Clinical Applications of Computational Medicine
Module EI7585
This module handbook serves to describe contents, learning outcome, methods and examination type as well as linking to current dates for courses and module examination in the respective sections.
Basic Information
EI7585 is a semester module in English language at Master’s level which is offered every semester.
This Module is included in the following catalogues within the study programs in physics.
- Catalogue of non-physics elective courses
| Total workload | Contact hours | Credits (ECTS) |
|---|---|---|
| 180 h | 30 h | 6 CP |
Content, Learning Outcome and Preconditions
Content
Computational Medicine is a new scientific field in the intersection between mathematics, physics, biostatistics, computer science, electronics, biomedical engineering and medicine. We focus on actual clinical applications of complex, interdisciplinary solutions for problems in healthcare. Using examples from areas mostly from multiple sclerosis, obstetrics, cardiovascular disease, fall prevention/detection and sport medicine we will explore some of the following important aspects: data collection, biostatistical modelling, filtering, pattern recognition, alarms, prediction, validation, development & certification of web-based tools for clinical decision making.
Learning Outcome
At the end of the module the students are able to understand the problems and key success factors for business models in computational medicine/telemedicine with examples in selected medical areas (multiple sclerosis, obstetrics, cardiovascular disease, fall prevention/detection, exercise therapy).
They are able to apply basic signal processing techniques to solve specific problems (filtering and analysis of data from mobile accelerometry/ECG). They also should be able to understand the scientific method to conduct exploratory research generating and testing hypothesis, looking at events, collecting data, analyzing information and reporting the results. In addition, it is expected that they improve their written and oral communications skills by the creation of a scientific report and holding a public presentation.
They are able to apply basic signal processing techniques to solve specific problems (filtering and analysis of data from mobile accelerometry/ECG). They also should be able to understand the scientific method to conduct exploratory research generating and testing hypothesis, looking at events, collecting data, analyzing information and reporting the results. In addition, it is expected that they improve their written and oral communications skills by the creation of a scientific report and holding a public presentation.
Preconditions
Analysis, classical mechanics, fundamentals in electrical engineering, basics in social psychology, basic knowledge of R/Matlab and statistics
Courses, Learning and Teaching Methods and Literature
Courses and Schedule
WS 2022/3
SS 2022
WS 2021/2
SS 2021
WS 2020/1
SS 2020
WS 2019/20
SS 2019
WS 2018/9
SS 2018
WS 2017/8
SS 2017
WS 2016/7
SS 2016
WS 2015/6
SS 2015
WS 2014/5
SS 2014
WS 2013/4
SS 2013
WS 2012/3
| Type | SWS | Title | Lecturer(s) | Dates | Links |
|---|---|---|---|---|---|
| VO | 2 | Clinical Applications of Computational Medicine |
documents |
Learning and Teaching Methods
Zunächst wir in einer Reihe von 3 Vorlesungen das Basiswissen zu den einzelnen Themen vermittelt. Darufhin erfolgt eine den Fähigeiten und Interessenslage angepassten Themenauswahl ("matching") zur Vertiefung. Kleingruppen (1-3 Studenten) führen mit entsprechender Unterstützung ein kleines Projekt durch, das am Ende präsentiert und diskutiert wird. Also ist die Lehr- und Lernmethode ein Mix aus Vorlesung, Seminar, Übung und Labor.
Media
multimediale Präsentationen, ""hands-on"" Erfahrung mit Medizinprodukten/Messgeräten, interaktive OLAP-Web-Tools, Besuche bei Medizintechnikfirma/klinischen Partnern.
Literature
" Motl RW, Weikert M, Suh Y, Sosnoff JJ, Pula J, Soaz C, Schimpl M, Lederer C, Daumer M: Accuracy of the actibelt® Accelerometer for Measuring Walking Speed in a Controlled Environment among Persons with Multiple Sclerosis. Gait and Posture (2011 Sep 22. [Epub ahead of print])
" Schimpl M, Moore C, Lederer C, Neuhaus A, Sambrook J, Danesh J, Ouwehand W, Daumer M: Association between walking speed and age in healthy, free-living individuals using mobile accelerometry - a cross-sectional study. PLoS ONE 6(8): e23299. doi:10.1371/journal.pone. 0023299
" Schimpl M, Lederer C, Daumer M: Development and validation of a new method to measure walking speed in free-living environments using the actibelt platform. PLoS ONE 6(8): e23080. doi:10.1371/journal.pone.0023080
" Scalfari A, Neuhaus A, Daumer M, Ebers GC, Muraro PA: Age and disability accumulation in Multiple Sclerosis. Neurology (published ahead of print September 14, 2011)
" Daumer M, Neuhaus A, Herbert J. Ebers G: Prognosis of the individual course of disease: the elements of time, hetereogeneity and precision, Journal of the Neurological Sciences 287: S50-S55, 2009
" Ebers G., Heigenhauser L., Daumer M., Lederer C., Noseworthy J.: Disability as an outcome in clinical trials . Neurology 71 (9), 624-631, 2008
" Daumer M, Held U, Ickstadt K, Heinz M, Schach S, Ebers G: Reducing the Probability of false positive Research Findings by pre-publication Validation Experience with a large Multiple Sclerosis Database. BMC Medical Research Methodology 8:18, 2008
" Schunkert, H. et al. for the Cardiogenics Consortium: Repeated Replication and a Prospective Meta-Analysis of the Association Between Chromosome 9p21.3 and Coronary Artery Disease. Circulation 117, 1675-1684, 2008
" Daumer M, Scholz M, Boulesteix AL, Pildner von Steinburg S, Schiermeier S, Hatzmann W, Schneider KTM: The Normal Fetal Heart Rate Study: Analysis Plan , Available at Nature Precedings http://precedings.nature.com/documents/980/version/2, 2007
