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Title Place. Date. What I’ve done / do/don’t do. Done: I’ve gotten out of date and retrained in Internal Medicine twice Do: I run an in-patient General Medicine service (all comers) at a UK DGH: 208 admissions last month strive to use evidence at the bedside

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  1. Title Place Date

  2. What I’ve done / do/don’t do • Done: I’ve gotten out of date and retrained in Internal Medicine twice • Do: I run an in-patient General Medicine service (all comers) at a UK DGH: • 208 admissions last month • strive to use evidence at the bedside • Don’t: I’ve cancelled my journal subscriptions (and give away the JCI and BMJ)

  3. The Problems: • We need evidence (about the accuracy of diagnostic tests, the power of prognostic markers, the comparative efficacy and safety of interventions, etc.) about 5 times for every in-patient (and twice for every 3 out-patients). • We get less than a third of it

  4. The Problems: • To keep up to date in Internal Medicine, I need to read 17 articles a day, 365 days a year • Need to read • Don’t • Nor does anyone else

  5. Median minutes/week spent reading about my patients: Self-reports at 17 Grand Rounds: • Medical Students: 90 minutes • House Officers (PGY1): 0 (up to 70%=none) • SHOs (PGY2-4): 20 (up to 15%=none) • Registrars: 45 (up to 40%=none) • Sr. Registrars 30 (up to 15%=none) • Consultants: • Grad. Post 1975: 45 (up to 30%=none) • Grad. Pre 1975: 30 (up to 40%=none)

  6. Performance deteriorates, too Determinants of the clinical decision to treat some, but not other, hypertensives: • Level of blood pressure. • Patient’s age. • The physician’s year of graduation from medical school. • The amount of target-organ damage.

  7. No wonder, then, that CME is growing • Big, and getting huge. • Usually instructionally (fact) oriented. • Several randomised trials have shown that it does not improve clinical performance.

  8. Three solutions Clinical performance can keep up to date: • by learning how to practice evidence-based medicine ourselves. • by seeking and applying evidence-based medical summaries generated by others. • by applying evidence-based strategies for changing our clinical behaviour.

  9. When did EBM begin ? • Certainly in post-revolutionary Paris. • Arguably in B.C China. • Some late-comers named it in 1992.

  10. What evidence-based medicine is: The practice of EBM is the integration of • individual clinical expertise with the • best available external clinical evidence from systematic research. and • patient’s values and expectations

  11. I.Individual Clinical Expertise: • Clinical skills and clinical judgement • Vital for determining whether the evidence (or guideline) applies to the individual patient at all and, if so, how

  12. II. Best External Evidence: • From real clinical research amongintact patients. • Has a short doubling-time (10 years). • Replaces currently accepted diagnostic tests and treatments with new ones that are more powerful, more accurate, more efficacious, and safer.

  13. III. Patients’ Values & Expectations • Have always played a central role in determining whether and which interventions take place • We’re getting better at quantifying and integrating them

  14. What EBM is not: • EBM is not cook-book medicine • evidence needs extrapolation to my patient’s unique biology and values • EBM is not cost-cutting medicine • when efficacy for my patient is paramount, costs may rise, not fall

  15. Evidence-Based Medicine:The Practice When caring for patients creates the need for information: • Translation to an answerable question (patient/manoeuvre/outcome). • Efficient track-down of the best evidence • secondary (pre-appraised) sources e.g., Cochrane; E-B Journals • primary literature

  16. Evidence-Based Medicine:The Practice • Critical appraisal of the evidence for its validity and clinical applicability è generation of a 1-page summary. • Integration of that critical appraisal with clinical expertise and the patient’s unique biology and beliefs è action. • Evaluation of one’s performance.

  17. We needn’t always carry out all 5 steps to provide E-B Care • Asking an answerable question. • Searching for the best evidence. • Critically-appraising the evidence. • Integrating the evidence with our expertise and our patient’s unique biology and values • evaluating our performance

  18. We’ve identified 3 different modes of practice • “Searching & appraising” • provides E-B care, but is expensive in time and resources • “Searching only” • much, quicker, and if carried out among E-B resources, can provide E-B care • “Replicating” the practice of experts • quickest, but may not distinguish evidence-based from ego-based recommendations

  19. Even fully EB-trained clinicians work in all 3 modes • “Searching & appraising” mode for the problems I encounter daily. • “Searching only” mode among E-B resources for problems I encounter once a month. • “Replicating” the practice of experts mode for problems I encounter once a decade(and crossing my fingers!).

  20. Patients can benefit • Even if <10% of clinicians are capable of practicing in the “searching & appraising” mode (5% of GPs) • As long as most of them practice in a “searching” mode within high-quality evidence sources (70-80% of GPs): • Cochrane Library, E-B Journals, E-B Guidelines, etc

  21. Three solutions Clinical performance can keep up to date: • by learning how to practice evidence-based medicine ourselves. • by seeking and applying evidence-based medical summaries generated by others. • by applying evidence-based strategies for changing our clinical behaviour.

  22. Information required within seconds Systematic reviews, periodically updated, of randomised trials of the effects of health care (from all sources, and in all languages): The Cochrane Collaboration.

  23. Cochrane Systematic Reviews (522; another 500 in preparation) Database of Abstracts of Reviews of Effectiveness (1895) Registry of Randomised Controlled Trials (218,355)

  24. Information required within seconds CD-Evidence-based journals of 2º publication: Ê screen 50-70 clinical journals per week for clinical articles that pass critical appraisal quality filters è conclusions likely to be true. Ë select the subset that are clinically relevant. Ì summarise as “more-informative” abstracts. Í add commentaries from clinical experts. Î introduce with declarative titles.

