The course covers the scope of epidemiology, basic concepts and principles, and major study types.
The aim of the course is to write good abstracts of study plans and results, and also press releases. The maximum number of students is 12. In order to obtain 1 ect there is a written pre-assigment and active participation in a course. Pre-assigments are discussed during the course.
Intermediate course in practical aspects of study design and application of epidemiologic methods.
The course covers fundamental concepts and methods in epidemiologic research, including planning and conducting epidemiologic studies, design strategies, disease occurrence and exposure measurement, statistical associations, bias, confounding, effect modification, causality, and different epidemiological study designs.
Prerequisites Previous knowledge about basic epidemiological concepts and methods.
The course covers introduction to implementation science, the role of implementation in diffusion of innovations, strategies to facilitate implementation, and de-implementation.
Prerequisites Reading material: after registration the list of reading material be sent to registered students
Students evaluate the course according to the evaluation for of the Finnish Doctoral Program in Nursing Science web-page
Eform, By October 15.
Participation in the lectures, completion of learning diary
:This course covers the concepts and methods of vaccine-preventable disease epidemiology and the science of vaccinology. The course can be taken independently or in combination with the Essentials of Infectious disease epidemiology course ( 2 ECTS).
If you are interested in taking this course, please contact Kirsi Lumme-Sandt, kirsi.lumme-sandt@uta.fi.
If you are interested in taking this course, please contact Liina-Kaisa Tynkkynen, liina-kaisa.tynkkynen@uta.fi.
The cancer epidemiology course consists of several themes such as: cancer registration and coding, prevention, differences in incidence and mortality, prediction and survival, radiation and cancer, work and cancer, screening of cancer.
The aim of the course is to be able to have basic knowledge of cancer as a disease, how it is registered and coded, what kind of preventive and early diagnostics are in use, and how to use register data in research and in policy making.
An introduction to epidemiologic data analysis using the statistical programme R. Course will cover basic statistical inference of the fundamental epidemiologic study designs. An introduction to the some more advanced methods concerning statistical analysis of dependent observations and long-term survival analysis are also presented.
If you are interested in taking this course, please contact Liina-Kaisa Tynkkynen, liina-kaisa.tynkkynen@uta.fi.
The cancer epidemiology course consists of several themes such as: cancer registration and coding, prevention, differences in incidence and mortality, prediction and survival, radiation and cancer, work and cancer, screening of cancer.
The aim of the course is to be able to have basic knowledge of cancer as a disease, how it is registered and coded, what kind of preventive and early diagnostics are in use, and how to use register data in research and in policy making.
An introduction to epidemiologic data analysis using the statistical programme R. Course will cover basic statistical inference of the fundamental epidemiologic study designs. An introduction to the some more advanced methods concerning statistical analysis of dependent observations and long-term survival analysis are also presented.
Epidemiology, prevention and control of chronic, non-communicable diseases such as diabetes and cardiovascular diseases; nutritional epidemiology (e.g. measurement of dietary intake in epidemiologic studies).
Students who will complete all parts of the course will earn 4 ECTS. Students who complete other parts of the course except the seminar in Helsinki (Part IA) will earn 3 ECTS.
There will be some reading or other homework before a part of the lectures and practicals. The students will keep a 2-day dietary record before the last practical.
Longitudinal approaches are more and more becoming state-of-the-art in survey resarch. This is not only because they are superior to cross-sectional approaches regarding possibilities for causal inference, but also because longitudinal datasets are increasingly available, and longitudinal analytic techniques are being continually developed further. Longitudinal analysis is applicable in almost any field of research, but is particularly relevant to research on ageing. In this course, principles of longitudinal research and analysis will be provided so that the students will be able to independently carry out a simple empirical analysis with the statistical software package SPSS.
The teacher of the course is visiting professor Dorly J.H. Deeg
This course is intended for participants interested in the practical use of logistic regression
(LR), with a focus on applications to epidemiology. The approach will be non-technical; some mathematics
and algebra is inevitable, but only as necessary. No previous experience with LR is required, and the course
should be accessible to non-statisticians with appropriate other background. Students should have some
previous experience with basic statistical methods.
This course is intended for students to think critically about the challenges that governments encounter in regulating tobacco products that generate tax revenue, but incur medical costs for treating chronic illness. The course is taught from an interdisciplinary perspective with a strong emphasis on the role that public health science has played in shaping tobacco control policy. The course examines the supply and demand for tobacco from the perspectives of the industry and consumer, respectively. As such, the focal point is the epidemiologic triad connecting the agent (tobacco product), host (tobacco user), and environment (e.g., tobacco marketing) to the vector (tobacco industry).Contemporary topics include tobacco harm reduction and tobacco endgame strategies. The course culminates in a group project illustrating the role of various parties involved in the production of tobacco, distribution, marketing, policymaking, regulation, litigation, public health and advocacy.
The course teacher is UTA Visiting Professor David Timberlake.
Programme
Thursday 26.4.
8.00 Departure from Tampere
9.00 Breakfast
9.45 Welcome, orientation and student presentations
Pekka Nuorti and Kirsi Lumme-Sandt
12.15 Lunch
13.00 “Writing Scientific Journal Articles” / Dr Pekka Belt
Dr Pekka Belt currently works in the group for improving the efficiency of postgraduate studies (GIEPS).
GIEPS serves the needs of postgraduate students guiding them in writing doctoral theses and scientific Journal articles in the University of Oulu.
