Period: 19 October 2020 - 13 November 2020
Cardiometabolic risk factors such as obesity, dyslipidemia, insulin resistance, hypertension and low grade inflammation, collectively termed the ‘metabolic syndrome’, are strongly associated with type 2 diabetes and premature cardiovascular disease. The metabolic syndrome is predominantly caused by the prevalent dysbalance between energy intake and expenditure in the Western world. Chronic and excess consumption of the wrong food at the wrong time dysregulates the complex interplay between neuronal and metabolic circuits that control normal energy homeostasis and drives the obesity epidemic.
This course will provide detailed insight into the latest developments in fundamental biological research aimed at understanding the etiology of the cardiometabolic diseases, type 2 diabetes and cardiovascular disease. This will be combined with theoretical and practical insight in the application of metabolomics technologies, which aim to comprehensively map metabolites in body fluids to gain understanding in pathophysiological processes.
General and detailed overviews will be given by both basic scientists as well as research physicians. PhD-students will present their projects to illustrate the scientific approaches taken to address the various questions concerning cardiometabolic disease and the application of metabolomics. Some practical studies as well as demonstrations will be included for illustration purposes.
In this four week course, overall, one week will be devoted to lectures, discussions and self-study assignments on the different aspects of type 2 diabetes, one week to cardiovascular disease and one week to metabolomics technologies. Two to three afternoons per week will be spent on practical insight and will include some (self)experimentation including a glucose tolerance test. The fourth week is assigned to the writing of a review.
Approximately half of the lectures will be given by PhD students and they will try to enthuse you for their specific research question. The other half of the lectures will be given by more senior scientists and clinicians and will include a more general review of the field, but again will also include emphasis of their own research.
-the student can describe the links between the various abnormalities that are termed cardiometabolic risk factors and the development of type 2 diabetes and premature cardiovascular disease.
-the student has gained insight in the application of metabolomics technologies to gain insight into pathophysiological processes.
-the student is able to implement this knowledge to define a hot topic and translate this knowledge into a written review and a presentation.
-the student has gained insight in current research into metabolomics and cardiometabolic disease at the LUMC.
-the student shows communication skills in order to write and present coherently and convincingly while taking into account modern presentation and writing principles.
-the student is able to acquire and extend knowledge and understanding independently and efficiently and in doing so reflecting on own actions in order to improve his/her own product or approach.
-the student cooperates constructively with peers and in doing so assessing work of others when give some basic criteria in a valid and realistic way and give and receive peer feedback constructively.
All course and group schedules are published on our LUMC scheduling website: https://www.lumc.nl/org/onderwijsrooster/ or on the LUMC scheduling app.
Mode of instruction
The student’s oral and written report of the two in-lab trainings. The hot topic review itself. Student behaviour (motivation, independency, oral reporting, participation in discussion).
Will be distributed during the course.
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