  25. 2. Seeking and Applying EBM generated by others Evidence-Based Medicine is published in: • English • French • German • Italian • Portuguese • Spanish

  26. 2. Seeking and Applying EBM generated by others New Evidence-based journals of 2º publication: • E-B Cardiovascular Medicine • E-B Health Policy & Management • E-B Nursing • E-B Mental Health And as new departments in 1º journals.

  27. 2. Seeking and Applying EBM generated by others E-B Textbooks: • E-B Pain Relief • E-B Cardiology • includes icons for levels of evidence • “E-B On-Call” • includes > 1300 CATs

  28. Can you really practice EBM? • Is there any “E” for EBM ?

  29. Conventional Wisdom • “only about 15% of medical interventions are supported by solid scientific evidence” (BMJ Editorial)

  30. Even on the U.S. Talk-Shows: (“Health Outrage of the Week”) • “..... this would put 80 to 90 per cent of accepted medical procedures in this country under the heading of quackery!”

  31. Problems with Conventional Wisdom • uses clinical manoeuvres, rather than patients, as the denominator. • tends to focus on high-technology, “big ticket” items. • relies on simple literature searches that miss over half of the most rigorous types of evaluations. • conducted from armchairs.

  32. Performed an empirical study on a busy in-patient service • on the general medicine in-patient service of the Nuffield Department of Medicine at the Oxford-Radcliffe NHS Hospital Trust (“The John Radcliffe”) • all our admissions arise from urgent referral from local GPs or via the Emergency Room

  33. The Protocol At the time of discharge, death, or month’s end, each patient was reviewed and consensus reached on: ¶The primary diagnosis: • the disease, syndrome or condition most responsible for the patient’s admission to hospital

  34. The Protocol (cont.) ·The Primary Intervention • the treatment or other manoeuvre that constituted our most important attempt to cure, alleviate, or care for the primary diagnosis • traced into the literature to determine its basis in evidence • the Consultant’s “Instant Resource Book” • bibliographic data base searches

  35. Primary Interventions were Classified by Level: • Evidence from Randomised Control Trials (better yet: systematic reviews of all relevant, high-quality RCTs) • Convincing non-experimental evidence (unnecessary & unethical to randomise) • Interventions without substantial evidence

  36. Conclusions from E-B oriented General Medicine: • 82% of our patients received evidence-based care. • treatments for 53% were justified by RCTs or systematic reviews of RCTs. • Of 28 relevant RCTs and SRs, 21 were accessible within seconds. • treatments for 29% were justified by convincing non-experimental evidence

  37. Evidence from RCTs (53%) • 36% had Cardiovascular diagnoses: • Ischaemic heart disease 17% • Heart failure 6% • Arrhythmia 2% • Thromboembolism 3% • Cerebrovascular 8%

  38. Evidence from RCTs (53%) • 7% had taken poison • 5% received chemotherapy or analgesia for cancer • 3 % had gastrointestinal disorders • 2% had obstructive airways disease

  39. Convincing non-experimental evidence (29%) • Infections 15% • Cardiac disorders 7% • Miscellany (non-compliance, drug reactions, bowel or bladder neck obstruction, dehydration, micturition syncope) 7%

  40. Interventions without substantial evidence (18%) • Specific symptomatic and supportive care for mild poisoning, non-cardiac chest pain, viral (non-herpetic) meningitis, terminal CNS disease, confusion, and food poisoning.

  41. Better Outcomes for Patients When EBM Is Practised • E-B practise vs. Outcome in stroke (US): • When cared for by E-B neurologists, patients were 44% more likely to receive warfarin, and much more likely to be placed in a stroke care unit, • And were 22% less likely to die in the next 90 days. (Mitchell et al: stroke 1996;27:1937-43)

  42. Centres for Evidence-Based Surgery • E-B General/Vascular Unit in Liverpool: • 95% received evidence-based Rx • 24% Level 1 • 71% Level 2 • E-B Paediatric Unit in Liverpool: • 77% received evidence-based Rx • 11% Level 1 • 66% Level 2

  43. Worse Outcomes for Patients When EBM Is Not Practised: • In a city-wide study of E-B practise vs. Outcome in carotid stenosis: • Generated E-B indications for endarterectomy and reviewed 291 pts. • Found the surgical indications: • Appropriate in 33% • Questionable in 49% • Inappropriate in 18%

  44. Worse Outcomes for Patients When EBM Is Not Practised • Stroke or death within the next 30 days: • Expected (if left alone): 0.5% • Expected (if properly selected and operated): 1.5% • Observed among operated patients (2/3 operated for questionable or inappropriate reasons): >5% Wong et al. Stroke 1997;28: 891-8.

  45. Evidence-Based Ambulatory Paediatrics • 54% of manoeuvres were evidence-based (“experts” had predicted <20%) • 77% of diagnostic manoeuvres • 67% of treatments • 59% of health promotion

  46. Centres for Evidence-Based Psychiatry • In-Patients (Oxford) • 67% treated on the basis of RCTs • Out-Patient • >80% received evidence-based Rx

  47. Evidence-Based General Practice 122 consecutive consultations in a suburban (Leeds, UK) practice. • 81% evidence-based: • 31% based on RCTs or overviews • 50% based on convincing non-experimental evidence • 19% without substantial evidence (Gill et al, BMJ 1996;312:819-21)

  48. Can we get evidence to the bedside? • Need it within seconds if it is to be incorporated into busy clinical rounds • Our initial attempts to bring the best evidence to a busy clinical team caring for 200+ admissions per month

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