Informatie opleidingsonderdeel

Survival Data Analysis DL (3632)
Contact Person :	Prof. dr. Tomasz BURZYKOWSKI


Coordinating lecturer :	Prof. dr. Tomasz BURZYKOWSKI

Language of instruction : English

Exam contract: not possible

Sequentiality

Mandatory sequentiality bound on the level of programme components


Following programme components must have been included in your study programme in a previous education period
	Concepts of Probability and Statistics DL (3220)	5.0 stptn
	Generalized Linear Models DL (3580)	6.0 stptn

Degree programme

Study hours

Credits

P1 SBU

P1 SP

2^nd Chance Exam¹

Tolerance²

Final grade³

second year Master Biostatistics - distance learning

Compulsory

3,0

Yes

Numerical

Learning outcomes

EC	The student can handle scientific quantitative research questions, independently, effectively, creatively, and correctly using state-of-the-art design and analysis methodology and software.
	DC	... correctly using state-of-the-art analysis methodology.
	DC	... correctly using state-of-the-art software.
EC	The student is capable of acquiring new knowledge.
EC	The student has the habit to assess data quality and integrity.
EC	The student knows the international nature of the field of statistical science and data science.
EC	The student is an effective written and oral communicator, both within their own field as well as across disciplines.
EC	The student is able to correctly use the theory, either methodologically or in an application context or both, thus contributing to scientific research within the field of statistical science, data science, or within the field of application.
	DC	The student is able to correctly use the theory methodologically, thus contributing to scientific research within the field of statistical and data science.
	DC	The student is able to correctly use the theory methodologically, thus contributing to scientific research within the field of application.
	DC	The student is able to correctly use the theory in an application context, thus contributing to scientific research within the field of statistical and data science.
	DC	The student is able to correctly use the theory in an application context, thus contributing to scientific research within the field of application.

EC = learning outcomes DC = partial outcomes BC = evaluation criteria

Prerequisites

The student should be familiar with statistical inference and statistical (generalized linear, mixed effects) models.

Content

The course provides an introduction to the survival analysis.

Topics:

basics (censoring mechanisms, characteristics of the time-to-failure distribution, etc.);
basic time to failure distributions (exponential, Weibull);
Kaplan Meier estimator;
tests for comparing of survival curves (logrank, Gehan's, logrank test for trend, extensions);
proportional hazards model (estimation, diagnostics);
parameteric models;
marginal models for multivariate and correlated failure-time data;
competing risks.

Organisational and teaching methods

Organisational methods
	Collective feedback moment ✔
	Distance learning ✔
Teaching methods
	Homework ✔

Evaluation

Period 1 Credits 3,00

Evaluation method

Written evaluaton during teaching periode

25 %

Transfer of partial marks within the academic year

✔

Homework

✔

Other evaluation method during teaching period

5 %

Other

Quizzes

Transfer of partial marks within the academic year

✔

Written exam

70 %

Closed-book

✔

Multiple-choice questions

✔

Off campus online evaluation/exam

✔

For the full evaluation/exam

✔

Additional information

To get the final score, the weighted score is rounded mathematically, unless exam result is less than 50%, in which case the integer part is taken. The maximum final score is 20. To pass the course, the achieved final score has to be at least 10 (i.e., 50%). The quizzes and homework scores are retained when computing the final score after the second chance exam.

Second examination period

Evaluation second examination opportunity different from first examination opprt

Compulsory course material

Leture notes and reading materials provided by the instructor

Recommended reading

Modeling Survival Data in Medical Research,Collett D,2,Chapman and Hall/CRC,9781584883258,Available as e-book: https://ebookcentral.proquest.com/lib/ubhasselt/detail.action?docID=5345205&pq-origsite=summon
Modeling Survival Data: Extending the Cox Model,Terry M. Therneau Patricia M. Grambsch,9781441931610

Recommended course material

R and SAS are recommended softwares for this course.

second year Quantitative Epidemiology - distance learning

Compulsory

3,0

Yes

Numerical

Learning outcomes

EC	The student can handle scientific quantitative research questions, independently, effectively, creatively, and correctly using state-of-the-art design and analysis methodology and software.
	DC	... correctly using state-of-the-art analysis methodology.
	DC	... correctly using state-of-the-art software.
EC	The student is capable of acquiring new knowledge.
EC	The student has the habit to assess data quality and integrity.
EC	The student can work in a multidisciplinary, intercultural, and international team.
EC	The student knows the international nature of the field of statistical science and data science.
EC	The student is an effective written and oral communicator, both within their own field as well as across disciplines.
EC	The student is able to correctly use the theory, either methodologically or in an application context or both, thus contributing to scientific research within the field of statistical science, data science, or within the field of application.
	DC	The student is able to correctly use the theory methodologically, thus contributing to scientific research within the field of statistical and data science.
	DC	The student is able to correctly use the theory methodologically, thus contributing to scientific research within the field of application.
	DC	The student is able to correctly use the theory in an application context, thus contributing to scientific research within the field of statistical and data science.
	DC	The student is able to correctly use the theory in an application context, thus contributing to scientific research within the field of application.

