythmic agents can oblit- erate non-lethal cardiac arrhythmias while increasing mortality7 and plasmapheresis confers benefit in some inflammatory conditions, but not others.8,9 Chalmers and colleagues conducted meta-analyses of randomized trials of interventions in pregnancy and childbirth and found that  interventions should have been abandoned.10 A second impetus to the rise of evidence-based health care was provided by studies demonstrating that physi- cians manage similar patients very differently. In results unexplained by differences in patient characteristics or geographical variations, surgeons have chosen widely varying rates of breast-conserving surgical procedures in women with breast cancer,11 the rates of common surgical procedures have varied up to seven-fold among coun- tries,12 the rates of coronary artery bypass surgery have varied more than three-fold among Canadian provinces,13 the odds of tonsillectomy during childhood have ranged –, and those of hysterectomy, –.14,15 A study of procedure rates for medicare patients in  large metro- politan areas in North America showed variations of more than  for more than half the procedures.16 Such wide variations raise questions about whether the differences might be reduced by appropriate application of research evidence. at some of these variations might lead to additional costs without additional benefit has made the dilemma more intense. is intensity has been further enhanced by the third major stimulus to evidence-based health care: reduced resources for health care delivery.                      How does EBM differ from the traditional approaches to health care? One can view these differences as funda- mental or revolutionary, or evolutionary. e former view contends that evidence-based practice represents a shi in the underlying paradigm of healthcare delivery and notes changes in the associated assumptions, while the latter sees EBM as a fine-tuning of approaches and ideas already in wide use. In the old paradigm, healthcare practitioners assumed that (i) observations from day-to-day clinical experience are a valid way of building and maintaining knowledge about patient prognosis, the value of diagnostic tests and the efficacy of treatment, (ii) the study and understand- ing of basic mechanisms of disease and pathophysiologic principles are an adequate guide for clinical practice, (iii) a combination of traditional medical training and com- mon sense is sufficient to allow evaluation of new tests and treatments, and (iv) content expertise and clinical experi- ence are a sufficient base from where to generate guidelines for clinical practice. According to the old paradigm, clinicians sort out clini- cal problems by reflecting on their own clinical experience, reflecting on the underlying biology, referring to a text- book, or asking a local expert. Reading the introduction and discussion sections is considered adequate for gaining relevant information from a journal article. e old para- digm puts a high value on traditional scientific authority and adherence to standard approaches.17 e evidence-based healthcare paradigm also suggests that clinical experiences, and the development of clinical instincts (particularly with respect to diagnosis) are crucial parts of becoming a competent physician. Many aspects of clinical practice cannot be adequately tested because of ethical or practical considerations. Clinical experience is particularly important in these situations. In the absence of systematic observation, clinicians must be, however, cautious in interpreting information derived from clinical experience and intuition, for it may be misleading. Second, evidence-based healthcare practitioners believe that study and understanding of basic mechanisms of disease are necessary but insufficient guides for practice. ird, understanding rules of evidence is necessary to correctly interpret literature on prognosis, diagnostic tests, and treatment and potentially harmful exposures. Finally, when pronouncing their recommendations, clinical experts must refer to the evidence, whether from research studies in the published literature or other sources. An alternative conceptualisation of evidence-based health care sees it as an evolutionary process. While clini- cians have always used the healthcare literature to solve patient problems, evidence-based practitioners acknowl- edge an explicit hierarchy of evidence. For example, in making treatment decisions they may conduct an N of  randomised trial in determining the optimal treatment for an individual patient or seek a systematic review of ran- domised trials of treatment alternatives.18 If a systematic                 review is not available, they will look for individual ran- domised trials of relevant management strategies. Failing that, they will seek high quality observational studies. If unable to get the desired evidence from the above searches, they will fall back on the underlying biology, and on their own and their colleagues’ clinical experience. EBM emphasizes that the ultimate decision that clini- cians make will not flow only from the evidence.19 Since all clinical decisions involve tradeoffs, preference or value judgements about the alternatives will always be involved.20 Ideally, the values and preferences for decisions about indi- vidual patient care will come from the patients themselves. Some patients may prefer the traditional parental model of care in which the health worker makes decisions, and the patient’s role is to trust the practitioner and follow instruc- tions. Others may insist on a more active role. Ideally, we should be striving for evidence-based patient choice; a concept that involves shared decision-making between clinician and patient.21 Whether one finds the revolutionary or evolution- ary conceptualisation of Evidence-based Medicine more appealing, they both imply a number of steps in the devel- opment of clinical decisions, including clinical policies. ese steps include identifying the relevant research, mak- ing an accurate assessment of the validity and the results, developing clinical policies with the best match between the research evidence and the clinical circumstances, and applying the research evidence to individual patients in the right way, place and time.22 e ultimate goal is to provide the practice consistent with the current best evidence. Clinicians can achieve evidence based practice in a variety of ways, as we shall describe below.                     