Objectives
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| Learning Objectives |
> | Introduction to Study |
> | Student Role |
> | Study Design |
> | Data Collection |
> | Data Analysis |
> | Discussion Questions |
|
The data collected yield the following counts:
Total number of Cases: 112
Total number of Controls: 224
Number of Cases who ingested Endurobrick: 28
Number of Controls who ingested Endurobrick: 56
Number of Cases who consumed Quench-it: 50
Number of Controls who consumed Quench-it: 56
You decide to test the hypothesis that cases are more likely to have ingested Endurobrick than controls. [See Gordis, pgs. 162-168]
| 8. | How would you set up the classic 2x2 table using the above information to test this hypothesis? | ||
|---|---|---|---|
| a. | Calculate the odds of exposure among cases: | [ Check Answer ] | |
| b. | Calculate the odds of exposure among controls: | [ Check Answer ] | |
| c. | Calculate the exposure Odds Ratio (OR) | [ Check Answer ] | |
| d. | Calculate the odds of Susser Syndrome among the exposed: | [ Check Answer ] | |
| e. | Calculate the odds of Susser Syndrome among the unexposed: | [ Check Answer ] | |
| f. | Calculate the disease Odds Ratio: | [ Check Answer ] | |
| g. | Interpret your findings: | [ Check Answer ] | |
You now decide to test the hypothesis that cases are more likely to have consumed Quench-it than controls.
| 9. | How would you set up the classic 2x2 table using the above information to test this hypothesis? | ||
|---|---|---|---|
| a. | Calculate the odds of exposure among cases: | [ Check Answer ] | |
| b. | Calculate the odds of exposure among controls: | [ Check Answer ] | |
| c. | Calculate the exposure Odds Ratio (OR) | [ Check Answer ] | |
| d. | Calculate the odds of Susser Syndrome among the exposed: | [ Check Answer ] | |
| e. | Calculate the odds of Susser Syndrome among the unexposed: | [ Check Answer ] | |
| f. | Calculate the disease Odds Ratio: | [ Check Answer ] | |
| g. | Interpret your findings: | [ Check Answer ] | |
| 10. | You wipe the sweat from your analytical brow and present your findings to your supervisor. What should you tell her? | ||
|---|---|---|---|
 |
a. | It looks as though we've ruled out both Endurobrick and Quench-it as possible exposures. In my opinion, neither appears to be related Susser Syndrome development. | |
|
b. | The data regarding both Endurobrick ingestion and Quench-it consumption are totally inconclusive. I think we should repeat the study with more participants. | |
|
c. | While ingestion of Endurobrick does not cause Susser Syndrome, the data do indicate that consumption of Quench-it does cause Susser Syndrome. | |
|
d. | The data clearly suggest that the consumption of Quench-it is associated with later development of Susser Syndrome whereas the ingestion of Endurobrick does not appear to be associated with Susser Syndrome. I think we might want to explore other potential exposure sources to be sure as well as to further characterize this association. | |
After reporting your results, you decided to do a little bit more detective work. You head over to the Public Health Laboratory records department and check the log file on Quench-it. Since its production, the Health and Food Safety Inspector has taken random samplings of Quench-it back to the lab to analyze it for any possible contamination. This is normal surveillance procedure. Looking the file you notice something interesting: during the time period between 2000 and 2002, a significant amount of Superclean was found in Quench-it, probably, you recall, a result of the old sterilization process. After 2002 when Glop Industries changed techniques, Quench-it was completely free of Superclean. Realizing the importance of this finding, you immediately report back to your supervisor.
| Learning Objectives |
> | Introduction to Study |
> | Student Role |
> | Study Design |
> | Data Collection |
> | Data Analysis |
> | Discussion Questions |
|
