Deck 5: A Dichotomous Outcome: Confounding and Regression

Which (A, B, or C) represents the best screening test? Why? What does curve C tell about the screening test?

Curve A represents the best screening test because it has the highest sensitivity and specificity. Curve C has an area under the curve of 0.5. This implies that the probability of a correct diagnosis is like flipping a coin. Thus, the screening test of curve C is not useful.

Define sensitivity and specificity.

In a body mass index (BMI) test, a cutoff point is established such that an individual is classified as obese when test score is above the cutoff point. As the cutoff score increases, how will the sensitivity and specificity of the test change?

How does the magnitude of the parameter estimate (b) in a logistic regression influence the interpretation of the risk factor?

Given that an interaction effect is found significant in the logistic regression model, the main effects associated with the interaction should NOT be interpreted independently. Why? What should be reported/interpreted when an interaction is present?

Three diagnostic tests (Pearson, Deviance, Hosmer-Lemeshow) can be used to evaluate the model fit of logistic regression. Provide the null hypothesis for a test of model fit. What would you conclude if the hypothesis is not rejected?

What is the rationale behind using logit (log(odds)) and not odds or probability of the event as the outcome variable in logistic regression?

The Mantel-Haenszel's odds ratio is often used to account for confounding. When a confounding variable is found to be an effect modifier, why is it not appropriate to report Mantel-Haenszel odds ratios?

Briefly explain what a positive and negative parameter estimate (b) implies in a logistic regression in terms of the probability of the outcome.

In a logistic regression model, explain how to determine whether a confounder is an effect modifier.

Suppose that the estimated odds ratio of asthma is reported to be 0.45 (95% CI: 0.1, 0.8) for children living near farms (measured in kilometers, km), adjusting for age, race, and sex. Interpret.

List situations when Mantel-Haenszel's method for calculating an adjusted odds ratio is no longer appropriate. What type of analysis is an alternative in these situations?

If the global null hypothesis "All of the true slopes are 0" is rejected, what can be concluded?

ROC curves are often used to evaluate model fit for a logistic regression. Why is this appropriate?

The plot below presents the odds ratio estimates and 95% confidence intervals from three different studies. Interpret.