e idea of clinical practice consistent with the current best evidence has become an important characteristic of high quality healthcare. Providing individual clinicians with the skills required to independently find from pri- mary sources such as Medline, Embase or hand searching journals, appraise and apply the best evidence (i.e., training evidence-based practitioners), became one way of achiev- ing this goal. A complementary approach creates a practice milieu that facilitates evidence-based care. e skills that an evidence-based practitioner brings to resolving a clinical dilemma include all the above steps (defining the problem; searching for evidence; appraising it; considering that evidence and its implications in the context of patients, circumstances and values). Attaining this set of EBM skills requires intensive study and time- consuming application. us, in a McMaster training program explicitly com- mitted to creating evidence-based practitioners, we have found that only a minority of trainees are interested in attaining advanced EBM skills.23 Our trainees’ responses mirror those of UK general practitioners who, despite using evidence-based summaries generated by others () and evidence-based practice guidelines or protocols (), overwhelmingly () felt that learning the skills of evidence-based medicine was not the most appropriate method for moving from opinion-based to evidence-based medicine.24 At the same time, our residency programme trainees all appear to develop a respect for, and ability to track down, recognise, and use evidence-based sources of information that provide immediately applicable conclu- sions. Having mastered this more restricted set of EBM skills, these trainees (whom we might call evidence users) could become highly competent, up-to-date practitioners capable of delivering evidence-based care. e recognition that trying to train all clinicians to become evidence-based practitioners is not feasible, and that evidence-based practitioners require tools to optimise their efficiency, has led to the development of sources of pre-appraised evidence. ese sources serve the needs of both evidence-based practitioners and clinicians who do not routinely read the methods and results sections of journal articles, yet seek and use evidence-based sources of information. ese evidence-based users may also, when seeking expert advice, confine their attention to opin- ion leaders who undertake a systematic, explicit critical appraisal of the available evidence before making recom- mendations. As a result, evidence-using clinicians may achieve evidence-based care with nearly as much consist- ency, and considerably less effort, than those who spend time searching for and critiquing research evidence. R E S O U R C E S New resources for practising EBM are developing every day; so are the individuals and organizations critically appraising and assimilating best evidence and develop- ments in information technology. Brian Haines has pro- posed the S Resources (Systems, Synopses, Syntheses and Studies), which redefine the earlier Primary and Secondary Resources.25 ese are available as paper journals, CD ROMs, and on websites. [Table .]     (      ) e ideal computerised decision support system (CDSS), now in development, would link the patients’ problems to the best available evidence incorporating electronic medical records. Trials conducted with limited conditions         -                have shown that such systems may improve patient care. is, however, is mostly an issue for the future. Available at present are electronic textbooks such as Clinical Evidence, UpToDate and Scientific American Medicine. ough not integrated with the electronic medical records, these can be used on the same computer. ese databases are focused more on internal medicine and subspecialties, and primary care. Clinical Evidence precise aims: to provide evidence to assist clinicians in answering the questions most rel- evant to clinical practice and to highlight areas where such evidence is lacking. e ‘book’ does not aim to make recommendations, nor does it judge effectiveness or cost-effectiveness. Both beneficial and harmful effects of therapy are presented, leaving clinicians to translate these effects into an estimate of effectiveness for the individual patient.26 UpToDate (www.uptodate.com) aims to provide information that is comprehensive, accurate, verifiable (well-referenced), easy to access, and updated regularly. It encompasses all areas of internal medicine, but the der- matology, oncology, and neurology sections are still under development. It describes most important studies briefly reviews quantitative data. Even though UpToDate does not give explicit criteria for seeking and appraising evidence, most clinicians have found it relevant and easy to use.      (      ) Resources for busy clinicians who do not have the time to read lengthy articles and digest them are available. One such resource for internal medicine and primary care is Best Evidence, annually produced on CD-ROM by the American College of Physicians and American Society of Internal Medicine Best Evidence finds good studies from the top  journals, critically appraises them and gives a one-page synopsis for each, along with a commentary by an expert. e Best Evidence CD-ROM also features the entire contents of ACP Journal Club (ACPJC), Evidence- Based Medicine (EBM), and the textbook Diagnostic Strategies for Common Medical Problems (DS). Most of its references are relevant to internal medicine: a reflection of the preponderance of ACPJC articles.27        (      ) ese resources include systematic reviews that are sum- maries of medical literature. ey perform literature searches, critically appraise individual studies and statisti- cally combine the studies, and are available as databases on CD-ROMs such as Cochrane Library. e Cochrane Collaboration (www.updateusa.com/clibip/clib.htm) was established in  to facilitate systematic reviews of ran- domised controlled trials across all areas of health care.28,29 is international organization aims to help people make well-informed decisions about health care by preparing, maintaining and ensuring the accessibility of systematic reviews of the effects of healthcare interventions. e Cochrane Library includes (i) e Cochrane Database of Systematic Reviews—regularly updated reviews of the effects of health care, (ii) Database of Abstracts of Reviews of Effectiveness—critical assessments and struc- tured abstracts of good systematic reviews published elsewhere; (iii) e Cochrane Controlled Trials Register —bibliographic information on controlled trials and (iv) Other sources of information—the science of reviewing, research and evidence-based health care. e abstracts of the Cochrane Reviews can be browsed free at www.update- soware.com/abstracts/titlelist.htm.                 Practice guidelines are also being developed by various organizations, some based on the principles of EBM, others not so explicit. ese can be found on the web at sites such as the National Guideline Clearinghouse and Medline.      (     ) Original studies form the last resource for finding evidence. ese can be accessed in several ways. For the beginner, SUMSearch might be a good starting point. SUMSearch is a ‘meta-searching service’ that searches the following resources: (i) Merck Manual (which it uses as the default textbook), (ii) Medline (for original research, review articles and editorials from general journals), (iii) National Guideline Clearinghouse from the Agency for Health Care Policy and Research (AHCPR), and (iv) Database of Abstract of Reviews of Effectiveness (DARE). Depending of the focus requested, SUMSearch will search PubMed with the highest sensitivity filters developed by Haynes et al. For example, if the search were about physical exami- nation, SUMSearch would search the database Bedside Diagnosis.30 Another option is to use ‘clinical queries’ in PubMed followed by searching the Medline through PubMed. Medline, the database maintained by the National Library of Medicine in Bethesda, Maryland, USA, is the electronic equivalent of Index Medicus. It includes more than  mil- lion citations dating from , from over , journals. e strength of this database is its relatively comprehensive coverage of medical journals and free accessibility via the Internet at www.ncbi.nlm.nih.gov/entrez/query.fcgi.31 e downside is that Medline’s sheer size calls for skills and time to retrieve information, and it mostly provides only abstracts with links to full-text sites (, as on January ) that oen need paid subscription. Again, the studies thus found need to be critically appraised by the clini- cian be applying them for patient care. us the utility of Medline searches are limited to rare conditions and where the more dedicated resources are unsuccessful. Over the last several years the concepts and ideas         -              Table 1. Useful EBM resources Source Site Yearly cost (US $) Best Evidence www.acponline.org/catalog/electronic/best_evidence.htm 85 Cochrane Library www.updateusa.com/clibip/clib.htm 235 Medline clinical.updateusa.edu/pubmed.htm Free UpToDate www.uptodate.com 530 SumSearch SUMsearch.UTHSCSA.edu Free TRIP www.Tripdatabase.com Free Scientific American Medicine www.samed.com 299 Clinical Evidence www.evidence.org/index-welcome.htm 110 eMedicine www.emedicine.com Free ScHARR Netting the Evidence www.shef.ac.uk/~scharr/ir/netting/ Free ACP Journal Club www.acponline.org/journals/acpjc/jcmenu.htm/wni Free BMJ www.bmj.com Free JAMA jama.ama-assn.org 125 Lancet www.thelancet.com 50 Evidence-Based Medicine: How to practice and teach EBM www.churchillmed.com 31 MD Consult www.mdconsult.com 219 Bandolier www.jr2.ox.ac.uk/Bandolier Free Centre for Evidence-Based Medicine cebm.jr2.ox.ac.uk Free McMaster Health Information hiru.mcmaster.ca Free   attributed to and labelled collectively as EBM became part of daily clinical lives. Clinicians hear about evidence-based medicine, EB healthcare, EB guidelines, EB care paths, and EB questions and solutions. e controversy has shied from whether to implement the new concepts to how to do so sensibly and efficiently while avoiding numerous poten- tial problems on the way. ere are many reasons why EBM-related skills and solutions would allow us to function more rationally, and with more satisfaction and fun, in our daily practice. Even though original literature keeps spewing forth new evidences that should influence the way we practice, our access to such information is limited, and thereby we risk obsolescence. EBM provides solutions here.32 However, while adopting EBM strategies, clinicians must avoid a series of misconceptions about EBM. Some critics have mistakenly suggested that EBM equates evidence with results of randomised trials, statistical significance with clinical relevance, evidence (of whatever kind) with deci- sions, and lack of evidence of efficacy with the evidence for the lack of efficacy. A final mistaken notion is that EBM is a cost-containment tool, rather than a tool for providing optimal patient care33. Each healthcare practitioner needs to decide to what extent she would like to become an EBM practitioner. Learning the advanced skills of locating and assessing evidence from the original literature gives the practition- ers the skills to judge competing recommendations and alternative courses of action while making healthcare practice more intellectually