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Research Design: Choosing the Study Design

Research Design: Choosing the Study Design. Kimberly R. Barber Director of Research McLaren Regional Medical Center. Design to Employ. Dependent on the hypothesis posed. Is your intent to observe, associate factors, or show cause and effect? Are exposure or outcome factors common or rare?

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Research Design: Choosing the Study Design

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  1. Research Design:Choosing the Study Design Kimberly R. Barber Director of Research McLaren Regional Medical Center

  2. Design to Employ • Dependent on the hypothesis posed. • Is your intent to observe, associate factors, or show cause and effect? • Are exposure or outcome factors common or rare? • Are your resources many or constrained?

  3. Types of Study Designs • Observational Designs • Descriptive • Analytic • Cross-sectional, Case-control, Cohort • Experimental Designs • Quasi experimental • Non randomized or non control trial • True experimental • Randomized Controlled Trial

  4. Descriptive Studies • No assignment of exposure or risk factor. • Intent is to observe and record. • Record events or activities. • Single event or case = Case Report. • Several events or cases = Case Series.

  5. Cross-Sectional Studies • Measurement of risk and outcome at the same time. Risk factor Outcome

  6. Cross-Sectional Design • The only study capable of calculating prevalence. • Proportion of the population with the outcome at any point in time.

  7. Cross-Sectional Studies (cont) • Most useful if exposure continues right up to time that outcome is recognized. • Often conducted as screening and classification preamble to prospective studies.

  8. Application Exercise: Cross-Sectional Study • Design a cross-sectional study that examines the relationship between dietary sodium and hypertension in middle-aged men. • What research question can we answer?

  9. Cross-Sectional StudiesAdvantages • Cheap and quick studies. • Data is frequently available through current records or statistics. • Ideal for generating new hypothesis.

  10. Cross-Sectional StudiesDisadvantages The importance of the relationship between the cause and the effect cannot be determined. • Temporal weakness: • Cannot determine if cause preceded the effect or the effect was responsible for the cause. • The rules of contributory cause cannot be fulfilled.

  11. Case-Control Studies (Retrospective) • Case/Control Studies. • Group subjects according to the presence or absence of the outcome. • Review past histories of the subjects for the occurrence of suspected risk factors. ? ? Risk Disease

  12. Case / Control Studies (cont) • Case / Control studies have two main purposes: • Descriptive • Describe the risk factor profile for an outcome. • Analytic • Analyze associations between outcome and risk factors.

  13. Application Exercise:Case / Control Study • Describe a case/control study on the relationship between childhood obesity, smoking history, and occurrence of hypertension in middle-aged men. • What research question can we answer?

  14. Case / Control StudiesAdvantages • Are good initial explanatory studies. • Investigators can explore multiple risk factors simultaneously for one outcome. • Are efficient, relatively cheap, and quick. • Data available through chart review.

  15. Case / Control Studies Advantages (cont) • Well suited for rare diseases. • Since the study begins with subjects who already have the outcome, it is easier to accumulate enough subjects for significant results.

  16. Case / Control StudiesDisadvantages • Data Quality • Data with inadequate detail, questionable reliability, or use a different standard to judge disease severity. • Recall bias • Subjects who have unpleasant experiences may recall past differently than control subjects.

  17. Retrospective StudiesDisadvantages (cont) • Sampling bias • Sample usually not representative of all subjects who could be included. • Other • Capable of studying only one outcome at a time • Cannot calculate prevalence or incidence. • Subject to confounding factors. • Cannot prove contributory cause.

  18. Cohort Studies(Prospective) • Subjects identified according to the presence or absence of the risk factor. • Followed over time until the outcome occurs or becomes evident.

  19. Cohort Studies (cont) • Subjects with and without the suspected risk factor are followed for the development of the outcome. • The frequency of the outcome is compared between the two groups. Disease R i s k ? ?

