Spring 2019 - STAT 305 D100
Introduction to Biostatistical Methods for Health Sciences (3)
Class Number: 3471
Delivery Method: In Person
Course Times + Location:
Mo 2:30 PM – 4:20 PM
SSCB 9200, Burnaby
We 2:30 PM – 3:20 PM
RCB IMAGTH, Burnaby
Exam Times + Location:
Mar 11, 2019
2:30 PM – 4:20 PM
DFA 300, Burnaby
Mar 11, 2019
2:30 PM – 4:20 PM
SSCB 9200, Burnaby
Apr 11, 2019
12:00 PM – 3:00 PM
GYM CENTRAL, Burnaby
Prerequisites:Any STAT course (except STAT 100) or BUEC 232.
Intermediate statistical techniques for the health sciences. Review of introductory concepts in statistics and probability including hypothesis testing, estimation and confidence intervals for means and proportions. Contingency tables and the analysis of multiple 2x2 tables. Correlation and regression. Multiple regression and model selection. Logistic regression and odds ratios. Basic concepts in survival analysis. This course may not be used to satisfy the upper division requirements of the Statistics major or honours program. Quantitative.
**Please note that the two midterms will start at 16:45.
Lab Instructor: Marie Loughin
This upper-division course provides an opportunity for the further development of analytic skills acquired in basic courses in statistics and the health sciences. It concentrates on the relatively few techniques that are currently most used in health research, but it also seeks to provide a conceptual basis for understanding other techniques. The course focuses on unifying principles and widely applicable methods as opposed rote memorization of an array of unrelated ad-hoc procedures. The material is presented descriptively, from the point of view of understanding and practical use.
The emphasis of the course is on analysis (rather than design) of observational studies where there is one outcome variable of primary interest and where the data are made up of multiple independent observations. Important areas not covered are: classical multivariate analysis (e.g., factor analysis, discriminant analysis, etc.), longitudinal data analysis, time series, random effects models, and experimental design considerations (e.g., Latin squares, etc.).
By the end of the course the participant should:
- understand the concept of a statistical model and how such models correspond to specific hypotheses or questions,
- be able to interpret the results of an analysis in relation to the original questions or hypotheses that motivated the analysis,
- be familiar with data analysis methods commonly used in health sciences and understand the basic limitations of competing methods,
- understand and be able to critique the analysis methods described in published health research papers,
- be able to communicate effectively with statistical consultants.
The scheduling of the following topics is approximate:
- Review of introductory statistics from the pre-requisite course: Hypothesis testing, estimation and confidence intervals for means and proportions.
- Review of basic concepts of probability with applications including diagnostic testing, sensitivity and specificity, the relative risk and the odds ratio.
- Contingency Tables: The Chi-square test, r x c tables, multiple 2x2 tables, Simpson's paradox, Mantel- Haenszel method.
- Correlation and simple linear regression: Regression concepts, estimation and testing for regression coefficients, evaluation of the model.
- Multiple linear regression: Inference for regression coefficients, confounding and interaction, indicator variables, model selection, prediction, model assumptions and checking.
- Logistic regression: Odds ratios, inference for regression coefficients, model assumptions, case-control studies.
- Time permitting: Survival analysis including life tables, censoring, Kaplan-Meier method, log-rank test.
- Quizzes 10%
- Midterm 1 - Feb 11th - 16:45-18:20 20%
- Midterm 2 - Mar 11th - 16:45-18:20 20%
- Final Exam 50%
Above grading is subject to change.
Students will be permitted one 8.5x11 sheet of notes and a calculator for exam. Exam questions will emphasize conceptual understanding and the interpretation of analysis results rather than formula calculations. Any Academic Dishonesty (see below) on midterms and final examinations will be prosecuted and result in an expulsion from this class. Students missing or doing poorly on a midterm examination will have the final examination used in its place; there will be no make-up midterm examinations.
Use of cell phone and computers in class:
Cell phones should be turned off and put away during classes and exams. Use of computers in class should be limited to active participation in taking notes.
Principles of Biostatistics (2nd ed.) by M. Pagano, K. Gauvreau. Publisher: Brooks/Cole and CRC Press
The e-book is also available for purchase from the CRC press website:
Department Undergraduate Notes:
Students with Disabilites:
Students requiring accommodations as a result of disability must contact the Centre for Accessible Learning 778-782-3112 or firstname.lastname@example.org
Students looking for a Tutor should visit http://www.stat.sfu.ca/teaching/need-a-tutor-.html. We accept no responsibility for the consequences of any actions taken related to tutors.
SFU’s Academic Integrity web site http://www.sfu.ca/students/academicintegrity.html is filled with information on what is meant by academic dishonesty, where you can find resources to help with your studies and the consequences of cheating. Check out the site for more information and videos that help explain the issues in plain English.
Each student is responsible for his or her conduct as it affects the University community. Academic dishonesty, in whatever form, is ultimately destructive of the values of the University. Furthermore, it is unfair and discouraging to the majority of students who pursue their studies honestly. Scholarly integrity is required of all members of the University. http://www.sfu.ca/policies/gazette/student/s10-01.html
ACADEMIC INTEGRITY: YOUR WORK, YOUR SUCCESS