stimulating and rewarding. EBM skills are very much essential for anyone whose goal is to provide recommendations for optimal practice to others by authoring reviews, editorials or practice guide- lines, or as clinical teacher. e advent of EBM has meant that traditional sources of authority such as age and expe- rience must be supplemented by explicit reference to the available valid and clinically relevant literature. Awareness of such literature, and of rules that allow one to integrate evidence from multiple sources to draw valid conclusions, are rapidly becoming essential for all teachers. ose without such skills risk missing an important tool for com- municating with their learners.Becoming an accomplished EBM practitioner comes at the cost of time, effort, and sac- rificing other priorities. As pointed out earlier, an equally legitimate alternative for clinicians is to actively seek information from sources that explicitly use EBM tools in their selection and presentation of evidence. Even here the clinician requires specific EBM skills to be able to apply the gleaned information to individual patients. For instance, in helping patients weigh the risks and benefits of a treatment they are considering, the clinician must understand the best estimate of the magnitude of the treatment effect, and the precision of that estimate. For the policy decision makers, including regulators and payers, the evolution of EBM provides new opportunities and challenges. e opportunities lie in the fact that, when properly used, EBM tools help generate data to inform and rationalize healthcare decisions. e challenges, even dangers, lie in the superficial use of EBM concepts, hijack- ing EBM labels to support preconceived ideas and using labels of EBM without actually applying the concepts. For example, in the recent assessment of the methodological quality of  practice guidelines, Shaneyfelt et al found that authors described the method of identifying evidence in only , indicated the methods of grading the evidence in , described the role and use of expert opinion in , indicated the role of value judgement in making recom- mendations in , and graded the strength of recommen- dations according to the quality of evidence behind them in . Even more surprisingly, the purpose of the guide- line was specified in only  of the publications, the back- ground and expertise of authors described in only , and the process of external review revealed in only .38 Not surprisingly, one can find practice guidelines or care paths supporting all kinds of questionable practices. e findings of this survey are particularly distressing when one con- siders that practice guidelines may, in some institutions and organizations, acquire the status of practice directives. Generating policies or recommendations intended for wide use requires a detailed understanding of the way such                 policies should be constructed, what constitutes ‘admissi- ble’ evidence, how research evidence can be integrated with patients and societal values, and how the strength of a rec- ommendation relates to the quality of underlying evidence and the tradeoffs between risks and benefits.          During –, a survey of  doctors was conducted in Oman to assess their knowledge, attitudes and practices of EBM (unpublished data). It showed that  doctors felt that the practice of EBM would improve the stand- ards of care, and help put research findings into practice. Even though  had access to computers, the Internet, and were aware of Medline searches, they never used critically appraised databases like Cochrane, Best Evidence, UpToDate, Bandolier, Clinical evidence or National Guideline Clearing House. e participants had limited understanding of the basic EBM terms such as Numbers Needed to Treat (NNT), Likelihood Ratios, Odds Ratio and Relative Risk. Table 2. Steps to practise EBM 1. Ask answerable questions 2. Translate them to effective searches for the best evidence 3. Critically appraise 4. Apply the evidence 5. Evaluate performance To promote the understanding and practice of EBM, yearly workshops are being conducted in Oman. e three- day workshop held in April  involved small group (–) teaching, with two facilitators in each group. e participants were from various specialties and levels of experience. e facilitators represented the major centres of EBM including the McMaster, Canada, the Centre of Evidence-based Medicine in Oxford, and a reviewer for the Cochrane Collaboration. A manual was developed for self- study. e focus was on covering the  steps of EBM [Table ]. ere were three plenary sessions, two hands-on com- puter lab sessions, one for Medline searches, the other for non-Medline searches using databases on CD ROMs such as Best Evidence, Cochrane and UpToDate. Questionnaire surveys before and aer the workshop showed that the participants had gained an understanding of EBM and demonstrated that workshops are effective ways to learn the practice of EBM. Aer the workshop the participants have been trying to practice themselves and introduce the concepts of EBM in their organizations.         -              C O N C L U S I O N e purpose of EBM is to provide healthcare practitioners and decision-makers (physicians, nurses, administrators, regulators) with tools that allow them to gather, access, interpret, and summarize evidence required to buttress their decisions and to explicitly integrate this evidence with patients’ and providers’ values. In this sense, EBM is not an end in itself, but rather a set of principles and tools that helps us distinguish evidence from unsubstantiated opinions, ignorance of evidence from real scientific uncer- tainty, and ultimately, serves to provide better patient care. R E F E R E N C E S . Sackett DL, Haynes RD, Guyatt GH, Tugwell P. In: Clinical Epidemiology Basic Science for Clinical Medicine. Boston, Little Brown, . . Mulrow CD, Mulrow JP, Linn WD, et. al. 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