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Biological Imaging - Basic Module
Provider: Faculty of Science

Activity no.: 5721-26-00-00There are 25 available seats 
Enrollment deadline: 20/03/2026
PlaceDepartment of Plant and Environmental Sciences
Date and time20.04.2026, at: 00:00 - 20.05.2026, at: 16:00
Regular seats25
LecturersAlexander Schulz
ECTS credits5.00
Contact personAlexander Schulz    E-mail address: als@plen.ku.dk
Enrolment Handling/Course OrganiserPhD Administration SCIENCE    E-mail address: phdcourses@science.ku.dk
Enrolment guidelines
This is a toolbox course where 80% of the seats are reserved to PhD students enrolled at the Faculty of SCIENCE at UCPH and 20% of the seats are reserved to PhD students from other Danish Universities/faculties (except CBS). Seats will be allocated on a first-come, first-served basis and according to the applicable rules.

Anyone can apply for the course, but if you are not a PhD student at a Danish university (except CBS), you will be placed on the waiting list until enrollment deadline. After the enrollment deadline, available seats will be allocated to applicants on the waiting list.


Aim and Content
This course will introduce to all important modalities of advanced biological and biomedical imaging using electromagnetic and other light sources. These modalities offer a wide magnification range to resolve the substructure of molecules, cells, tissues, organs and whole bodies. The course is relevant for PhD students within biological, chemical, physical, medical, molecular and pharmaceutical sciences.
In particular the following topics will be treated: digital images, resolution power, contrast demands within fluorescence microscopy, fluorescence life time imaging, super resolution microscopy, electron and cryo electron microscopy. An important part will be the dos and don’ts of imaging, data analysis, -management and –statistics as well as image processing.
Biological Imaging’s basic module gives the knowledge background of three Advanced Biological Imaging modules, namely X-ray imaging, Mass Spectroscopic imaging, and IR / Raman imaging (see course numbers X, Y, Z)


Learning outcomes
Intended learning outcome for the students who complete the course:
This course aims at giving the student an understanding of biomedical imaging including the physical and optical principles of cutting-edge microscopes and beamlines. The course includes show cases at the relevant instruments and, thus, will be an important asset for students that want to integrate biological imaging in their projects.

After the course the student should be able to:

Knowledge
• Describe properties of different light sources and their impact on biological specimens.
• Understand the principles of specimen preparation;
• Process raw data from different imaging modalities, including multivariate analysis of 4D image series
• Find the respective instruments in the Øresund region

Skills
• Analyse and evaluate scientific papers which utilize biological imaging instruments and –beam lines;
• Make a flow-chart of data management from raw image data to analysis;
• Process image series with simple software algorithms for contrast and brightness improvement, segmentation and automated analysis

Competences
• Select appropriate imaging modalities to visualize molecular or cellular structures and processes;
• Describe the limitations of the different imaging modalities used in the course; to solve scientific questions of a project within Biology, Biology-Biotechnology, Computer Science, Medicine and Technology, Molecular Biomedicine, Nanoscience or Pharmaceutical Sciences.


Target Group
PhD students within Life and Biomedical Sciences


Recommended Academic Qualifications
Passed Bachelor in Biomedical, Chemical or Computer Sciences


Research Area
All research areas using light microscopic imaging


Teaching and Learning Methods
Lectures, Journal Clubs, flipped classroom, and practical show cases. The laptop should be able to run Python or a similar data analysis program (4GB RAM).
Practicals will be taught at the Center for Advanced Bioimaging (CAB-FBG and Nørre Campus), and at the Center for Integrated Microscopy (CFIM – at the Panum building).


Type of Assessment
Short report of the images recorded at the showcases


Literature
Relevant background material and journal articles will be electronically available at the start of the course


Course coordinator
Alexander Schulz, Professor, als@plen.ku.dk


Guest Lecturers
Tim B. Dyrby, DTU
Guest lecture on preclinical and clinical MRI


Dates
20 April-20 May 2026 (the first 5 weeks of block 4)


Expected frequency
Once per year


Course location
PLEN-CPSC Ø-labs, CAB




Course fee
• Participant fee: 1000 DKK
• PhD student enrolled at SCIENCE: 0 DKK
• PhD student from Danish PhD school Open market: 0 DKK
• PhD student from Danish PhD school not Open market: 6000 DKK
• PhD student from foreign university: 6000 DKK
• Master's student from Danish university: 0 DKK
• Master's student from foreign university: 6000 DKK
• Non-PhD student employed at a university (e.g., postdocs): 6000 DKK
• Non-PhD student not employed at a university (e.g., from a private company): 16.800 DKK


Cancellation policy
• Cancellations made up to two weeks before the course starts are free of charge.
• Cancellations made less than two weeks before the course starts will be charged a fee of DKK 3.000
• Participants with less than 80% attendance cannot pass the course and will be charged a fee of DKK 5.000
• No-show will result in a fee of DKK 5.000
• Participants who fail to hand in any mandatory exams or assignments cannot pass the course and will be charged a fee of DKK 5.000


Course fee and participant fee
PhD courses offered at the Faculty of SCIENCE have course fees corresponding to different participant types.
In addition to the course fee, there might also be a participant fee.
If the course has a participant fee, this will apply to all participants regardless of participant
type - and in addition to the course fee.

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