" Daumer M., Neuhaus A., Lederer C., Scholz M., Wolinsky JS and Heiderhoff M.: Prognosis of the individual course of disease steps in developing a decision support tool for Multiple Sclerosis. BMC Medical Informatics and Decision Making 2007, 7:11
" Daumer M, Thaler K, Kruis E, Feneberg W, Staude G, Scholz M: Steps towards a miniaturized, robust and autonomous measurement device for the long-term monitoring of the activity of patients ActiBelt . Biomedizinische Technik, Biomedical Engineering 52: 149-55, 2007
" Noseworthy J., Kappos L., Daumer M.: Competing interests in Multiple Sclerosis research , The Lancet 361, S. 350f, 2003
" Daumer M.: Online Monitoring von Changepoints in: Biomedizinische Technik, 42, Ergänzungsband 2, Verlag Schiele und Schön, S. 214-215, 1998
" Daumer M., Nahm W., Scholz M., Dannegger F., Kochs E., Morfill G.: Konzept für eine internet-basierte Datenbank zur Unterstützung von Projekten in der Biosignalanalyse , Ergänzungsband Biomed Tech, 43 (3), S. 23-27, 1998
" Schimpl M, Moore C, Lederer C, Neuhaus A, Sambrook J, Danesh J, Ouwehand W, Daumer M: Association between walking speed and age in healthy, free-living individuals using mobile accelerometry - a cross-sectional study. PLoS ONE 6(8): e23299. doi:10.1371/journal.pone. 0023299
" Schimpl M, Lederer C, Daumer M: Development and validation of a new method to measure walking speed in free-living environments using the actibelt platform. PLoS ONE 6(8): e23080. doi:10.1371/journal.pone.0023080
" Scalfari A, Neuhaus A, Daumer M, Ebers GC, Muraro PA: Age and disability accumulation in Multiple Sclerosis. Neurology (published ahead of print September 14, 2011)
" Daumer M, Neuhaus A, Herbert J. Ebers G: Prognosis of the individual course of disease: the elements of time, hetereogeneity and precision, Journal of the Neurological Sciences 287: S50-S55, 2009
" Ebers G., Heigenhauser L., Daumer M., Lederer C., Noseworthy J.: Disability as an outcome in clinical trials . Neurology 71 (9), 624-631, 2008
" Daumer M, Held U, Ickstadt K, Heinz M, Schach S, Ebers G: Reducing the Probability of false positive Research Findings by pre-publication Validation Experience with a large Multiple Sclerosis Database. BMC Medical Research Methodology 8:18, 2008
" Schunkert, H. et al. for the Cardiogenics Consortium: Repeated Replication and a Prospective Meta-Analysis of the Association Between Chromosome 9p21.3 and Coronary Artery Disease. Circulation 117, 1675-1684, 2008
" Daumer M, Scholz M, Boulesteix AL, Pildner von Steinburg S, Schiermeier S, Hatzmann W, Schneider KTM: The Normal Fetal Heart Rate Study: Analysis Plan , Available at Nature Precedings http://precedings.nature.com/documents/980/version/2, 2007
" Daumer M., Neuhaus A., Lederer C., Scholz M., Wolinsky JS and Heiderhoff M.: Prognosis of the individual course of disease steps in developing a decision support tool for Multiple Sclerosis. BMC Medical Informatics and Decision Making 2007, 7:11
" Daumer M, Thaler K, Kruis E, Feneberg W, Staude G, Scholz M: Steps towards a miniaturized, robust and autonomous measurement device for the long-term monitoring of the activity of patients ActiBelt . Biomedizinische Technik, Biomedical Engineering 52: 149-55, 2007
" Noseworthy J., Kappos L., Daumer M.: Competing interests in Multiple Sclerosis research , The Lancet 361, S. 350f, 2003
" Daumer M.: Online Monitoring von Changepoints in: Biomedizinische Technik, 42, Ergänzungsband 2, Verlag Schiele und Schön, S. 214-215, 1998
" Daumer M., Nahm W., Scholz M., Dannegger F., Kochs E., Morfill G.: Konzept für eine internet-basierte Datenbank zur Unterstützung von Projekten in der Biosignalanalyse , Ergänzungsband Biomed Tech, 43 (3), S. 23-27, 1998
Module Exam
Description of exams and course work
After three introductory lectures, the students work in small groups on different projects. Projects are focused on actual clinical applications from some of these areas: multiple sclerosis, obstetrics, cardiovascular disease, fall prevention/detection and sport medicine. The projects will be fixed in detail after the introductory lectures according to the special interests and expertise of the students and the resources. The work done in previous semesters are available at the website of the department to serve as orientation.
In general, a project encompasses these tasks: study design, data collection, algorithm development and validation, data analysis and summary of results.
Students should prepare a report (maximum 4 pages) including the details of their work as well as a set of slides for the final presentation. The The results will be presented to the audience and defended at the end of the semester. External guests are invited to attend and participate in the final presentation.
The quality of the written report, the presentation and the discussion contribute each as 1/3 of the final grade.
In general, a project encompasses these tasks: study design, data collection, algorithm development and validation, data analysis and summary of results.
Students should prepare a report (maximum 4 pages) including the details of their work as well as a set of slides for the final presentation. The The results will be presented to the audience and defended at the end of the semester. External guests are invited to attend and participate in the final presentation.
The quality of the written report, the presentation and the discussion contribute each as 1/3 of the final grade.
Exam Repetition
There is a possibility to take the exam in the following semester.
Current exam dates
Currently TUMonline lists the following exam dates. In addition to the general information above please refer to the current information given during the course.
| Title | |||
|---|---|---|---|
| Time | Location | Info | Registration |
| Clinical Applications of Computational Medicine | |||