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Three Statistical Issues

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Title: Three Statistical Issues


1
Three Statistical Issues
  • (1) Observational Study
  • (2) Multiple Comparisons
  • (3) Censoring Definitions

2
Non-Randomized Study
  • Benefit of Randomized Study Characteristics
    that may be associated with outcome tend to be
    balanced across treatment groups
  • Limitation of Observational Study
    Characteristics that may be associated with
    outcomes may not be balanced.
  • Example Sicker patients could tend to be
    assigned to one of the treatments more often than
    the others.
  • As a result, crucial to compare the groups as
    thoroughly as possible with respect to
    covariates.
  • Where balance does not exist, analyses should be
    adjusted for imbalances.

3
Examples from Paper
4
How to adjust?
  • Regression Methods
  • Cox proportional hazards model (survival
    analysis)
  • Linear regression (continuous outcomes)
  • Logistic regression (binary outcomes, e.g.
    response rate)
  • Other regression methods (Generalized Linear
    Models)

5
Multiple Comparisons
  • Not just comparing treatment 1 versus treatment
    2.
  • Three comparisons
  • treatment 1 vs 2
  • treatment 1 vs 3
  • treatment 2 vs 3
  • Recall type 1 and type 2 errors..

6
Type 1 Error
  • The probability of concluding there is a
    difference in treatments when there truly is NO
    difference.
  • Also called the alpha level of the test.
  • Determines what is a significant p-value.
  • Generally set to 0.05
  • So, 5 of the time we will say there IS a
    difference when there really is not.

7
Type II error
  • The probability of concluding there is NO
    difference in treatments when there truly is a
    difference.
  • Also, called the beta level
  • Also, Power 1 - beta (so power is concluding
    that there is a difference when there truly is a
    difference)
  • Generally, we like to have beta is less than 20.
  • So, 20 of the time we will say there is no
    difference when there really is a difference

8
Back to Type 1 Error
  • If we are making one comparison, we have a 5
    chance of making the error of concluding that
    there is a difference when there really is no
    difference.
  • What if we have three comparisons?
  • 3x5 15 chance of finding some difference
    between treatments if no treatment differences
    exist.

9
Solutions
  • Some say.
  • Note to take into consideration when drawing
    conclusions
  • Easy way to handle it
  • Other places (e.g. Harvard).
  • Bonferroni and other corrections
  • Essentially dividing p-value among tests so that
    the sum of the type I errors is 0.05
  • Example
  • For three comparisons, allow Type 1 error for
    each comparison of 5/3 1.33.
  • So only conclude that there is a significant
    difference between two treatments if pvalue is
    less than 0.013.

10
Another Solution
  • ANOVA type tests
  • Ho no differences between treatments
  • Ha at least one treatment is different than some
    other
  • Get just one pvalue.
  • Tells you that there is some difference, but no
    information about which is different, or how many
    are different.

11
Example
  • var1 var2 var3
    var4 var5
  • 1. 5 6 7
    8 9
  • 2. 6 7 8
    9 10
  • 3. 7 8 9
    10 11
  • 4. 8 9 10
    11 12
  • 5. 9 10 11
    12 13
  • 6. 10 11 12
    13 14
  • anova var group
  • Number of obs
    30 R-squared 0.4068
  • Root MSE
    1.87083 Adj R-squared 0.3119
  • Source Partial SS df
    MS F Prob gt F
  • -----------------------------------
    ----------------------------
  • Model 60.00 4
    15.00 4.29 0.0089
  • group 60.00 4
    15.00 4.29 0.0089

pvalue
12
Pvalues for Individual T-tests 10 comparisons
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