  20. Cohort Studies (cont) • Cohort studies have two main purposes: • Descriptive • Describe the incidence of outcome over time. • Analytic • Analyze associations between risk factors and outcome.

  21. Historical Cohort Studies(Non concurrent) • The following all happen in the past: • Assembly of the cohort according to the presence of absence of risk factors. • Baseline measurements • Follow-up and outcomes ? ? Exposure Disease

  22. Historical Cohort (cont) • Are not retrospective studies. • Subjects are grouped according to the presence or absence of risk factors (past or present). • Subjects in retrospective studies are grouped according to the presence or absence of the outcome.

  23. Cohort StudiesAdvantages • More powerful design for defining incidence. • Powerful design for associating the cause with the effect. • Can suggest that the cause precedes the effect. • Data can be collected in a comprehensible and uniform fashion. • Exception: historical cohort with same measurement weaknesses as the case/control.

  24. Cohort StudiesAdvantages (cont) • No recall bias. • Cohort designs can examine many outcomes for potential risk factors under investigation.

  25. Cohort StudiesDisadvantages • Expensive in time, money, and number of patients necessary to demonstrate significant differences between groups. • Less likely than retrospective studies to uncover new risk factors. • Also subject to confounding.

  26. Cohort StudiesDisadvantages (cont) • Loss of valuable information due to patient attrition. • Patients may change their behaviors or risk factors after the initial grouping of subjects resulting in misclassification and study error.

  27. Clinical Trial • Experimental study • Unique features: • Intervention in the subject’s care for the purposes of the study. • Randomization of subjects. • Control group comparison. • Placebo or treatment

  28. Clinical Trial Design Outcome Randomized X X Intervention/ Effect

  29. Clinical Trial (cont) • Randomization • Subjects are randomly assigned to control or experimental group. • Groups are similar in every way except for the intervention under study. • Each subject has equal probability of being placed in either group.

  30. Clinical TrialsAdvantages • Subject to the fewest methodological biases of all study designs. • Most powerful study designed to show contributory cause.

  31. Clinical TrialsDisadvantages • Is the most expensive study design in terms of money, time, and number of patients. • Issues of patient attrition and compliance may invalidate the results. • Can be problematic for ethical reasons. • Use of placebo • Harm outweighing benefits • Zero tolerance for some exposures

  32. Choosing the Specific Design • Study design is highly dependent on the type of analysis. (3) • Type of analysis is dependent on the hypothesis posed. (2) • The hypothesis is dependent on the intent of your research. (1)

  33. 1. Research Study Intent • Know the problem. • Determine what you want to conclude. • Formulate the question.

  34. Examples of Intent • I intend to show that aspirin resistance is associated with the severity of heart disease. • I will compare levels of aspirin resistance among patients with differing severity of heart disease. • I intend to show that breast feeding is protective against allergies developing in infants. • I will compare rates of allergies among women who breast feed and those who do not.

  35. 2. Research Hypothesis • Know the question you want answered. • Restate the question into terms of Ho and Ha. • Think about corresponding analysis.

  36. Examples of Hypotheses • Is aspirin resistance associated with heart disease? • Aspirin resistance increases the risk of heart attack. • Is breast feeding associated with allergies? • Breast feeding decreases the risk of allergies in babies.

  37. 3. Statistical Plan of Analysis • Correlation? • Comparison? • Association? • Difference?

  38. Examples of Analysis • The level of aspirin resistance is compared between those with heart attack and those without. • Differences in resistance scores between two groups (Student T-test) • The rate of infant allergies is compared among women who breast feed and those who do not. • Relative risk association (Chi square analysis)

  39. Choose Appropriate Design • Cross-sectional. • Case-control. • Cohort. • Clinical Trial.

  40. Apply the Best Design • Think about the measures to be used. • Know the analysis required. • Rethink desired conclusions.

  41. Summary • Study Design key to determining cause or just association. • Each design has unique strengths & weaknesses. • The design drives the conclusions.

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