15.00 coffee and tea break
15.15 “Writing a thesis” / Dr Pekka Belt
17.30 Activities
18.30 Sauna
20.00 Dinner
Friday 27.4.
7.00 – 9.00 Breakfast
9.00 – 10.15 From health promoting interventions to ‘eco-chic’ veganism
– Sociological analysis in action
Professor Piia Jallinoja, University of Tampere
10.30 – 11.30 Science & media
Professor Piia Jallinoja
11.30 -12.30 Group work on science & media – seminar participants’ perspectives and ideas
12.30 Lunch
13.30 Group work wrap up
14.30 Coffee / tea, Feedback and closing words
15.00 Departure to Tampere
Decisions in healthcare and policy depend on the highest available evidence. Systematic reviews and meta-analyses rank highest in the evidence hierarchy in informing such important decisions. Over the last decade, their use in different fields of inquiry has rapidly grown in length and breadth. In this course, participants will be taken through the rudiments of conducting systematic reviews and meta-analyses, covering all stages of the review process, including question formulation, study identification, data extraction, quality appraisal, meta-analysis, and many more. Tutoring is participatory, with hands-on practical sessions that allow participants to implement the skills learned. The course is suitable for postgraduate students and researchers from any field of research.
Contents:
- Formulating a research question
- Defining inclusion and exclusion criteria
- Developing a search strategy and locating primary studies
- Selecting studies and assessing their quality
- Performing fixed-effect and random-effects meta-analyses
- Exploring heterogeneity across studies
- Assessing publications bias
- Performing sensitivity analyses
Course outline
7th May 2018
8.30-16.30
Introductions and principles of systematic reviews
8:30-9:00 Introductions and general overviews
9:00-10:00 Rationale for systematic reviews
10:00-10:15 Coffee break
10:15-11:00 Question formulation for a systematic review
11:00-12:00 Lunch break
12:00-13:30 Planning and performing searches: search strategies and databases
13:30-15:00 Study screening, data extraction, and critical appraisal
15:00-15:15 Coffee break
15:15-16:30 Practical session: protocol development and group work
8th May 2018
8.30-16.30
Meta-analysis
8:30-9:30 Practical session: group work
9:30-10:00 Review of Day 1
10:00-10:15 Coffee break
10:15-11:30 Principles of meta-analysis
11:30-12:30 Lunch break
12:30-13:30 Fixed-effect versus random-effects models in meta-analysis
13:30-14:30 Heterogeneity and publication bias in meta-analysis
14:30-14:45 Coffee break
14:45-15.30 Sub-group analysis, meta-regression, and sensitivity analysis
15:30-16:30 Practical session: planning and conducting a meta-analysis
9th May 2018
8.30-15.00
Continuation of meta-analysis and group presentations
8:30-10:30 Practical session: group work
10:30-10:45 Coffee break
10:45-11:15 Review of Day 2
11:15-12:15 Lunch break
12:15-13:00
This intensive, 4-day seminar course will introduce a variety of practical analytical approaches for addressing threats to validity in observational studies. Specific topics will include the limitations of traditional hypothesis testing in observational epidemiology, modern approaches to detecting and attenuating confounding, probabilistic correction for variable misclassification, and handling of missing data. These topics will be taught as non-technically as possible, but references and programming resources will be provided to allow for rigorous application of the methods. Throughout the course, emphasis will be placed on how to successfully incorporate these methods into real-world studies and subsequent publications. Examples using SAS R and Microsoft Excel will accompany many of the lectures. Students are expected to have a solid foundation in epidemiologic study design and biostatistics, including the interpretation of linear, logistic, and proportional hazards regression models, and will be asked to read two to three papers each night in preparation for the next day’s class. Examples using SAS R will focus on demonstrating the mechanics of implementing the methods, and will not assume familiarity with SAS R syntaxprogramming. Equivalent functions in Stata and R SAS will be pointed outdiscussed whenever applicable. Lecture content will be reinforced by afternoon laboratory sessions, in which students can apply the methods taught learned in lecture to the analysis of simulated data sets.
Instructor: Thomas Ahern, PhD, MPH, University of Vermont, U.S.A.
Dr. Ahern studies the pharmacoepidemiology of breast cancer using the U.S. Nurses’ Health Study cohorts and the population-based medical registries of Denmark. He has lectured extensively in beginner, intermediate, and advanced courses in epidemiologic methods, and is experienced in the application of modern analytical concepts to practical research. Dr. Ahern received his PhD in epidemiology from the Boston University School of Public Health, completed a post-doctoral fellowship in cancer epidemiology at the Harvard School of Public Health, and is currently an assistant professor at the University of Vermont College of Medicine.
The sessions delivered will cover: The publication process; The four rules of writing; Structuring a manuscript; Publication ethics. The topics will include the processes that follow manuscript submission and how best to address these to maximise your chances of success such as following ethical principles and adhering to some international standards in publication. We will also look at how to start writing and how best to keep going until you have completed a manuscript with some hints and tips related to this. The session on structuring a manuscript will look at the main headings that are used for manuscripts by most journal and what the expected contents should be under those headings. Finally we will look at fabrication, falsification, authorship issues and conflicts of interest.
The first day offers a series of exercises and points to reflect on, whereas the second day offers the students an opportunity to apply these tips and strategies in an "Editing Clinic". During the second day, the students will be taught a ten-step editing process that they will apply to their own texts in class.
For the second day of the workshop, students are asked to bring one copy of a well-written article in their fields and 5 copies of a 2-3 page sample of their own writing (unedited, unpublished). Please make sure that the writing sample is double spaced.