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Design and Analysis of Clinical Trials Course
- 1. Design and Analysis of Clinical Trials Stat 6202 Introduction to the course Clinical Research Role of statistics in clinical research Course description
- 2. Clinical Research • Clinical research involves: – investigating proposed medical treatments, – assessing the relative benefits of competing therapies, – and establishing optimal treatment combinations. • Clinical research attempts to answer questions such as: – Is the incidence of serious adverse effects among patients receiving a new therapy greater than the patients receiving the standard therapy? • Before the widespread use of experimental trials, clinicians attempted to answer such questions by generalizing from the experiences of individual patients to the population at large.
- 3. The role o statistics in clinical research • In the twentieth century, the field of statistics developed and was applied to clinical research. • Statistics is the “ theoretical science or formal study of the inferential process, especially the planning and analysis of experiments, surveys, and observational studies.” • Statistical methods provide formal accounting for sources of variability in patients’ responses to treatment. • The use of statistics allows the clinical researcher to form reasonable and accurate inferences from collected information and to make sound decisions in the presence of uncertainty.
- 4. Statistical reasoning components 1. Establishing an objective framework for conducting an investigation 2. Placing data and theory on an equal scientific footing 3. Designing data production through experimentation 4. Quantifying the influence of chance 5. Estimating systematic and random effects 6. Combining theory and data using formal methods
- 5. In summary • Clinical researchers must generalize from the few to many and combine empirical evidence with theory.. • In both medical and statistical sciences, empirical knowledge is generated from observations and data. • Medical theory is based upon established biology and hypotheses. • Statistical theory is derived from mathematical and probabilistic models. • To establish a hypothesis requires both a theoretical basis in biology and statistical support for the hypothesis, based on the observed data and the theoretical statistical model.
- 6. Course Description • Chapter 1: Introduction to Clinical Trials – Fundamental Points – Definition of a Clinical Trials – Clinical Trial Phases – Why Are Clinical Trials Needed? – Problems in the Timing of a Trial • Chapter two: Design of clinical Trials – Basic Design Considerations – Experimental Design – Randomization – Introduction to Parallel and Crossover Designs – Crossover Design • Chapter 3: Study participants & Treatment allocations – The study population – Biases in Clinical trials – Sample size – Treatment allocation – End points
- 7. • Chapter 4: Data analysis in clinical trials – Introduction to Statistical Methods – Hypothesis testing – Confidence Interval Approach – Intention to treat (ITT) – Subgroup analysis – Meta analysis • Chapter 5: Ethical issues in Clinical Trials – Ethical principles – Regulatory bodies – Data safety & monitoring – Interim decision making
- 8. References 1. Chow S.C. and Liu J.P. (2004), Design and Analysis of Clinical Trials, 2nd Edition, Marcel Dekkar. 2. Friedman L. M., Furburg C., and Demets D. L. (1998), Fundamentals of Clinical Trials, Springer Verlang. 3. Fleiss J. L. (1989), The Design and Analysis of Clinical Experiments, Wiley and Sons. 4. Steven Piantadosi, ( 2005), Clinical Trials: A Methodologic Perspective, 2nd edition, Wiley-Interscience; • Lecture Slides