Key Fields for Bachelor's thesis, Student's/Research's thesis and Master's thesis
- Manufacturing of anatomical models based on medical imaging using 3D-printing and molding techniques (M.Sc. Jenny Schäfer, M.Sc. Ashkan Shiravand)
- Production and characterisation of biologised scaffolds using cell cultures (M.Sc. Ali Salehi, Dr. rer. nat. Evelin Racz)
- In-vitro blood tests (Dr. rer. nat. Evelin Racz)
- Design and manufacture of minimally invasive cardiovascular and neurovascular implants (Dr.-Ing. Daniela Sánchez, M.Sc. Annika Zanker)
- Development and LabView-based control of biomedical test setups (Dr.-Ing. Johannes Port)
- Numerical and experimental fluid dynamic investigation of the cardiocirculatory system and implants (M.Sc. Ashkan Shiravand, M.Sc. Sheikh Arslan Waqar)
- Lung modelling and experimental evaluation of transport processes in bronchial models (M.Sc. Christoph Schmidt)
Open projects are described below. For information about further available topics as well as suitability for Bachelor Thesis, Student Project or Master Thesis please contact the respective supervisors.
Tender for Student projects
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Note
Suitability of topics for bachelor's, student's or master's thesis - if not specified - is defined with the supervisor - Experimental study of compliance effect on Hemodynamics and Implant Mechanics in Cerebral Aneurysm Models Using Ultrasound and Microscopy
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Contact person: Ashkan Shiravand
Description
Availability: from now
Language: English
Type of project: Bachelor's, Research- or Master's thesis - Investigation of Compliance Effect on Hemodynamics in Cerebral Aneurysms with Fluid-Structure Interaction (FSI) Analysis
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Contact person: Ashkan Shiravand
Description
Availability: from now
Language: English
Type of project: Bachelor's, Research- or Master's thesis - Cell culture on surface-engineered planar hydrogel substrates and investigation of cell-interface interactions to develop a biomaterial for cardiovascular research
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Contact person: Ali Salehi
Description
Availability: from now
Language: English
Type of project: Bachelor's or Master's thesis - Cultivation of human cells on coated plant-based scaffolds to prepare biologized biomaterials
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Contact person: Ali Salehi
Description
Availability: from now
Language: English
Type of project: Bachelor's or Master's thesis - Preparation and characterization of surface-engineered hydrogel scaffolds and tubular vessel models for tissue engineering applications
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Contact person: Ali Salehi
Description
Availability: from now
Language: English
Type of project: Bachelor's thesis or Study's / Research's thesis
Examples of previous thesis
- Biofunctionalization and surface modification of gelatin-based hydrogels for improvement of endothelialization
- Development and investigation of a hydrogel heart valve for use in a pulsatile circuit
- In vitro modeling of intraluminal thrombi in abdominal aortic aneurysms
- Development of a method to study neurovascular navigation systems in intracranial vascular models
- Design of X-ray markers for a BEVAR stent graft and development of a connection technology
- Development of a Peristaltic Hydrogel Pump for a Closed Loop Cardiovascular System
- Mechanical and microstructural investigation of decellularized tubular plants for production of natural endothelialized vessel models
- Development of a peristaltic hydrogel pump for integration in cardiovascular circulation model
- Fabrication of a pre-vascularized bulk network with hydrogels as a vessel model for intravascular implant investigations
- Development of a novel bioreactor system for endothelialization of decellularized and synthetic vessels
- Development of an in vitro model to investigate mechanical behavior of the renal arteries after endovascular aortic repair
- Development of an automated system to perform parallel decellularization processes of biological vessels for in vitro investigation
- Entwicklung eines Bioreaktors zur Endothelialisierung dezellularisierter Gefäße und Gefäßmodelle
- Investigation of the effects of stent grafts on fluid dynamics in aortic models using ultrasound
- Further development of a near-field electrospinning system for the reproducible generation of ordered polymeric microfibers
- Development of blood substitute and vessel phantom for ultrasound flow study
- Development and fabrication of an aortic model with defined mechanical properties for the investigation of endovascular implants
- Fabrication of aneurysm vessel models made of hydrogel using soluble core technique
- Development and construction of a setup for near-field electrospinning
- Fabrication of aneurysm vessel models made of hydrogel using soluble core technique
- Development of blood substitute and vessel phantom for ultrasound flow study of aneurysm
- Development of an automated, modular Test Setup for Compliance Measurements of Different Medical Models
- Development of a loop model mimicking pulsatile blood flow for hemocompatibility testing of vascular implants
- Optimization of a device to determine the expansion behavior of self-expanding stents
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Development of a method for the fabrication of pathological thin-walled aortic models based on patient data
- Optimization and evaluation of a near-field electrospinning system for reproducible generation of ordered polymeric microfibers.