EC = learning outcomes DC = partial outcomes BC = evaluation criteria

Prerequisites

The student should be familiar with statistical inference and statistical (generalized linear, mixed effects) models.

Content

The course provides an introduction to the survival analysis.

Topics:

basics (censoring mechanisms, characteristics of the time-to-failure distribution, etc.);
basic time to failure distributions (exponential, Weibull);
Kaplan Meier estimator;
tests for comparing of survival curves (logrank, Gehan's, logrank test for trend, extensions);
proportional hazards model (estimation, diagnostics);
parameteric models;
marginal models for multivariate and correlated failure-time data;
competing risks.

Organisational and teaching methods

Organisational methods
	Collective feedback moment ✔
	Distance learning ✔
Teaching methods
	Homework ✔

Evaluation

Period 1 Credits 3,00

Evaluation method

Written evaluaton during teaching periode

25 %

Transfer of partial marks within the academic year

✔

Homework

✔

Other evaluation method during teaching period

5 %

Other

Quizzes

Transfer of partial marks within the academic year

✔

Written exam

70 %

Closed-book

✔

Multiple-choice questions

✔

Off campus online evaluation/exam

✔

For the full evaluation/exam

✔

Additional information

Compulsory course material

Leture notes and reading materials provided by the instructor

Recommended reading

Modeling Survival Data in Medical Research,Collett D,2,Chapman and Hall/CRC,9781584883258,Available as e-book: https://ebookcentral.proquest.com/lib/ubhasselt/detail.action?docID=5345205&pq-origsite=summon
Modeling Survival Data: Extending the Cox Model,Terry M. Therneau Patricia M. Grambsch,9781441931610

Recommended course material

R and SAS are recommended softwares for this course.

second year Master Bioinformatics - distance learning

Optional

3,0

Yes

Numerical

second year Data Science - distance learning

Optional

3,0

Yes

Numerical

Learning outcomes

EC	The student can handle scientific quantitative research questions, independently, effectively, creatively, and correctly using state-of-the-art design and analysis methodology and software.
	DC	... correctly using state-of-the-art analysis methodology.
	DC	... correctly using state-of-the-art software.
EC	The student is capable of acquiring new knowledge.
EC	The student has the habit to assess data quality and integrity.
EC	The student knows the international nature of the field of statistical science and data science.
EC	The student is an effective written and oral communicator, both within their own field as well as across disciplines.
EC	The student is able to correctly use the theory, either methodologically or in an application context or both, thus contributing to scientific research within the field of statistical science, data science, or within the field of application.
	DC	The student is able to correctly use the theory methodologically, thus contributing to scientific research within the field of statistical and data science.
	DC	The student is able to correctly use the theory methodologically, thus contributing to scientific research within the field of application.
	DC	The student is able to correctly use the theory in an application context, thus contributing to scientific research within the field of statistical and data science.
	DC	The student is able to correctly use the theory in an application context, thus contributing to scientific research within the field of application.

EC = learning outcomes DC = partial outcomes BC = evaluation criteria

Prerequisites

The student should be familiar with statistical inference and statistical (generalized linear, mixed effects) models.

Content

The course provides an introduction to the survival analysis.

Topics:

basics (censoring mechanisms, characteristics of the time-to-failure distribution, etc.);
basic time to failure distributions (exponential, Weibull);
Kaplan Meier estimator;
tests for comparing of survival curves (logrank, Gehan's, logrank test for trend, extensions);
proportional hazards model (estimation, diagnostics);
parameteric models;
marginal models for multivariate and correlated failure-time data;
competing risks.

Organisational and teaching methods

Organisational methods
	Collective feedback moment ✔
	Distance learning ✔
Teaching methods
	Homework ✔

Evaluation

Period 1 Credits 3,00

Evaluation method

Written evaluaton during teaching periode

25 %

Transfer of partial marks within the academic year

✔

Homework

✔

Other evaluation method during teaching period

5 %

Other

Quizzes

Transfer of partial marks within the academic year

✔

Written exam

70 %

Closed-book

✔

Multiple-choice questions

✔

Off campus online evaluation/exam

✔

For the full evaluation/exam

✔

Additional information

Compulsory course material

Leture notes and reading materials provided by the instructor

Survival Data Analysis DL (3632)