Code | Faculty | Department |
---|---|---|
10244016 | Faculty of Health Sciences | Department: School of Health Systems and Public Health |
Credits | Duration | NQF level |
---|---|---|
Minimum duration of study: 1 year | Total credits: 120 | NQF level: 08 |
The following requirements are set:
Registration as a special student in the Faculty in order to pass a status examination
Candidates will be required to first register as a special student in the Faculty, in order to pass in a status examination, in the following instances:
• A three-year bachelor's degree with less than five years' applicable practical (work) experience; or
• A four-year bachelor’s degree with less than two years’ applicable practical (work) experience; or
• Any applicant in possession of an approved bachelor’s degree, who the School’s Selection Committee deems fit to register as a special student.
NB:
In accordance with the criteria of the Senate of the University, the applications for admission of all such candidates must, apart from any Faculty requirements, also be submitted to the University Senate for approval. All candidates accepted for postgraduate study (MPH or the Postgraduate Diplomas) must be in possession of a National Senior Certificate with admission for degree purposes.
Pass requirements for the status examination
• At least 60% must be obtained in the status examination.
• The status examination will be written in June.
Other selection criteria
Academic merit (an average mark of at least 60% for the final-year subjects of the bachelor’s degree will be required)
• National/International need for epidemiologists and biostatisticians
• Under-represented groups in epidemiology and biostatistics
• Epidemiology and/ biostatistics-related employment
• Track record – e.g. employment, academic, etc.
Students must attend all lectures and practical classes (as may be required), and should successfully complete all online tasks, as required, to the satisfaction of the head of department or the Chairperson of the School before they will be admitted to the examinations. Written, oral and/or practical examinations must be passed in all the modules. Both exit examinations will be externally moderated. The minimum pass mark for the modules and the exit examinations is 50%. Only with the approval of the Chairperson of the School, on the recommendation of the head of department, will a student be allowed to continue his or her studies after having failed two modules (or the same module twice). A second examination in a module (including the BScHons-specific exit examinations) is arranged in conjunction with the head of department for any student obtaining less than 50% and more than 39% for any module or exit examination.
The BScHons (Epidemiology and Biostatistics) degree is awarded with distinction to a student who has obtained a mark of at least 75% for the externally moderated assessment components as well as a simple (unweighted) average of at least 75% of all the marks for the other required modules for the degree; excluding PHM 779 Learning in public health 779.
Concurrent registration for two study programmes
Minimum credits: 120
Module content:
Types of data; Probability sampling distributions;Summary measures for data; Confidence intervals for point estimates; Normal approximations for Binomial and Poisson distributions; Graphics; Single sample and two sample hypothesis tests, both parametric and non parametric. T-tests; Welch tests; Paired t-tests; F-tests; Chi square tests; Tests of association and tests of agreement; sign tests; median tests; MWW tests; Signed ranks tests (paired data). How to perform/ obtain all the above using Stata statistical software. Estimating sample size using PS and G*Power software.
Module content:
One-way ANOVA; Simple linear regression, classical and correlational; modelling strategies for multilinear regression; post regression diagnostic tests (residuals analysis) following linear regression. Kruskal-Wallis test. Mantel-Haenszel test; Revision of confounding and effect modification and M-H test; the logistic regression model; Interpretation of logistic regression Stata output; logistic regression modelling strategies; Post-regression testing and residuals analysis. How to perform/obtain all the above using Stata statistical software. Estimating sample size using PS and G*Power statistical software.
Module content:
The design of questionnaires and mode of delivery of questionnaires; Sampling with attention to complex sampling (stratification and or clustering); Examples and case studies based on South African examples of surveys with complex sampling. The design effect and sample size determination for complex samples. The analysis of data taking into account the sampling structure where this is not simple random sampling.
Module content:
To learn to “think epidemiologically”. The principles of epidemiology including applied epidemiology. The use of EpiData software for questionnaire design, data data capturing and data cleaning. Rates ratios and proportions; Basic study designs used in epidemiology (include cross-sectional, cohort, case-control, ecological, randomised controlled trials. Also sub-groups such as Matched case control, Historical cohort, Nested Case Control). Concepts such as validity, repeatability, confounding, effect modification; Sources and types of bias; sampling methods, probabilistic and non-probabilistic; stratified and cluster sampling; designing questionnaires and questionnaire items; calculating odds ratios, relative proportions relative risks and incidence rate ratios and the correct interpretation of these. infectious disease epidemiology (host/agent/environment model, R0, attack rates, outbreak investigations). Clinical epidemiology (sensitivity specificity predictive values). Operational research principles.
Module content:
Intermediate epidemiological concepts and topics building upon learning that has taken place in the introductory epidemiology module; further study design (including different types of trials); Consort guidelines; Stratification and standardisation of rates; Good clinical practice principles; DAGs; Structural equation modelling; systematic reviews including meta-analysis techniques and methods; Principle components analysis; Propensity score matching; case-cross-over designs; polytomous regression; exact logistic regression; predictive models; repeated measurements (GEE and also fixed/random effects models).
Module content:
This assignment will task the students to integrate both epidemiology and biostatistics in their responses. It will take the nature of an interactive case-based seminar that demonstrates the interrelatedness of epidemiological methods and biostatistical methods. It builds on learning in the modules: Epidemiology 1 and Biostatistics 1.
Module content:
Like the Part 1 integrative assignment, his assignment will task the
students to integrate further epidemiology and biostatistics in their responses. It will take the nature of a case-based seminar that demonstrates the interrelatedness of epidemiological methods and biostatistical methods. It will build on learning that has taken place in the modules: Biostatistics 2 and Epidemiology 2
Module content:
A protocol for a quantitative epidemiological study, or a mixed methods study, that is suitable for presentation to the ethics committee at the start of the MSc programme should the student proceed to the MSc Epidemiology and biostatistics. A protocol for secondary analysis of data or a systematic review that incorporates an appropriate meta-analysis would also be acceptable.
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