Evidence and Hypothesis in Clinical Medical Science

<p>1. Introduction</p><p>1.1 Aims and Motivation</p><p>1.2 Overview of the Following Chapters</p><p>References</p><p><br></p><p>2. Theories of Confirmation in which Hypotheses do not have Probabilities</p><p>2.1 Hypothetico-Deductivism</p><p>2.2 Hempel's "Satisfaction" Theory</p><p>2.3 Mayo's Error-Statistical Theory</p><p>References</p><p><br></p><p>3. Theories of Confirmation in which Hypotheses have Probabilities, and Inference to the Best Explanation</p><p>3.1 General</p><p>3.2 Bayesianism</p><p>3.3 Achinstein's Theory of Evidence</p>3.4 Inference to the Best Explanation<p></p><p>3.4.1 What is an Explanation?</p><p>3.4.2 Evidence, Hypothesis, and Explanation in Clinical Medical Science</p><p>References</p><p><br></p><p>4. Confirmation of Hypotheses in Clinical Medical Science</p><p>4.1 General</p><p>4.2 Therapeutic Hypotheses</p><p>4.2.1 Controlled Trials</p><p>4.2.2 N of 1 Trials</p><p>4.3 Etiologic Hypotheses</p><p>4.3.1 Cohort Studies</p><p>4.3.2 Case-Control Studies</p><p>4.3.3 Cross-Sectional Studies</p><p>4.3.4 Remarks on the Challenges of Etiologic Research</p><p>4.4 Diagnostic Hypotheses</p><p>References</p><p><br></p><p>5. A Weight of Evidence Account</p><p>5.1 General</p><p>5.2 Some Threats to Accuracy</p><p>5.2.1 Selection Bias</p><p>5.2.2 Information Bias</p>5.2.3 Confounding<p></p><p>5.3 How is the Weight of Evidence Determined?</p><p>5.3.1 Cochrane Systematic Reviews</p><p>5.3.2 IARC Reviews</p><p>5.4 How is the Weight of Evidence Quantified?</p><p>5.5 The Importance of Accuracy</p><p>References</p><p><br></p><p>6. The Weight of Evidence Account Defended</p><p>6.1 General</p><p>6.2 Current Theories of Evidence are Unsatisfactory for Clinical Medical Science</p><p>6.3 The Weight of Evidence Account Remedies Deficiencies in other Accounts</p><p>6.4 The Weight of Evidence Account Explains the Case Studies</p><p>6.5 The Weight of Evidence Account Explains Efforts to Rank Evidence</p>References<p></p><p><br></p><p>7. Justification for the Hierarchical Pyramid of Evidence-Based Medicine and a Defense of Randomization</p><p>7.1 General</p><p>7.2 The Evolution of Treatments for Early Breast Cancer</p><p>7.2.1 Background</p><p>7.2.2 Early Studies</p><p>7.2.3 Controlled Trials in Clinical Medical Science Revisited</p><p>7.2.4 RCTs in Early Breast Cancer</p><p>7.3 Is Randomization Necessary?</p><p>7.4 A Defense of Randomization</p><p>7.5 Analysis of Evidence in Studies of Treatment for Early Breast Cancer</p><p>7.6 Some Issues in Generalizing the Results of RCTs in Clinical Medical Science</p><p>7.7 Why the Hierarchical Pyramid of EBM is Justified</p><p>References</p><p><br></p><p>8. Ethics and Evidence: Is Evidence from Randomized Controlled Trials Necessary to Firmly Establish a New Therapy?</p><p>8.1 General</p><p>8.2 ECMO</p><p>8.2.1 Background and RCTs of ECMO</p><p>8.2.2 Were the ECMO RCTs Necessary?</p>8.3 Carcinoma of the Anal Canal<p></p><p>8.4 Disseminated Carcinoma of the Testis</p><p>8.5 Conclusions</p><p>References</p><p>&nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp;</p><p>Index</p><p></p>