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140.612.11
Statistical Reasoning in Public Health II

Location
East Baltimore
Note: Due to the COVID-19 Pandemic, this course was held in a virtual/online format.
Term
Summer Institute
Department
Biostatistics
Credit(s)
3
Academic Year
2021 - 2022
Instruction Method
In-person
Start Date
Wednesday, June 23, 2021
End Date
Friday, July 2, 2021
Class Time(s)
M, Tu, W, Th, F, 1:30 - 5:00pm
Auditors Allowed
No
Available to Undergraduate
No
Grading Restriction
Letter Grade or Pass/Fail
Course Instructor(s)
Contact Name
Frequency Schedule
Every Year
Prerequisite

140.611

Description
Provides a broad overview of biostatistical methods and concepts used in the public health sciences, emphasizing interpretation and concepts rather than calculations or mathematical details. Develops ability to read the scientific literature to critically evaluate study designs and methods of data analysis. Introduces basic concepts of statistical inference, including hypothesis testing, p-values, and confidence intervals. Topics include comparisons of means and proportions; the normal distribution; regression and correlation; confounding; concepts of study design, including randomization, sample size, and power considerations; logistic regression; and an overview of some methods in survival analysis. Draws examples of the use and abuse of statistical methods from the current biomedical literature.
Learning Objectives
Upon successfully completing this course, students will be able to:
  1. Provide examples of different types of data arising in public health studies
  2. Explain the basic differences between different study designs for comparing populations and recognize the issue of confounding when interpreting results from non-randomized studies
  3. Interpret differences in data distributions via visual displays
  4. Explain the difference between a sample and a population
  5. Calculate standard normal scores and resulting probabilities
  6. Calculate and interpret confidence intervals for population means and proportions and incident rates using data from single samples
  7. Compute the mean difference and explain why a mean difference can be used to quantify differences in a continuous measure between two samples (and ultimately two populations)
  8. Compute risk differences, relative risks and odds ratio, and interpret the quantities
  9. Compute incidence rates and incidence rate ratios
  10. Construct, and interpret, Kaplan-Meier estimates of the survival function that describes the "survival experience" of a cohort of subjects
  11. Explain and unify the concept of a confidence interval whether it be for a single population quantity, or a comparison of populations
  12. Compute confidence intervals for population mean differences, difference in proportions, relative risks, odds ratios and incidence rate ratios
  13. Explain why computations for ratios are performed on the (natural) log scale
  14. Perform hypothesis tests for comparisons of more than two populations: - Interpret p-values from t-tests and analysis of variance (ANOVA) for mean differences between populations - Interpret p-values from z-tests, chi-square tests and Fisher’s Exact test for comparing proportions between populations - Interpret p-values from z-tests, and log-rank tests for comparing time-to-event outcomes between populations
  15. Explain the role of sample size in determining margin of error (confidence interval width) and compute the necessary sample size(s) to obtain a desired margin of error
Methods of Assessment
This course is evaluated as follows:
  • 40% Homework
  • 60% Final Exam
Special Comments

Course will be taught online via Zoom, on the dates and times the course is scheduled. For further information, please see the Institute website jhsph.edu/summerepi